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2018-00234 - alarm system
CITY OF ORONO 1111111111111111111111111111111111111111 2750 KELLEY PARKWAY * 20 1 8 — 0 0 2 DATE ISSUED: 04/04/22 011 8 ORONO, MN 55356- (952) 249-4600 FAX: (952) 249-4616 ADDRESS : 685 OLD CRYSTAL BAY RD N PIN : 33-118-23-21-0002 LEGAL DESC : UNPLATTED 33 118 23 : LOT 000 BLOCK 000 PERMIT TYPE : FIRE SYSTEMS PROPERTY TYPE : COMMERCIAL-BUSINESS CONSTRUCTION TYPE : ALARM SYSTEM NOTE: INSPECTIONS ARE DONE BY FIRE MARSHALL,JAMES VAN EYLL. PLEASE CALL JAMES VAN EYLL DIRECTLY AT:(952)473-9701 TO SET UP AN INSPECTION. FIRE ALARM MAINT.FACILITY ENTER CONTRACT PRICE 6296 ENTER THE VALUTATION 6296 APPLICANT FIRE ALARM 154.85 STATE SURCHARGE VAL OTHER 3.15 LVC COMPANIES INC TOTAL 158.00 4200 WEST 76TH STREET MINNEAPOLIS,MN 55435- Payment(s) (952)835-4600 CREDIT CARD 0942 158.00 Minnesota State License#:cont-TS000375 OWNER SCHOOLS,ORONO PUBLIC 765 OLD CRYSTAL BAY RD N LONG LAKE,MN 55356- AGREEMENT AND SWORN STATEMENT The work for which this permit is issued shall be performed according to the approved plans and specifications,applicable City approvals,and the State Building Code. This permit is for only the work described and does not grant permission for additional or related work which requires separate permits. All provisions of laws and ordinances governing this type of work shall be compied with whether or not specified herein.This permit will expire and become null and void if construction authorized is not commenced within 180 days of the date of issuance,or if construction is suspended for a period of 180 days at any time after work has commenced. The applicant is responsible for assuring all required inspections are requested in conformance with the State Building Code.This permit may be revoked at any time for due cause. iRnor , ,Applicant Permitee Signature Date Issature Date fiziLryli7L 49Y2l SP-c Z33 FIRE ALARM OR KITCHEN EXTINQUISHER PERMITS Please Check One: IV1) # /5- ' New NI Addition Remo el n Replace Job Site/ON,41-44'® ' attoir I Site Address: Le 2)5 N 01(1 Cirtj S ti a 9 R Owner: 0 q)n 0 Schools f QU I! ailing Address: City: L-on3 e Zip: 55. 3519 Home Phone: Alternate Phone: ContraattrJ Applicant tnforination: r Contractor/App.: LC Corn'nI '?S Inc Contact Person: Dano B lackstoct Address: q2-00 J\QSt I cs th St-, State License #: �31 City: m I n f k IIS Zip: L?j Expiration Date: Phone: d- g3lJ' T LO - Alternate Phone: TYPES OF FIRE PERMITS [ Commercial—Fire Alarm ❑ Commercial—Fire Extinguisher Fire Systems Permit Fire Systems Permit *(Per UBC) * (Per UBC) *Contract Price: $ �71 a I b" *Contract Price: $ ❑ Residential—Fire Alarm Fire Systems Permit *(Per UBC) *Contract Price: $ *Note Permits are calculated with UBC Fee Schedule;submit application and we will call you with a total fee for the permit. I herby apply for a Fire Alarm/Extinguisher Permit and I acknowledge that the information above is complete and accurate;that the work will be in conformance with the Ordinances and Codes required by Minnesota State Building Code(MUBC)or Minnesota State Fire Code(MUFC)shall be installed and maintained as per National Fire Protection Association (NFPA) 72 and 72E, 1996 edition, National Electrical Code and manufacturers requirements; that I understand this is not a permit and work is not to start without a permit; and that the ws •' wil be 'Ai ac-: ..nce with the approved plan. �� 1 i /� 3- a _ RECEIVED ApplicanA' ,,,,ii Date MAR 0 1 2018 CITY OF ORONO PLAN REVIEW CHECKLIST �FOR NEW STRUCTURES / ADDITIONS / Address: (0 0.� Al OA C/17 41, (/ Permit No.: G-U'/g`coz_g T Description of work: Date Rec'd: Septic review by: Date Approved: Zoning review by: Date Approved: Building review by: 7 ..r Date Approved: VzzAg Grading review by: Date Approved: Zoning District: Zoning File#: Reso#:// Reso Date: Zoning: Lot Area: SF\AC Width: Lot Coverage: SF % Survey Submitted: 0 Yes \ 0 No Date of Survey: / Revised date(?): Landscape plan submitted? 0 Ys 0 No Landscaper: / / Proposed Setbacks: / Front (Lake) Rear(Street) N S E W ) ( N S E W ) Other Buildings Wetland Side Side / / Defined Height: Peak Heigh : FF : FFE minus 6 feet= (Existing Contour) Perimeter(linear feet) = 50%= L.F. below grade / Basement? 0 Yes 0 No, Sto es FOR A BUILDING WITH A BASEMENT OR CRAWL SPACE: FOR A BUILDING ON A SLAB FOUNDATION: The distance between the low. t proposed Slab at or above grade— START WITH floor(of the basement or crawl•pace)and measure from highest existing the highest point of the roof. START WITH grade to the highest point of the / roof even if fill was brought in to elevate home. If you have a... SUBTRACTION • GABLE OR HIPPED ROOF( • Slab below grade—measure (BASED ON windows): ,Subtract half the di•tance from highest existing grade to the ROOF TYPE) between the highest point of the roof highest point of the roof. to the low point of the correspon.ing If you have a... gable or hipped roof SUBTRACTION • GABLE OR HIPPED ROOF • GAB).:E OR HIPPED ROOF(with (BASED ON (no windows): Subtract half windows): Subtract half the dista ce ROOF TYPE) the distance between the highest point of the roof to between the top of the highest the low point of the window and the highest point of the corresponding gable or roof hipped roof • ALL OTHER ROOF TYPES(flat, • GABLE OR HIPPED ROOF mansard,etc):No subtraction. (with windows): Subtract SUBTRACTION Subtract the distance between the half the distance between (BASED ON basement/crawl space floor and the the top of the highest EXISTING highest existing grade adjacent to thewindow and the highest GRADES) foundation OR 10 feet(whichever is less). \ point of the roof \ • ALL OTHER ROOF TYPES (flat,mansard,etc):No EQUALS Defined building height subtraction. • Defined building height EQUALS / L Updated: October 2015 z:\forms\plan review checklist 10-2015.docx Shoreland District MCWD Permit Average Lakeshore Setback Bluff Met? ❑ Yes ❑ No Permit Number: 0 Yes 0 No 0 N/A 0 Yes No ❑ 0 N/A—see attached Setback: Stormwater Quality Existing Proposed Overlay District Tier Hardcover Hardcover Variance Required CUP Required (circle one) (% and sf) (% and sf) ❑ Yes ❑ No ❑ Yes ❑ No 1 2 3 4 5 Type(s): Type(s): Fees to be Charged X O r h� Plan Review t�? Investigation Fee V Other(specify) Square Footage $ per Square Footage Basement X = $ 1st Floor X = $ 2nd Floor X = $ Garage X = $ G� Estimated Construction Value: $ Orono Inspections Required Work Requiring Separate Permits ❑ Footing 0 Site 0 Plumbing 0 Grading/ Filling ❑ Poured Wall 0 Silt Fence/Erosion Control 0 Mechanical 0 Fire ❑ Foundation Survey 0 Hardcover Removal 0 Septic 0 Water Connection ❑ Foundation Waterproofing Other(specify) 0 Fireplace 0 Sewer Connection ❑ Framing �! 0 Masonry 0 Lawn Irrigation ❑ Insulation c�// !1 0 Mfg. 0 Landscaping ❑ As-Built Survey D`r ❑ Other(specify) Final H-0 ` sltrofie � ❑ Lathe jt� 26A-6',,,'("4' Required State Permits ❑ Other(specify) f`', C/ 0 Well 0 Electrical REMARKS (in-house): OFFICIAL REMARKS -TO BE NOTED ON PERMIT AND INITIALLED: ❑ See Builder Acknowledgement Form ❑ Prior to release of escrow money an as-built survey and hardcover calculations must be submitted and approved. Updated: October 2015 \fnrmc\Nan raaiiaui rhorklict 1 11-9111c rinry UPue. . g,,toys " tit V ; DN-7070:P•A-10 NFS2-3030 NOTIFIER® Intelligent Addressable Fire Alarm System by Honeywell Intelligent Fire Alarm Control Panels General The NFS2-3030 is an intelligent Fire Alarm Control Panel (FACP) designed for medium- to large-scale facilities. Fire emergency detection and evacuation are extremely critical to life safety,and the NFS2-3030 is ideally suited for these appli- { 111 cations.The NFS2-3030 is part of the ONYX®Series of prod- ucts rod ucts from NOTIFIER.The NFS2-3030 is ideal for virtually any "' application because it features a modular design that is config l– — i °j €, ured per project requirements.With one to ten Signaling Line ° s Circuits (SLCs), the NFS2-3030 supports up to 3,180 intelli = i _, gent addressable devices. Information is critical to fire evacuation personnel, and the NFS2-3030's large 640-character Liquid Crystal Display(LCD) presents vital information to operators concerning a fire situa- tion,fire progression,and evacuation details. A host of other options are available, including single-or multi- channel voice;firefighter's telephone; LED, LCD, or PC-based graphic annunciators; networking; advanced detection prod- 707oco g.ipg ucts for challenging environments;wireless fire protection;and many additional options. NFS2-3030 (left) Features and NFS2-3030 with DVC audio option (right) • Certified for seismic applications when used with the appro- priate seismic mounting kit. • With built-in Degraded Mode operation,the system is capa- • Approved for Marine applications when a marine listed ver ble of general alarm if a fire alarm condition is present even sion is used with marine-listed compatible equipment. See if the central processing unit(CPU)fails. DN-60688. • Weekly Occupancy Schedules allow changing sensitivity by • Complies with UL 2572 Mass Notification Systems (NFS2 time of day and day of week. 3030 version 20 or higher). • EIA-485 annunciators,including custom graphics. • One to ten isolated intelligent Signaling Line Circuits(SLC) • History file with 4000-event capacity in nonvolatile memory, Style 4,6 or 7. plus separate 1000-event alarm-only file. • Wireless fire protection using SWIFT Smart Wireless Inte- • Advanced history filters allow sorting by event, time, date, grated Fire Technology.See DN-60820. or address. • Up to 159 detectors and 159 modules per SLC;318 devices • Alarm Verification selection per point, with automatic per loop/3,180 per FACP or network node. counter. –Detectors can be any mix of ion, photo,thermal, or multi- • Autoprogramming and Walk Test reports. sensor; wireless detectors are available for use with the • Multiple central station communication options: FWSG. –Standard UDACT –Modules include addressable pull stations, normally open –Internet contact devices,two-wire smoke detectors, notification,or –Internet/GSM relay; wireless modules are available for use with the FWSG. • Positive Alarm Sequence(PAS) Presignal. • Large 16 line, 640 character LCD backlit display or use • Silence Inhibit and Auto Silence timer options. display-less as a network node. • Field-programmable on panel or on PC, with VeriFire Tools • Network options: program,also check,compare. –High-speed network for up to 200 nodes (NFS2-3030, • Non-alarm points for lower priority functions. NFS2-640, NFS-320(C), NFS-320SYS, NCA-2, DVC-EM, • Remote ACK/Signal Silence/System Reset/Drill via monitor ONYXWorks,NFS-3030, NFS-640,and NCA). modules. –Standard network for up to 103 nodes (NFS2-3030, • Up to 1000 powerful Boolean logic equations. NFS2-640, NFS-320(C), NFS-320SYS, NCA-2, DVC-EM, . Supports SCS Series smoke control system in both HVAC ONYXWorks,NCS, NFS-3030, NFS-640,NCA,AFP-200, and FSCS modes. AFP 300/400, AFP 1010, and AM2020). Up to 54 nodes • FM6320 approved Gas Detection System with FMM-4-20 when DVC-EM is used in network paging. module and any FM listed gas detector. • Built-in Alarm,Trouble,Security,and Supervisory relays. • EIA 232 printer port. • VeriFire®Tools online/offline program option. • EIA 485 annunciator port. DN-7070:P•3/8/17—Page 1 of 8 640-CHARACTER DISPLAY FEATURES –Acclimate PIusTM–0.5 to 4.0%/foot obscuration. • Backlit,640-character display. –IntelliQuad–1.0 to 4.0%/foot obscuration. • Program keypad:full QWERTY keypad. –IntelliQuadTM PLUS–1.0 to 4.0%/foot obscuration • Up to nine users, each with a password and selectable • Drift compensation(U.S. Patent 5,764,142). access levels. • Multi-detector algorithm involves nearby detectors in alarm • 11 LED indicators: Power; Fire Alarm; Pre-Alarm; Secu- decision(U.S. Patent 5,627,515). rity; Supervisory; System Trouble; Other Event; Signals • Automatic detector sensitivity testing(NFPA-72 compliant). Silenced; Point Disabled;CPU Failure;Controls Active. • Maintenance alert(two levels). • Membrane Switch Controls: Acknowledge; Signal • Self-optimizing pre-alarm. Silence; Drill;System Reset; Lamp Test. LCD Display: 640 characters (16 lines x 40 characters) • Programmable activation of sounder/relay bases during • alarm or pre-alarm. with long-life LED backlight. • Read Status displays the level of detector cleanliness. FLASHSCAIIP INTELLIGENT FEATURES FSL-751 VIEW (VERY INTELLIGENT EARLY WARNING) • Polls up to 318 devices on each loop in less than two SMOKE DETECTION TECHNOLOGY seconds. • Activates up to 159 outputs in less than five seconds. • Advanced ONYX intelligent sensing algorithms differentiate Multicolor LEDs blink device address during Walk Test. between smoke and non-smoke signals (U.S. Patent • 5,831,524). • Fully digital, high-precision protocol (U.S. Patent • Addressable operation pinpoints the fire location. 5,539,389). • Early warning performance comparable to the best aspira- • Manual sensitivity adjustment—up to nine levels. tion systems at a fraction of the lifetime cost. • Pre-alarm ONYX intelligent sensing—up to nine levels. • Sensitivity levels: –Ion–0.5 to 2.5%/foot obscuration. –Photo–0.5 to 2.35%/foot obscuration. –Laser(VIEW)–0.02 to 2.0%/foot obscuration. Sample System Options SLC Intelligent Loop %L9 DEVICES inz ° ° a.... FWSG FAPT-851 NBG-12LX T I XP6/10 I/O Modules Up t0 32 FSL-751 LCD-160 FSP-851 FMM-1 FRM-1 LCD2-80 remote FSA-8000 displays etc. IDC Relay Contact EIA-485 EIA-485 3072 annunciator/control points MS IP mkvismoimi .—■ ■ —► L°1J .—■ ■—► _ _ = _ _ _ CPU2-3030D _ 4-• •—i E = ma = = _ = I ° I . display or = = _ _ _ _ _ CPU2-3030ND .I ACM-8R ACM/AEM-24AT LDM-32 Relay Control LED Annunciator Custom Graphics 9? :II! aa a _ _ ao _ _ _? *Dual phone Ow lines to Optional 2048-point UDACT Central Station EIA-232 NFS2-3030 / Shown in CAB-C4 with display DVC-EM audio in CA-1 in second tier PRN Series Printer NOTE:CPU2-3030 firmware version 14.0(and higher)can support LCD-160 on the RDP port, or LCD2-80 in terminal mode, but not both at the same time. Page 2 of 8—DN-7070:P•3/8/17 FAPT-851 ACCLIMATE PLUS TM LOW-PROFILE INTELLIGENT • 35 watt,50 watt,75 watt,and 100/125 watt digital amplifiers MULTI-SENSOR (DAA2/DAX series and DS series). • Detector automatically adjusts sensitivity levels without • Solid state message generation. operator intervention or programming. Sensitivity increases • Hard-wired voice control module options. with heat. • Firefighter telephone option. • Microprocessor-based technology; combination photo and . 30-to 120-watt analog amplifiers(AA Series). thermal technology. • Backup tone generator and amplifier option. • Low-temperature signal at 40°F±5°F(4.44°C±2.77°C). FSC-851 INTELLIQUAD FlashScan® Exclusive ADVANCED MULTI-CRITERIA DETECTOR World-Leading Detector Protocol • Detects all four major elements of a fire (smoke, heat, CO, At the heart of the NFS2-3030 is a set of detection devices and and flame). device protocol—FlashScan(U.S. Patent 5,539,389).FlashS- • Automatic drift compensation of smoke sensor and CO cell. can is an all-digital protocol that gives superior precision and • High nuisance-alarm immunity. high noise immunity. As well as giving quick identification of an active input device, INTELLIGENT FAASI® DETECTORS FSA-5000, FSA-8000, FSA- this protocol can also activate many output devices in a frac- 20000 AND FSA-20000P tion of the time required by competitive protocols. This high • Connects directly to the SLC loop of compatible ONYX speed also allows the NFS2-3030 to have the largest device series panels. per loop capacity in the industry — 318 points — yet every • Provides five event thresholds that can be individually pro- input and output device is sampled in less than two seconds. grammed with descriptive labels for control-by-event pro- The microprocessor-based FlashScan®detectors have bicolor gramming;uses five detector addresses. LEDs that can be coded to provide diagnostic information, • Uses patented particle separator and field-replaceable filter such as device address during Walk Test. to remove contaminants. • Advanced algorithms reject common nuisance conditions ONYX Intelligent Sensing • FSA-5000 covers 5,000 square feet through one pipe. ONYX Intelligent Sensing is a set of software algorithms that • FSA-8000 covers 8,000 square feet through one pipe. provide the NFS2-3030 with industry-leading smoke detection • FSA-20000 covers 28,800 square feet through one to four capability. These complex algorithms require many calcula pipes. tions on each reading of each detector,and are made possible by the very high-speed microcomputer used by the NFS2- • FSA-20000P covers 28,800 square feet through one to four 3030. addressable pipes. Supports addressable pipes to pinpoint location of alarm events. Drift Compensation and Smoothing. Drift compensation allows the detector to retain its original ability to detect actual FCO-851 INTELLIQUADTM PLUS smoke, and resist false alarms, even as dirt accumulates. It ADVANCED MULTI-CRITERIA FIRE/CO DETECTOR reduces maintenance requirements by allowing the system to • Detects all four major elements of a fire. automatically perform the periodic sensitivity measurements • Separate signal for life safety CO detection. required by NFPA 72. Smoothing filters are also provided by software to remove transient noise signals, usually caused by • Optional addressable sounder base for Temp-3 (fire) or electrical interference. Temp-4(CO)tone. Automatic drift compensation of smoke sensor and CO cell. Maintenance Warnings. When the drift compensation per- • formed for a detector reaches a certain level,the performance • High nuisance-alarm immunity. of the detector may be compromised, and special warnings FMM-4-20 GAS DETECTION MODULE are given. There are three warning levels: (1) Low Chamber value; (2) Maintenance Alert, indicative of dust accumulation • Interface to industry-standard linear scale 4-20 mA sensors. that is near but below the allowed limit; (3) Maintenance • Five programmable thresholds. Urgent,indicative of dust accumulation above the allowed limit. • FM Approved, Class 6320 (Stationary Gas Sensors/ Sensitivity Adjust. Nine sensitivity levels are provided for Detectors). alarm detection. These levels can be set manually, or can SWIFT WIRELESS change automatically between day and night. Nine levels of pre-alarm sensitivity can also be selected, based on predeter- • Self-healing mesh wireless protocol. mined levels of alarm. Pre-alarm operation can be latching or • Each SWIFT Gateway supports up to 50 devices:1 wireless self-restoring,and can be used to activate special control func- gateway and up to 49 SWIFT devices. tions. • Up to 4 wireless gateways can be installed with overlapping Self-Optimizing Pre-Alarm. Each detector may be set for network coverage. "Self-Optimizing"pre-alarm. In this special mode,the detector "learns" its normal environment, measuring the peak analog RELEASING FEATURES readings over a long period of time, and setting the pre-alarm • Ten independent hazards. level just above these normal peaks. • Sophisticated cross-zone(three options). Cooperating Multi-Detector Sensing. A patented feature of • Delay timer and Discharge timers(adjustable). ONYX Intelligent Sensing is the ability of a smoke sensor to • Abort(four options). consider readings from nearby sensors in making alarm or pre-alarm decisions.Without statistical sacrifice in the ability to VOICE AND TELEPHONE FEATURES resist false alarms, it allows a sensor to increase its sensitivity • Up to eight channels of digital audio. to actual smoke by a factor of almost two to one. DN-7070:P•3/8/17—Page 3 of 8 Field Programming Options LCM-320: Loop Control Module. Provides one SLC. NFS2- 3030 supports up to five LCM-320s and five LEM-320 expand- Autoprogram is a timesaving feature.The FACP"learns"what ers for a total of ten SLCs. See DN-6881. devices are physically connected and automatically loads them in the program with default values for all parameters. LEM-320:Loop Expander Module.Expands an LCM-320.See Requiring less than one minute to run, this routine allows the DN-6881. user to have almost immediate fire protection in a new installa- SAMPLE SYSTEM: Four-loop NFS2-3030 with display: tion,even if only a portion of the detectors are installed. CPU2-3030D, DP-01SP, two BMP-1s, CHS-M3, two LCM- Keypad Program Edit. The NFS2-3030, like all NOTIFIER 320s, two LEM-320s, AMPS-24, SBB-A4, DR-A4, BP2-4, BB- intelligent panels, has the exclusive feature of program cre- 100,batteries. ation and editing capability from the front panel keypad,while NETWORKING OPTIONS continuing to provide fire protection. The architecture of the NFS2-3030 software is such that each point entry carries its NCA-2: Network Control Annunciator, 640 characters. An own program, including control-by-event links to other points. alternate primary display for CPU2-3030 can be provided by This allows the program to be entered with independent per- the NCA-2, NCS, or ONYXWorks. Using NCA-2 as primary point segments,while the NFS2-3030 simultaneously monitors display enables non-English languages. On network systems other(already installed)points for alarm conditions. (two or more networked fire panel nodes),one network display (either NCA-2,NCS,or ONYXWorks)is required for every sys- VERIFIRE®TOOLS tem. On network systems,the NCA-2 connects(and requires) VeriFire®Tools is an offline programming and test utility that a standard Network Communication Module or High-Speed can greatly reduce installation programming time, and Network Communication Module. Mounts in a row of FACP increase confidence in the site-specific software. It is Win- node or in two annunciator positions.Mounting options include dows®based and provides technologically advanced capabili- the DP-DISP, ADP-4B, or in an annunciator box, such as the ties to aid the installer. The installer may create the entire ABS-2D. In CAB-4 top-row applications, a DP-DISP and two program for the NFS2-3030 in the comfort of the office,test it, BMP-1 blank modules are required for mounting. Non-English store a backup file,then bring it to the site and download from versions are available: NCA-2-FR, NCA-2-HE, NCA-2-KO, a laptop into the panel. NCA-2-PO,NCA-2-SC, NCA-2-SP, NCA-2-TC, NCA-2-TH. For English ULC applications, order NCA-2C; for marine applica- Product Line Information tions,order NCA-2-M;for non-English marine applications order NCA-2-M and appropriate KP-KIT-XX. See ON-7047. • "Configuration Guidelines"on page 4 NCM-W, NCM-F: Standard Network Communications Mod- • "Main System Components"on page 4 ules. Wire and multi-mode fiber versions available. See DN- • "Networking Options"on page 4 6861. • "Auxiliary Power Supplies and Batteries"on page 4 HS-NCM-W/MF/SF/WMF/WSF/MFSF: High-speed Network • "Audio Options"on page 5 Communications Modules that can connect to two nodes. "Compatible Devices, EIA 232 Ports"on page 5 Wire, single-mode fiber, multi-mode fiber, and media conver- • sion models are available. See DN-60454. • "Compatible Devices, EIA-485 Ports"on page 5 "Compatible Intelligent Devices"on page 5 RPT-W, RPT-F, RPT-WF: Standard-network repeater board • with wire connection (RPT-W), multi-mode fiber connection • "Enclosures,Chassis,and Dress Plates"on page 6 (RPT-F),or allowing a change in media type between wire and • "Other Options"on page 7 fiber(RPT-WF). Not used with high-speed networks. See DN- 6971. CONFIGURATION GUIDELINES ONYXWorks:UL-listed graphics PC workstation,ONYXWorks Stand-alone and network systems require a main display. On GUI software, and computer hardware. See DN-7048 for spe- single-FACP systems(one NFS2-3030D), the display option is cific part numbers. the CPU2-3030D. On network systems (two or more net- worked fire panel nodes), at least one NCA-2, NCS, or ONYX- NFN-GW-EM-3: NFN Gateway, embedded. (Replaces NFN- Works annunciation device is required. Options listed as GW-EM.) See DN-60499. follows. NWS-3: NOTI•FIRE•NETTM Web Server. See DN-6928. MAIN SYSTEM COMPONENTS CAP-GW: Common Alerting Protocol Gateway. See DN- CPU2-3030D: NFS2-3030 Primary Display. CPU2-3030D 60756. ships with keypad/display installed; includes 640-character VESDA-HLI-GW:VESDAnet high-level interface gateway. See backlit LCD display, QWERTY programming and control key- DN-60753. pad. CPU2-3030 is a central processing unit and requires an LEDSIGN-GW: UL-listed sign gateway. Interfaces with classic AMPS-24(E)power supply. For English ULC applications, use and high-speed NOTI•FIRE•NET networks through the NFN CPU2-3030DC. Non-English versions are available: CPU2- Gateway. See DN-60679. 3030D-FR, CPU2-3030D-HE, CPU2-3030D-KO, CPU2- OAX2-24V: UL-listed LED sign, used with LEDSIGN-GW. See DN-3030D-PO, CPU2-3030D-SC, CPU2-3030D-SP, CPU2- AX 2-279. 3030D-TC,and CPU2-3030D-TH. For English Marine applica- tions order CPU2-3030D-M; for non-English Marine applica- AUXILIARY POWER SUPPLIES AND BATTERIES tions order CPU2-3030D-M and the appropriate KP-KIT-XX. AMPS 24(E):One required for each NFS2-3030.Addressable (See DN 60688.) power supply and battery charger with two 24 VDC outputs. CPU2-3030ND: CPU2-3030 without display. Non-English ver- Addressable by any FlashScan® or CLIP mode FACP. sions are available: CPU2-3030ND-FR, CPU2-3030ND-HE, Charges 7 to 200 AH batteries.Occupies up to five addresses CPU2-3030ND-KO, CPU2-3030ND-PO, CPU2-3030ND-SC, on an SLC, depending on configuration. Primary input power CPU2-3030ND-SP,CPU2-3030ND-TC. for panel. See DN-6883. APS2-6R:Auxiliary Power Supply.Provides up to 6.0 amperes of power for peripheral devices. Includes battery input and Page 4 of 8—DN-7070:P•3/8/17 transfer relay, and overcurrent protection. Mounts on two of DAA Series Digital Audio Amplifiers: Legacy DAA Series four positions on a CHS-4L or CHS-4 chassis. See DN-5952. amplifiers are compatible with DVC systems running SR4.0. ACPS-610: 6.0 A or 10.0 A addressable charging power sup- For specific information on DAA 50 series amplifiers, refer to ply. See DN 60244. DN-7046. For information on DAA-7525 Series, refer to DN- 60257. FCPS-24S6/-24S8: Remote 6 A and 8 A power supplies with battery charger.See DN-6927. COMPATIBLE DEVICES,EIA-232 PORTS BAT Series:Batteries.AMPS-24 uses two 12 volt,7 to 200 AH PRN-7:80-column printer. See DN-60897 batteries. See DN-6933. VS4095/5: Printer, 40-column, 24 V. Order from Keltron, Inc. AUDIO OPTIONS See DN 3260. NOTE:See"Enclosures,Chassis,and Dress Plates"on page 6 for DPI-232: Direct Panel Interface, specialized modem for mounting hardware. extending serial data links to remotely located FACPs and/or peripherals. See DN-6870. DVC-EM: Digital Voice Command,digital audio processor with message storage for up to 32 minutes of standard quality (4 COMPATIBLE DEVICES,EIA-485 PORTS minutes at high quality)digital audio. See DN-7045. ACM-24AT:ONYX®Series ACS annunciator-up to 96 points DVC-RPU: Digital Voice Command Remote Paging Unit for of annunciation with Alarm or Active LED, Trouble LED, and use with DVC-EM. Includes the keypad/display. See DN- switch per circuit. Active/Alarm LEDs can be programmed (by 60726. powered-up switch selection) by point to be red, green,or yel- low;DS-DB: Digital Series Distribution Board, provides bulk ampli the Trouble LED is always yellow. See DN 6862. fication capabilities to the DVC-EM while retaining digital audio AEM-24AT: Same LED and switch capabilities as ACM-24AT; distribuition capabilities.Can be configured with up to four DS- expands the ACM-24AT to 48,72,or 96 points. See DN-6862. AMPs, supplying high-level risers spread throughout an instal- ACM-48A: ONYX®Series ACS annunciator-up to 96 points lation. See DN-60565. of annunciation with Alarm or Active LED per circuit. Active/ DVC-KD: DVC-EM keypad for local annunciation and controls; Alarm LEDs can be programmed(by powered-up switch selec- status LEDs and 24 user-programmable buttons. See DN- tion)in groups of 24 to be red, green,or yellow. Expandable to 7045. 96 points with one AEM-48A. See DN-6862. DS-AMP/E: 125W, 25 VRMS, or 100W, 70VRMS. 70VRMS AEM-48A: Same LED capabilities as ACM-48A; expands the requires DS-XF7OV step-up transformer. Digital Series Ampli- ACM-48A to 96 points. See DN-6862. fier,part of the DS-DB system. See DN-60663. ACM-8R: Remote Relay Module with eight Form-C contacts. DS-RFM, DS-FM, DS-SFM: Fiber conversion modules for Can be located up to 6,000 ft. (1828.8 m)from panel on four DVC-EM, DS-DB distribution board, and DAA2/DAX Series wires. See DN-3558. amplifiers. See DN-60633. LCD-160: Liquid Crystal Display annunciator, 160-character DAA2-5025(E): 50W, 25 Vrms Digital Audio Amplifier assem- backlit. Can store character sets for multiple languages. LCD- bly with power supply;includes chassis. See DN-60556. 160C is used for ULC applications. See DN-6940. DAA2-5070(E): 50W, 70.7 Vrms Digital Audio Amplifier LCD2-80: Terminal and ACS mode. 80-character, backlit LCD assembly with power supply;includes chassis. See DN-60556. display.Mounts up to 6,000 ft. (1828.8 m)from panel.Up to 32 DAA2-7525(E):75W,25 Vrms digital audio amplifier assembly per FACP. See LCD2-80(DN 60548). with power supply; includes chassis. See DN-60556. SCS Series: Smoke control station; eight (expandable to 16) DAX-3525(E): 35W,25 Vrms Digital Audio Amplifier assembly circuits. See DN 4818. with power supply, includes chassis. See DN-60561. TM-4: Transmitter Module. Includes three reverse-polarity cir- DAX-3570(E): 35W,70.7 Vrms Digital Audio Amplifier assem- cults and one municipal box circuit. Mounts in panel module bly with power supply,includes chassis. See DN 60561. position (as in single-address mode applications) or in CHS- M3 position. See DN-6860. DAX-5025(E): 50W,25 Vrms Digital Audio Amplifier assembly UDACT-2: Universal Digital Alarm Communicator Transmitter, with power supply,includes chassis. See DN-60561. 636 channel. See DN 60686. DAX 5070(E): 50W,70.7 Vrms Digital Audio Amplifier assem- UZC-256: Programmable Universal Zone Coder provides pos- bly with power supply,includes chassis. See DN 60561. itive non-interfering successive zone coding. Microprocessor- TELH-1: Firefighter's Telephone Handset for use with the controlled, field-programmable from IBMR-compatible PCs DVC-EM when mounted in the CA-2 chassis. See DN-7045. (requires optional programming kit). Mounts on a CHS-4 CMIC-1: Microphone used with DVC/DVC-EM. Included with series chassis within NFS2-3030. CA-2 chassis assembly. See DN 7045. COMPATIBLE INTELLIGENT DEVICES RM-1/RM-1SA: Remote microphone assemblies, mount on NOTE:"A"suffix indicates ULC-Listed model. ADP-4 (RM-1) dress panel or CAB-RM/-RMR (RM-1SA) stand-alone cabinets. See DN-6728. FWSG Wireless SWIFT Gateway:Addressable gateway sup- ports wireless SLC devices. Not appropriate for ULC applica- AA-30: Audio Amplifier, 30 watts, 25 Vrms. Includes amplifier tions. See DN-60820. and audio input supervision, backup input,and automatic swi- tchover,power supply,cables. See DN-3224. FSA-5000: Intelligent FAAST®XS Fire Alarm Aspiration Sens- ing Technology. Intelligent aspirating smoke detector for appli- AA-120/AA-100: Audio Amplifier. AA-120 is 120 watts, 25 cations up to 5,000 sq.ft. For Canadian applications, order Vrms.AA-100 is 100 watts,70.7 Vrms.The amplifier contains FSA-5000A. an integral chassis for mounting to a CAB-B4, -C4, or -D4 backbox(consumes one row). Includes audio input and ampli- FSA-8000: Intelligent FAAST® XM Fire Alarm Aspiration fied output supervision, backup input, and automatic switcho- Sensing Technology. Intelligent aspirating smoke detector for ver to backup tone. See DN-3224. applications up to 8,000 sq.ft. For Canadian applications,order FSA-8000A. See DN-60792. DN-7070:P•3/8/17-Page 5 of 8 FSA-20000: Intelligent FAAST° XT Fire Alarm Aspiration FMM-4-20: FlashScan 4-20 mA protocol monitor module. See Sensing Technology. Intelligent aspirating smoke detector for DN-60411. applications up to 28,800 sq.ft. For Canadian applications, FCM-1(A): FlashScan control module. See DN-6724. order FSA-20000A. See DN-60849. FCM-1-REL(A): FlashScan releasing control module. See DN- FSA-20000P FAAST®XT PRO Intelligent Aspiration Detector For 60390. applications up to 28,800 sq.ft. (2601 sq. m.)through one to four addressable pipes. See DN-60792 FTM-1(A): Firephone Telephone Module connects a remote FSB-200(A): Intelligent beam smoke detector. See DN-6985. firefighter telephone to a centralized telephone console. Reports status to panel.Wiring to jacks and handsets is super- FSB-200S(A): Intelligent beam smoke detector with integral vised. See DN-6989. sensitivity test. See DN-6985. FRM-1(A): FlashScan relay module. See DN-6724. FSC-851(A): FlashScan IntelliQuad Advanced Multi-Criteria Detector. See DN-60412. FDRM-1(A): FlashScan dual monitor/dual relay module. See DN-60709. FCO-851(A): FlashScan IntelliQuad PLUS Advanced Multi-Cri- teria Fire/CO Detector. See DN 60689. NBG-12LX:Manual pull station,addressable. See DN-6726. FSI-851(A): Low-profile FlashScan ionization detector. See ISO-X: Isolator module. See DN 2243. DN-6985. ISO-6: Six Fault isolator module. For Canadian applications FSP-851(A):Low-profile FlashScan photoelectric detector. See order ISO 6A. See DN 60844. DN-6935. XP6-C(A): FlashScan six-circuit supervised control module. FSP-851R(A): Low-profile intelligent photoelectric sensor, See DN 6924. remote test capable. For use with DNR(W). See DN-6935. XP6-MA(A): FlashScan six-zone interface module; connects FSP-851T(A): Low-profile FlashScan photoelectric detector intelligent alarm system to two wire conventional detection with 135°F(57°C)thermal. See DN-6935. zone. See DN 6925. FST-851(A):: FlashScan thermal detector 135°F (57°C). See XP6-R(A): FlashScan six relay (Form C) control module. See DN-6936. DN 6926. FST-851R(A): FlashScan thermal detector 135°F (57°C) with XP1O-M(A): FlashScan ten-input monitor module. See DN- rate-of-rise. See DN-6936. 6923. FST-851H(A): FlashScan 190°F (88°C) high-temperature ther SLC IM: SLC integration module, for VESDAnet detectors. mal detector. See DN-6936. See DN 60755. FAPT-851(A): FlashScan Acclimate PIusTM low-profile multi- ENCLOSURES, CHASSIS,AND DRESS PLATES sensor detector. See DN-6937. CAB-4 Series Enclosure: NFS2-3030 mounts in a standard FSL-751(A): FlashScan VIEW®laser photo detector. See DN- CAB-4 Series enclosure (available in four sizes, "A" through 6886. "D"). Backbox and door ordered separately; requires BP2-4 DNR(A):InnovairFlex low flow non relay duct detector housing battery plate. A trim ring option is available for semi-flush (order FSP-851 separately). Replaces FSD-751 PUFSD mounting. See DN 6857. 751 RPL. See DN-60429. EQ Series Cabinets: EQ series cabinets will house amplifiers, W(A): Same as above with NEMA-4 rating, watertight. power supplies, battery chargers and control modules. EQ DNR See W(A): 29. cabinets are available in three sizes,"B"through"D". See DN- 60229. B224RB: Low-profile relay base. See DN-60054. CAB-BM Marine System: Protects equipment in shipboard B224BI: Isolator base for low-profile detectors. See DN- and waterfront applications. Order CPU2-3030D-M; for non- 60054. English marine applications order CPU2-3030D and appropri- B210LP: Low profile base. Standard U.S. style. Replaces ate KP-KIT-XX. Also order BB-MB for systems using 100 AH B71 OLP. See DN 60054. batteries. For a full list of required and optional equipment,see DN-60688. B501(A): European style,4" (10.16 cm)base. See DN 60054. CHS-M3: Mounting chassis for CPU2-3030. One required for B2005: Intelligent programmable sounder base, capable of each CPU2-3030D/3030ND. producing a variety of tone patterns including ANSI Temporal CA-2: Chassis for FACP control panel when DVC-EM is used 3.Compatible with sychronization protocol. See DN 60054. with firefighter's telephone. Mounts in the top two rows of a B200S-LF: Low-frequency version of B200S.See DN-60054. CAB-4 series enclosure. B200SCOA: Based on B200SA, with added CO detector DP-DISP: Dress panel for top row in cabinet with CPU2- markings in English/French. For Canadian applications only. 3030D installed. B200SR: Sounder base, Temporal 3 or Continuous tone. See DP-1B: Blank dress panel. Provides dead-front panel for DN-60054. unused tiers; covers DAA2/DAX series or AA-series amplifier. B200SR-LF: Low-frequency version of B200SR. See DN- See DN-7046. 60054. CHS-BH1: Battery chassis; holds two 12.0 AH batteries. FMM-1(A):: FlashScan monitor module. See DN-6720. Mounts on the left side of DAA2 chassis. See DN-7046. FDM-1(A): FlashScan dual monitor module. See DN-6720. CA-1:Chassis,occupies one tier of a CAB-4 Series enclosure. The left side accommodates one DVC-EM and a DVC-KD FZM-1(A): FlashScan two-wire detector monitor module. See (optional); and the right side houses a CMIC-1 microphone DN-6720. and its well(optional). See DN-7045. FMM-101(A): FlashScan miniature monitor module. See DN- CA-2:Chassis assembly,occupies two tiers of a CAB-4 Series 6720. enclosure.The left side accommodates one DVC-EM mounted Page 6 of 8-DN-7070:P•3/8/17 on a half-chassis and one NFS2-3030 or NCA-2 mounted on a ABF-4B Annunciator Flush Box half-chassis. The right side houses a microphone/handset ABS-1TB(C)Annunciator Surface Box well.The CA-2 assembly includes CMIC-1 microphone.ADDR ABS-1B(C)Annunciator Surface Box Series doors with two-tier visibility are available for use with the CA-2 configuration: ADDR-B4, ADDR-C4, ADDR-D4 ABS-2B Annunciator Surface Box (below). ABS-2D(C)Annunciator Surface Box ADDR-B4:Two-tier-sized door designed for use with the CA-2 ABS-4D(C)Annunciator Surface Box chassis configuration.ADDR Series doors are similar to CAB- SEISKIT-CAB: Seismic mounting kit. Required for seismic- 4 Series "DR" doors, but a clear window space exposes the certified applications with NFS2-3030 and other equipment top two tiers of the CAB-4 enclosure.Use an SBB-B4 backbox mounted in CAB-4 Series Enclosures.Includes battery bracket with the ADDR-B4. See DN-7045, DN-6857. for two 26 AH batteries. ADDR-C4:Three-tier-sized door designed for use with the CA- SEISKIT LBB: Seismic kit for the NFS-LBB. Includes battery 2 chassis configuration. ADDR Series doors are similar to bracket for two 55 AH batteries. CAB-4 Series "DR"doors, but a clear window space exposes the top two tiers of the CAB-4 enclosure. Use an SBB-C4 OTHER OPTIONS backbox with the ADDR-C4. See DN-7045, DN-6857. 411:Slave digital alarm communicator. See DN-6619. ADDR-D4: Four-tier-sized door designed for use with the CA-2 411 UDAC: Digital alarm communicator. See DN-6746. chassis configuration.ADDR Series doors are similar to CAB- IPDACT-2, IPDACT Internet Monitoring Module: Connects 4 Series "DR" doors, but a clear window space exposes the to primary and secondary DACT telephone output ports for top two tiers of the CAB-4 enclosure. Use an SBB-D4 backbox internet communications over customer-provided Ethernet with the ADDR-D4. See DN-7045, DN-6857. connection. Requires compatible Teldat VisorALARM Central DPA-1: Dress panel, used with the CA-1 chassis when contig- Station Receiver.Can use DHCP or static IP. See DN-60408. ured with a DVC-EM, DVC-KD,and CMIC-1. See DN-7045. IPCHSKIT: IP Communicator Chassis Mounting Kit. For DPA-2: Dress Panel used with the CA-2 chassis assembly. mounting an IPDACT-2/2UD onto the panel chassis or CHS-4 DPA-1A4: Dress panel, used with the CA-1 chassis when the series chassis. Use IPENC for external mounting applications. CMIC-1 is not used. Provides mounting options on right two IPSPLT:Y-adapter option allow connection of both panel dialer bays for two ACS annunciators, or for blank plates. See DN- outputs to one IPDACT-2/2UD cable input. 7045. IPENC: External enclosure for IPDACT, includes IPBRKT ADP-4B: Annunciator dress plate. Mounts in rows 2, 3 or 4 of mounting bracket; Red;for black,order IPENC-B. a CAB-4 series enclosure. Used with ACS series annuncia- IPGSM-4G:Internet and Digital Cellular Fire Alarm Communica- tors. tor. Provides selectable configurable paths:cellular only, IP only, BMP-1: Blank module for unused module positions. or IP primary with cellular backup. Connects to the primary and DP-1B: Blank dress panel. Provides dead front panel for secondary ports of a DACT. For Canadian applications order unused tiers;covers DAA2/DAX series or AA-series amplifier. IPGSM-4GC. See DH 60769. Batteryplate, required. NOTE:For other options including compatibility with retrofit equip- BP2-4: q ment,refer to the panel's installation manual,the SLC manual,and CHS-4L: Low-profile four-position Chassis. Mounts two AA-30 the Device Compatibility Document. amplifiers. CHS-4N:Chassis for mounting up to four APS-6Rs. System Specifications CHS-6: Chassis used with the XP6 and XP10 Multi-Modules. SYSTEM CAPACITY Mounts up to six modules in any CAB-4 series row. • Intelligent Signaling Line Circuits 1 expandable to 10 NFS-LBB: Battery Box.The NFS-LBB is used to mount up to • Intelligent detectors 159 per loop two 55 AH batteries. Dimensions: Box: 24" (610 mm) wide x • Addressable monitor/control modules 159 per loop 14"(356 mm)high x 7.75" (197 mm)deep. Door:24.125"(613 mm)wide x 14.25" (362 mm)high;door adds 0.0625"(approx. • Programmable software zones over 2000 1.6 mm)to depth. • ACS annunciators BACKBOXES per CPU2-3030 32 address x 64 or 96 points NOTE:"C"suffix indicates ULC Listed model. NOTE: The CPU2-3030 can support up to 96 annunciator address points per ACM-24AT/-48A. BB-100: Backbox for batteries and power supplies. The BB- 100 is used to mount up to two 100 AH batteries and power SPECIFICATIONS supply,if needed.30" (76.20 cm)wide x 25" (63.50 cm)high x Primary Input Power: 7.5"(19.05 cm)deep;depth includes door. -AMPS-24: 110-120 VAC,50/60 Hz,4.5 A maximum. BB-200: Backbox for batteries and power supplies. Holds up -AMPS-24E:240 VAC,50/60 Hz,2.25 A maximum. to four 100 AH batteries (200 AH capacity) and power supply. 30" (76.20 cm) wide x 36" (91.44 cm) high x 7.5" (19.05 cm) DC Output: deep;depth includes door. -Main 24 VDC: Up to 5.0 A BB-UZC: Backbox for housing the UZC-256 for applications -Aux 24 VDC:Up to 5.0 A where the UZC will not fit in panel enclosure. Black; for red, -5 VDC:Up to 0.15 A. order BB-UZC-R. See DN-3404. Current draw(Standby/Alarm): ABF-1B(C)Annunciator Flush Box -CPU2-3030D board:0.340 A. ABF-1 DB(C)Annunciator Flush Box with Door.UUULC Listed. -CPU2-3030ND board:0.120 A. ABF-2B Annunciator Flush Box -LCM-320:0.130 A. ABF-2DB(C)Annunciator Flush Box with Door -LEM-320:0.100 A. DN-7070:P•3/8/17-Page 7 of 8 —AMPS-24(E)°:0.13 A. STANDARDS (Draws power from secondary power source only.) The NFS2-3030 complies with the following UL Standards and NOTE: See AMPS-24(E) Manual 51907 for a complete current NFPA 72, International Building Code (IBC), and California draw calculation sheet and details of input and output values. Building Code(CBC) Fire Alarm Systems requirements: Battery charger range:7 AH—200 AH.Use separate cabinet • UL 864(Fire). for batteries over 26 AH. • UL 1076(Burglary). Float Rate:27.6 V. • UL 2572(Mass Notification Systems). (NFS2-3030 version SHIPPING WEIGHT 20 or higher) • CPU2-3030D:5.95 lb(2.70 kg). • ULC-S527-11 Standard for the Installation of Fire Alarm Sys- tems. • CPU2-3030ND:2.90 lb(1.32 kg). • LOCAL (Automatic, Manual, Waterflow and Sprinkler TEMPERATURE AND HUMIDITY RANGES Supervisory). This system meets NFPA requirements for operation at 0 — • AUXILIARY (Automatic, Manual and Waterflow) (requires 49°C/32 — 120°F and at a relative humidity 93% ± 2% RH TM 4). (noncondensing) at 32°C ± 2°C (90°F ± 3°F). However, the • REMOTE STATION (Automatic, Manual, Waterflow and useful life of the system's standby batteries and the electronic Sprinkler Supervisory)(requires TM-4). components may be adversely affected by extreme tempera- • PROPRIETARY (Automatic, Manual, Waterflow and Sprin- ture ranges and humidity. Therefore, it is recommended that kler Supervisory).Not applicable for FM. this system and its peripherals be installed in an environment • EMERGENCY VOICE/ALARM. with a normal room temperature of 15—27°C/60—80°F. • OT, PSDN (Other Technologies, Packet-switched Data Net- AGENCY LISTINGS AND APPROVALS work). These listings and approvals apply to the modules specified in • IBC 2012,IBC 2009,IBC 2006,IBC 2003,IBC 2000(Seis- this document. In some cases,certain modules or applications mic). may not be listed by certain approval agencies, or listing may • CBC 2007(Seismic). be in process.Consult factory for latest listing status. • UL Listed:S635. • ULC Listed:S527-11. • MEA:232-06-E. • Fire Dept.of New York:COA#6211. • CSFM:7165-0028:0224(Commercial). • FM Approved. • FM6320 Approved.Class 6320 for Gas Detection. • City of Chicago. • City of Denver. • Singapore Productivity and Standards Board(PSB). • CCCF listed. • Fire Services Department(Hong Kong). Marine Applications: Marine approved systems must be con- figured using components itemized in this document. (See Main System Components, in"Product Line Information.)Spe- cific connections and requirements for those components are described in the installation document, PN 54756.When these requirements are followed, systems are approved by the fol- lowing agencies: • US Coast Guard 161.002/55/0 (Standard 46 CFR and 161.002). • Lloyd's Register 11/600013(ENV 3 category). • American Bureau of Shipping(ABS)Type Approval. NOTE:For information on marine applications,see DN-60688. IntelliQuad°", NOTI•FIRE•NETT'", ONYXWorksTM and SWIFTTM are all trademarks; and Acclimate® PIusT'", FlashScan� Intelligent FAAST®, NOTIFIER®, ONYX®, VeriFire® Tools, and VIEW® are all registered trademarks of Honeywell International Inc. ©2017 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. :: We try to keep our product information up-to-date and accurate. ::: mmomm We cannot cover all specific applications or anticipate all requirements. ENGINEERING 8 MANUFAENRING All specifications are subject to change without notice. QUALITY SYSTEMS Country of Origin:USA For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 8 of 8—DN-7070:P•3/8/17 DN-6881:A1 •A-35 LCM-320 and LEM-320 NOTIFIER Loop Control and Expander Modules by Honeywell Intelligent Fire Alarm Control Panels General The LCM-320 Loop Control Module and the LEM-320 Loop • 1 ea• r y r: Expander Module provide NOTIFIER's ONYX®Series of Fire + . s` �9 Alarm Control Panels (FACPs) with Signaling Line Circuits I •f."y' ms n .,. ' (SLCs).The ONYX®Series NFS-640/NFS2-640 supports one 3 . LEM-320;the NFS-3030/NFS2-3030 supports up to five LCM- 320s CM 320s and five LEM-320s. The LEM-320 module is used to f - '+ expand the NFS-640/NFS2-640 to a second loop, and to expand each LCM-320 used on the NFS-3030/NFS2-3030— each NFS-3030/NFS2-3030 LCM-320 supports an expansion LEM-320. Features ?® ��6 �� � • Up to 12,500 feet(3,810 m)on a Class B(Style 4)SLC loop (twisted-unshielded). a , • Built-in degraded mode increases survivability. y ; = 1 • Very simple installation—plugin style. = a1.r o ;, La ItiL" • Permits multiple loops in small enclosure. .' • • � • <«E �� ;' fi ° Specifications Loop Control Loop Expander Module Module Voltage:24 VDC nominal,27.6 VDC maximum. Maximum loop length: The maximum wiring distance of an SLC using 12 AWG (3.1 mm2)twisted-pair wire is 12,500 feet Product Line Information (3810 m) per channel. For a twisted-unshielded pair, 12 AWG (3.1 mm2)to 18 AWG(0.78 mm2): / LCM 320: Loop Control Module. Adds SLC5 to NFS-3030/ m . NFS2-3030; NFS-3030/NFS2-3030 supports up to five LCM- –Distance with 12 AWG: 12,500 ft (3,810 ) 320s and five LEM-320s. –Distance with 14 AWG:8,000 ft(2,438 m). LEM-320: Loop Expander Module. Expands each LCM used –Distance with 16 AWG:4,875 ft(1,486 m). on the NFS-3030/NFS2-3030;expands NFS-640/NFS2-640 to –Distance with 18 AWG:3,225 ft(983 m). two loops. –50 ohms maximum per length of Style 6&7 loops. –50 ohms maximum per branch for Style 4 loop. Agency Listings and Approvals Maximum current: for LCM-320: 130 mA;for LEM-320: 100 The listings and approvals below apply to the basic LCM-320 mA;for single SLC loop:400 mA maximum. and LEM-320. In some cases, certain modules may not be NOTE:Maximum short circuit—loop will shut down until short-cir- cuit condition is corrected. cess.Consult factory for latest listing status. Maximum resistance: 50 ohms (supervised and power- • UL:S635 limited). • ULC:S635/CS118 Temperature and humidity ranges: This system meets • FM Approved NFPA requirements for operation at 0–49°C/32–120°F and • CSFM: 7165-0028:224, 7170-0028:223 (LCM/LEM-320 at a relative humidity 93%±2% RH (noncondensing)at 32°C with NFS-3030/NFS2-3030). 7165-0028:214, 7170- ± 2°C (90°F ± 3°F). However, the useful life of the system's 0028:216 (LEM-320 with NFS-640). 7165-0028:243, 7170- standby batteries and the electronic components may be 0028:244(LEM-320 with NFS2-640). adversely affected by extreme temperature ranges and humid- • FDNY:COA#6025(LEM-320 with NFS2-640) ity. Therefore, it is recommended that this system and its • FDNY:COA#6026(LCM-320/LEM-320 with NFS2-3030) peripherals be installed in an environment with a normal room temperature of 15–27°C/60–80°F. • City of Denver • Hong Kong DN-6881:Al•06/05/2009—Page 1 of 2 FLASHSCAN®and NOTIFIER®are registered trademarks of Honeywell International Inc. ©2009 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. ISO 9001 :� We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S.A. For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 2 of 2—DN-6881:A1•06/05/2009 — DN-6861:C•A0-260 • NCM-W, NCM-F ONYX® Series ® NOTIFIER® Network Communications Modules by Honeywell Network Systems General The Network Communications Module (NCM) provides NOTIFIER Intelligent Fire Alarm Control Panels, and NCA and NCA-2 Network Control Annunciators with a means to connect • t,, , to NOTI•FIRE•NETTM. Two types of NCM are available: NCM-W for connecting nodes with twisted-pair wire, and NCM-F for connecting nodes with fiber-optic cable. NOTE: Do not mix NCM and High Speed(HS)NCM on the same system. NCM-W Features • Supports twisted-pair wire medium. • NFPA Style 4(Class B)operation or NFPA Style 7(Class A) operation. • Two programmable data thresholds. NCM-W • Transformer coupling provides electrical isolation between • Maximum attenuation is 8 dB with 62.5/125 pm fiber and nodes. 4.2 dB with 50/125 pm fiber. • Pluggable terminal wiring with strain relief. • Wavelength (1): 820 nanometers (use standard 850 nm • Pluggable service connector(feeds signal directly through) fiber). in the event that power must be removed from a node. • Connectors:ST®style. • 312.5 Kbaud transmission rate. • 312.5 Kbaud transmission rate. • Data is regenerated at each node. • Data is regenerated at each node. • Two network ports to allow simultaneous connection to fire • Two network ports to allow simultaneous connection to fire alarm control panel and to programming computer. alarm control panel and to programming computer. • Enables software and database upload/download over • Enables software and database upload/download over NOTI•FIRE•NETTM. NOTI•FIRE•NETTM • Repeaters are available to increase signal. • Repeaters are available to increase signal. • Repeaters may be utilized to switch media type. • Repeaters may be utilized to switch media type. • Up to 3,000 feet (914.4 m) between nodes in a point-to- • Up to 3,000 feet (914.4 m) between nodes in a point-to- point fashion (actual distance varies with wire quality). point fashion (actual distance varies with wire quality). NCM-W Interconnections:When wiring consecutive NCM-W NCM-F Interconnections: When wiring consecutive nodes/ boards, wiring may enter or exit at Port A or Port B. NCM-W repeaters, fiber cable must exit one board on Transmit (TX) port-to-port wiring is not polarity sensitive; use of Port A or and enter the next node/repeater on Receive (RX).The fiber- Port B is arbitrary.An NCM-W may be connected to any of the optic pair (RX, TX)from Port A of one node/repeater may be following devices: MIB-W, MIB-WF, NAM-232W, NCM-W (in connected to either Port A or Port B of another node/repeater. another panel), NCS-W network connection,RPT-W, RPT-WF. An NCM-F may be connected to any of the following devices: NCM-W Switch Functions:The NCM-W provides two sets of MIB-F, MIB-WF, NAM-232F, another NCM-F, NCS-F network switches to simplify network setup. Enable ground fault connection, RPT-F, RPT-WF. detection by setting "ON"switch SW103 (Channel A); switch SW101 (Channel B). Activate on-board end-of-line resistors Common Specifications by setting"ON"switch SW100(Channel A);switch 102(Chan- nel B). NOTE: Correct configuration is dependent on network Temperature and humidity ranges: This system meets design;refer to the NOTI•FIRE•NETTm manual. NFPA requirements for operation at 0°C to 49°C (32°F to 120°F); and ata relative humidity (noncondensing) of 85% at For further information and diagrams, refer to the NCM Instal- 30°C(86°F)per NFPA,and 93%±2%at 32°C±2°C(89.6°F± lation Document,51533. 1.1°F) per ULC. However, the useful life of the system's standby batteries and the electronic components may be NCM-F Features adversely affected by extreme temperature ranges and humid- • Supports fiber-optic medium. ity. Therefore, it is recommended that this system and all peripherals be installed in an environment with a nominal room • NFPA Style 4(Class B)or Style 7(Class A)operation. temperature of 15°C to 27°C(60°F to 80°F). • Data is immune to all environmental noise. Power supply:24 VDC @ 110 mA. • Optical isolation prevents ground loops. • NOTI•FIRE•NETT",fiber-optic medium. • Fiber type: 62.5/125 micrometers (multimode); or 50/125 micrometers(multimode). DN-6861:C•10/04/2010—Page 1 of 2 A Mixing Wire and Fiber Agency Listings and Approvals on the Same Network The following listings and approvals apply to the NCM. In In some networks,it may be necessary to mix twisted-pair wire some cases,certain modules or applications may not be listed and fiber-optic cable.There are two solutions: by certain approval agencies, or listing may be in process. Consult factory for latest listing status. • In any network, an RPT-WF may be used as an interface between wire and fiber. • UL Listed:S635 • In a network that uses an AFP1010 or AM2020, a MIB- • ULC Listed:S635 WF may be used as the interface between wire and fiber. • CSFM: 7165-0028:0214, 7165-0028:0224, 7165- 0028:0243 Mounting • FM approved Both NCM-W and NCM-F can be installed in any standard • MEA approved chassis such as the CHS-4L, CHS-M2, CHS-M3 or CHS-4N • FDNY:COA#6061,COA#6065 (see panel sheets). Additionally, the NCM-W can be door- mounted on the ADP-4B dress panel on a single-space blank Product Line Information plate(BMP-1)for mounting in an CAB-4 Series cabinet. NCM-W: Network Communications Module, twisted-pair wire interface. NCM-F: Network Communications Module, fiber-optic cable interface. Diagnostic LED Indicators A HI (green):Illuminates to indicate the NCM-W Port A is set for high threshold (NCM-W only). B HI (green):Illuminates to indi- cate the NCM-W Port B is set for high threshold (NCM-W only).RCD A(green): Illuminates when the NCM is receiving data from NOTI•FIRE•NETTM on Port A.RCD B (green): Illuminates when the NCM is receiving data from NOTI•FIRE•NETTM on Port B.STATA(yellow):Illuminates when the NCM has not received valid data from NOTI•FIRE•NETTM on Port A for at least 16 sec- onds.STATB (yellow): Illuminates when the NCM has not received valid data from NOTI•FIRE•NETTM on Port B for at least 16 seconds. RECON (yellow): Illuminates when a reconfiguration on NOTI•FIRE•NETTM is in progress. PULSE (green): Illumi- nates when the NCM is transmitting NOTI•FIRE•NETTM is in progress. RESET (yellow): Illuminates when the microcontroller fails. POWER(green):Illuminates when+5 VDC is available. NCM-W(detail) Channel A&B NCM-F (detail) Channel A&B Connections _A/Connections EF B TERM B EFA TERM A Ground Fault 4A41;Ø ' s USB Detection USB J203 J202 J20 J200N " ° Connection Switches and Connection Network i Future End-of-Line I C1 Future Use �- € € Use Termination LED,O, 11° Fiber Signa !1 Resistor ® ® intensity switch. Jz Switches LED6 AHI B D i J2 Full oshort standard a °. RCDA RCDB o distance y o R p p LED4 L® Z a 0 J3 eRCDA RCDB o O STATA STATB a O `� 0 STATA STATE 7 ❑ S O9 LED3 LEDS Z STATA STATE O 5 PULSE, E RECON PULSE1 r3 RECON PULSE a -0' RESET POWER LEDs LEDS Q a 2 O. Diagnostic 0 RESET POWER LEDs RESET POWER i Diagnostic Network Connection Ports(NUP) o z" 0 LEDs E, Network E Connection \ I Ports OO pO (NUP) "2 NOTI•FIRE•NETT""is a trademark of Honeywell International Inc. ONYX® and NOTIFIER®are registered trademarks of Honeywell International Inc. ST®is a registered trademark of AT&T. ©2010 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. Iso ooi This document is not intended to be used for installation purposes. ::.:� We try to keep our product information up-to-date and accurate. ::: Con-r•F1E� We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S.A. For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 2 of 2—DN-6861:C•10/04/2010 DN-6720:E FMM-1 (A), FMM-1 01 (A), N OTI F 1 E R® FZM-1 A & FDM-1 A Monitor Modules with FlashScan® by Honeywell Intelligent/Addressable Devices General Four different monitor modules are available for Notifier's intelligent control panels for a variety of applications. Monitor modules supervise a circuit of dry-contact input devices, e • 14, such as conventional heat detectors and pull stations, or monitor and power a circuit of two-wire smoke detectors U` M (FZM-1(A)). ".ALAN. SECIARTFOUNALNI FMM-1(A) is a standard-sized module (typically mounts to a 4" [10.16 cm] square box) that supervises either a Style D (Class A) or Style B (Class B) circuit of dry-contact input devices. .�- Ero•. . o FMM-101(A) is a miniature monitor module a mere 1.3" ., „�' ., (3.302 cm)H x 2.75"(6.985 cm)W x 0.65"(1.651 cm)D that supervises a Style B (Class B) circuit of dry-contact input devices. Its compact design allows the FMM-101(A) to be mounted in a single-gang box behind the device it monitors. % FZM-1(A) is a standard-sized module that monitors and supervises compatible two-wire, 24 volt, smoke detectors on a Style D(Class A)or Style B(Class B)circuit. FMM-1(A)(Type H) FDM-1(A)is a standard-sized dual monitor module that mon- itors and supervises two independent two-wire Style B(Class open dry-contact alarm activation devices. May also be used B)dry-contact initiating device circuits(IDCs)at two separate, to monitor normally-open supervisory devices with special consecutive addresses in intelligent,two-wire systems. supervisory indication at the control panel. Monitored circuit FlashScan® (U.S. Patent 5,539,389) is a communication may be wired as an NFPA Style B(Class B)or Style D(Class protocol developed by NOTIFIER that greatly increases the A) Initiating Device Circuit. A 47K Ohm End-of-Line Resistor speed of communication between analog intelligent devices. (provided) terminates the Style B circuit. No resistor is Intelligent devices communicate in a grouped fashion. If one required for supervision of the Style D circuit. of the devices within the group has new information, the FMM-1(A) OPERATION panel CPU stops the group poll and concentrates on single points. The net effect is response speed greater than five Each FMM-1(A)uses one of the available module addresses times that of other communication protocols. on an SLC loop. It responds to regular polls from the control panel and reports its type and the status(open/normal/short) FMM-1(A) Monitor Module of its Initiating Device Circuit(IDC).A flashing LED indicates that the module is in communication with the control panel. • Built-in type identification automatically identifies this The LED latches steady on alarm (subject to current limita- device as a monitor module to the control panel. tions on the loop). • Powered directly by two-wire SLC loop. No additional FMM-1(A)SPECIFICATIONS power required. • High noise(EMF/RFI)immunity. Nominal operating voltage: 15 to 32 VDC. • SEMS screws with clamping plates for ease of wiring. Maximum current draw: 5.0 mA(LED on). • Direct-dial entry of address:01 —159 on FlashScan loops; Average operating current: 375 pA(LED flashing), 1 com- 01 —99 on CLIP loops. munication every 5 seconds,47k EOL. • LED flashes green during normal operation (programma- Maximum IDC wiring resistance: 1500 Ohms. ble option)and latches on steady red to indicate alarm. Maximum IDC Voltage: 11 Volts. The FMM-1(A) Monitor Module is intended for use in intelli- gent,two-wire systems,where the individual address of each EOL resistance:47K Ohms. module is selected using the built-in rotary switches. It pro- Temperature range: 32°F to 120°F(0°C to 49°C). vides either a two-wire or four-wire fault-tolerant Initiating Device Circuit(IDC)for normally-open-contact fire alarm and Humidity range: 10%to 93%noncondensing. supervisory devices.The module has a panel-controlled LED Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x indicator. The FMM-1(A) can be used to replace MMX-1(A) 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x modules in existing systems. 2.125"(5.398 cm)deep box. FMM-1(A)APPLICATIONS Use to monitor a zone of four-wire smoke detectors, manual fire alarm pull stations,waterflow devices, or other normally- DN-6720:E•07/30/2015—Page 1 of 4 I FMM-101(A) Mini Monitor Module Temperature range: 32°F to 120°F(0°C to 49°C). • Built-in type identification automatically identifies this Humidity range: 10%to 93%noncondensing. device as a monitor module to the panel. Dimensions: 1.3"(3.302 cm)high x 2.75"(6.985 cm)wide x • Powered directly by two-wire SLC loop. No additional 0.65"(1.651 cm)deep. power required. Wire length: 6"(15.24 cm)minimum. • High noise(EMF/RFI)immunity. • Tinned,stripped leads for ease of wiring. FZM-1(A) Interface Module • Direct-dial entry of address:01 —159 on FlashScan loops; . Supports compatible two-wire smoke detectors. 01 —99 on CLIP loops. • Supervises IDC wiring and connection of external power source. 3 1415 0 1 ADDRESS 0 1 • High noise(EMF/RFI)immunity. 132 2 3 12 8 3 DI 3 • SEMS screws with clamping plates for ease of wiring. 11 �I/�//J 4 LOOP 4 • Direct-dial entry entry of address: 01 —159 on FlashScan 10 5 5 loops,01 —99 on CLIP loops. 9 8 7 6 9 8 7 6 • LED flashes during normal operation; this is a program- TENS ONES n n Tn mable option. • LED latches steady to indicate alarm on command from control panel. The FZM-1(A) Interface Module is intended for use in intelli- 0 J Q U gent, addressable systems, where the individual address of —i O 0; each module is selected using built-in rotary switches. This l > m module allows intelligent panels to interface and monitor two- wire conventional smoke detectors. It transmits the status (normal, open, or alarm) of one full zone of conventional detectors back to the control panel. All two-wire detectors I I I I being monitored must be UL compatible with the module. The FMM-101(A) Mini Monitor Module can be installed in a The FZM-1(A)can be used to replace MMX-2(A)modules in single-gang junction directly behind the monitored unit. Its existing systems. small size and light weight allow it to be installed without rigid FZM 1(A) APPLICATIONS mounting. The FMM-101(A) is intended for use in intelligent, two-wire systems where the individual address of each mod- Use the FZM-1(A) to monitor a zone of two-wire smoke ule is selected using rotary switches. It provides a two-wire detectors. The monitored circuit may be wired as an NFPA initiating device circuit for normally-open-contact fire alarm Style B (Class B) or Style D (Class A) Initiating Device Cir- and security devices. The FMM-101(A) can be used to cult.A 3.9 K Ohm End-of-Line Resistor(provided)terminates replace MMX-101(A)modules in existing systems. the end of the Style B or D (class B or A) circuit (maximum IDC loop resistance is 25 Ohms). Install ELR across termi- FMM-101(A)APPLICATIONS nals 8 and 9 for Style D application. Use to monitor a single device or a zone of four-wire smoke FZM-1(A) OPERATION detectors, manual fire alarm pull stations,waterflow devices, or other normally-open dry-contact devices. May also be Each FZM-1(A)uses one of the available module addresses used to monitor normally-open supervisory devices with spe- on an SLC loop. It responds to regular polls from the control cial supervisory indication at the control panel. Monitored dr- panel and reports its type and the status(open/normal/short) cuit/device is wired as an NFPA Style B (Class B) Initiating of its Initiating Device Circuit(IDC).A flashing LED indicates Device Circuit. A 47K Ohm End-of-Line Resistor (provided) that the module is in communication with the control panel. terminates the circuit. The LED latches steady on alarm (subject to current limita- tions on the loop). FMM-101(A) OPERATION Each FMM-101(A) uses one of the available module FZM-1(A)SPECIFICATIONS addresses on an SLC loop. It responds to regular polls from Nominal operating voltage: 15 to 32 VDC. the control panel and reports its type and the status (open/ Maximum current draw: 5.1 mA(LED on). normal/short)of its Initiating Device Circuit(IDC). Maximum IDC wiring resistance: 25 Ohms. FMM-101(A)SPECIFICATIONS Average operating current: 270 pA, 1 communication and Nominal operating voltage: 15 to 32 VDC. 1 LED flash every 5 seconds,3.9k eol. Average operating current: 350 pA, 1 communication EOL resistance: 3.9K Ohms. every 5 seconds, 47k EOL; 600 pA Max. (Communicating, IDC Shorted). External supply voltage (between Terminals T10 and T11): Maximum IDC wiring resistance: 1500 Ohms. • DC voltage:24 volts power limited. Maximum IDC Voltage: 11 Volts. • Ripple voltage: 0.1 Vrms maximum. Maximum IDC Current: 450 pA. • Current:90 mA per module maximum. EOL resistance:47K Ohms. Temperature range: 32°F to 120°F(0°C to 49°C). Page 2 of 4—DN-6720:E•07/30/2015 Humidity range: 10%to 93%noncondensing. Agency Listings and Approvals Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x In some cases, certain modules may not be listed by certain 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x approval agencies, or listing may be in process. Consult fac- 2.125"(5.398 cm)deep box. tory for latest listing status. • FDM-1(A) Dual Monitor Module UL:S635. • ULC:S635. The FDM-1(A)Dual Monitor Module is intended for use in intelli- ▪ FM Approved. gent, two-wire systems. It provides two independent two-wire initiating device circuits (IDCs) at two separate, consecutive • CSFM:7300-0028:0219, 7165-0028:0224, addresses. It is capable of monitoring normally open contact fire 7165-0028:0243. alarm and supervisory devices; or either normally open or nor- • MEA:457-99-E. mally closed security devices. The module has a single panel- controlled LED. • U.S. Coast Guard: 161.002/50/0 (NFS2-640, NFS2-320, NOTE: The FDM-1(A)provides two Style B(Class B)IDC circuits NFS2-3030). ONLY Style D (Class A) IDC circuits are NOT supported in any • Lloyd's Register: 11/600013 (NFS2-640, NFS2-320, application. NFS2-3030). FDM-1(A)SPECIFICATIONS • Fire Dept. of New York: COA #6121 (NFS2-640, NFS- Normal operating voltage range: 15 to 32 VDC. 320), COA#6114(NFS2-3030). Maximum current draw: 6.4 mA(LED on). Product Line Information Average operating current: 750 pA(LED flashing). NOTE:"A"suffix indicates ULC-listed model. Maximum IDC wiring resistance: 1,500 Ohms. FMM-1(A): Monitor module. Maximum IDC Voltage: 11 Volts. FMM-101(A): Monitor module, miniature. Maximum IDC Current: 240 pA FZM-1(A): Monitor module,two-wire detectors. EOL resistance:47K Ohms. FDM-1(A): Monitor module, dual, two independent Class B Temperature range: 32°to 120°F(0°to 49°C). circuits. Humidity range: 10%to 93%(non-condensing). SMB500: Optional surface mount backbox. NOTE: See installation instructions and refer to the SLC Wiring Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x Manual,PN 51253. 1.25" (3.175 cm)deep. Mounts to a 4" (10.16 cm) square x 2.125"(5.398 cm)deep box. FDM-1(A)AUTOMATIC ADDRESSING The FDM-1(A) automatically assigns itself to two address- able points, starting with the original address. For example, if the FDM-1(A)is set to address"26",then it will automatically assign itself to addresses"26"and"27". NOTE:"Ones"addresses on the FDM-1(A)are 0,2,4,6,or 8 only. Terminals 6 and 7 use the first address,and terminals 8 and 9 use the second address. QCAUTION: Avoid duplicating addresses on the system. Installation FMM-1(A), FZM-1(A), and FDM-1(A)modules mount directly to a standard 4"(10.16 cm)square, 2.125"(5.398 cm)deep, electrical box. They may also be mounted to the SMB500 surface-mount box. Mounting hardware and installation instructions are provided with each module. All wiring must conform to applicable local codes, ordinances, and regula- tions. These modules are intended for power-limited wiring only. The FMM-101(A) module is intended to be wired and mounted without rigid connections inside a standard electri- cal box. All wiring must conform to applicable local codes, ordinances,and regulations. DN-6720:E•07/30/2015—Page 3 of 4 FlashScan®and NOTIFIER®are registered trademarks and FireWatchT"is a trademark of Honeywell International Inc. ©2015 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. 1S0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 4 of 4—DN-6720:E•07/30/2015 DN-6726:D•H-240 NBG-12LX NOTIFIER® Addressable Manual Pull Station by Honeywell Intelligent/Addressable Devices General The Notifier NBG-12LX is a state-of-the-art, dual-action (i.e., - requires two motions to activate the station) pull station that • includes an addressable interface for any Notifier intelligent control panel except FireWarden series panels, and the NSP- ,. 25 panel. Because the NBG-12LX is addressable, the control panel can display the exact location of the activated manual PUSH IN station. This leads fire personnel quickly to the location of the PULL DOWN alarm. ', Features • Maintenance personnel can open station for inspection and address setting without causing an alarm condition. • Built-in bicolor LED, which is visible through the handle of � the station, flashes in normal operation and latches steady 4-5`NOT% =, . red when in alarm. • Handle latches in down position and the word"ACTIVATED" appears to clearly indicate the station has been operated. • Captive screw terminals wire-ready for easy connection to The NBG-12LX SLC loop(accepts up to 12 AWG/3.25 mm2 wire). • Can be surface mounted (with SB-10 or SB-I/O) or semi- Addressable Manual Pull Station flush mounted. Semi-flush mount to a standard single- gang,double-gang,or 4" (10.16 cm)square electrical box. Installation • Smooth dual-action design. The NBG-12LX will mount semi-flush into a single-gang, dou- • Meets ADAAG controls and operating mechanisms guide- ble-gang, or standard 4" (10.16 cm) square electrical outlet lines (Section 4.1.3[13]); meets ADA requirement for 5 lb. box, or will surface mount to the model SB-10 or SB-I/O sur- maximum activation force. face backbox. If the NBG-12LX is being semi-flush mounted, Highly visible. then the optional trim ring (BG12TR) may be used. The • BG12TR is usually needed for semi-flush mounting with 4" • Attractive shape and textured finish. (10.16 cm)or double-gang boxes(not with single-gang boxes). • Key reset. • Includes Braille text on station handle. Operation • Optional trim ring(BG12TR). Pushing in,then pulling down on the handle causes it to latch • Meets UL 38, Standard for Manually Actuated Signaling in the down/activated position. Once latched,the word"ACTI- Boxes. VATED" (in bright yellow) appears at the top of the handle, • Up to 99 NBG-12LX stations per loop on CLIP protocol while a portion of the handle protrudes from the bottom of the loops. station.To reset the station, simply unlock the station with the • Up to 159 NBG 12LX stations per loop on FlashScan®pro- key and pull the door open.This action resets the handle;clos- ing the door automatically resets the switch. tocol loops. • Dual color LED blinks green to indicate normal on Each manual station, on command from the control panel, FlashScan®colosystems. sends data to the panel representing the state of the manual switch.Two rotary decimal switches allow address settings (1 —159 on FlashScan®systems, 1 —99 on CLIP systems). Construction Shell, door, and handle are molded of durable polycarbonate Architectural/Engineering material with a textured finish. Specifications Specifications Manual Fire Alarm Stations shall be non-coded, with a key- operated reset lock in order that they may be tested, and so • Shipping Weight:9.6 oz. (272.15 g) designed that after actual Emergency Operation, they cannot • Normal operating voltage:24 VDC. be restored to normal except by use of a key.An operated sta- • Maximum SLC loop voltage:28.0 VDC. tion shall automatically condition itself so as to be visually detected as activated. Manual stations shall be constructed of • Maximum SLC standby current:375 NA. red-colored polycarbonate material with clearly visible operat- • Maximum SLC alarm current:5 mA. ing instructions provided on the cover. The word FIRE shall • Temperature Range:32°F to 120°F(0°C to 49°C) appear on the front of the stations in white letters, 1.00 inches • Relative Humidity: 10%to 93%(noncondensing) (2.54 cm) or larger. Stations shall be suitable for surface mounting on matching backbox SB-10 or SB-I/O;or semi-flush • For use indoors in a dry location mounting on a standard single-gang, double-gang, or DN-6726:D•4/13/2012—Page 1 of 2 • 4"(10.16 cm) square electrical box, and shall be installed within the limits defined by the Americans with Disabilities Act (ADA) or per national/local requirements. Manual Stations shall be Underwriters Laboratories listed. Manual stations shall connect with two wires to one of the con- trol panel SLC loops. The manual station shall, on command from the control panel,send data to the panel representing the state of the manual switch. Manual stations shall provide address setting by use of rotary decimal switches. The loop poll LED shall be clearly visible through the front of the station. The LED shall flash while in the normal condition, and stay steadily illuminated when in alarm. Product Line Information NBG-12LX: Dual-action addressable pull station. Includes key locking feature. (Listed for Canadian and non-Canadian appli- cations.) NBG-12LXSP: Spanish/English labelled version. NBG-12LXP: Portuguese labelled version. SB-10:Surface backbox;metal. SB-I/O:Surface backbox;plastic. BG12TR:Optional trim ring. 17021: Keys,set of two. NY-Plate: New York City trim plate. Agency Listings and Approvals In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in pro- cess.Consult factory for latest listing status. • ULJULC Listed: S692 (listed for Canadian and non-Cana- dian applications). • MEA:67-02-E. • CSFM:7150-0028:0199. • FDNY: COA#6085(NFS2-640),COA#6098(NFS2-3030). • BSMI:CI313066760047. • U.S.Coast Guard. • Lloyd's Register. • FM Approved. Patented: U.S. Patent No. D428,351; 6,380,846; 6,314,772; 6,632,108. NOTIFIER® and FlashScan® are registered trademarks of Honeywell International Inc. ©2012 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. ISO 9001 We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANUFACTURING All specifications are subject to change without notice. QUALITY SYSTEMS Made int For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 2 of 2—DN-6726:D•4/13/2012 DN-6935:E•H-202 FSP-851 (A) Series NOTIFIER® Intelligent Plug-In Photoelectric 9 9 Smoke Detectors with FlashScan® by Honeywell Intelligent/Addressable Devices General Notifier FSP-851(A) Series intelligent plug-in smoke detec- tors with integral communication provide features that sur- pass conventional detectors. Detector sensitivity can be programmed in the control panel software. Sensitivity is conAlt - tinuously monitored and reported to the panel. Point ID capa- bility allows each detector's address to be set with rotary, _- decimal address switches, providing exact detector location for selective maintenance when chamber contamination reaches an unacceptable level. The FSP-851(A) photoelec- tric detector's unique optical sensing chamber is engineered to sense smoke produced by a wide range of combustion sources. Dual electronic thermistors add 135°F(57°C)fixed- temperature ixed temperature thermal sensing on the FSP-851T(A).The FSP- 851R(A) is a remote test capable detector for use withFSP-851(A) in B210LP(A) Base DNR(A)/DNRW duct detector housings. FSP-851(A) series detectors are compatible with Notifier Onyx and CLIP series Fire Alarm Control Panels(FACPs). FlashScan® (U.S. Patent 5,539,389) is a communication Specifications protocol developed by Notifier that greatly increases the Sensitivity: 0.5%to 2.35%per foot obscuration speed of communication between analog intelligent devices. Size:2.1"(5.3 cm)high; base determines diameter. Intelligent devices communicate in a grouped fashion. If one of the devices in the group has new information, the panel's —B210LP(A):6.1" (15.5 cm)diameter. CPU stops the group poll and concentrates on single points. —B501(A):4.1"(10.4 cm)diameter. The net effect is response speed greater than five times that —B200S(A):6.875"(17.46 cm)diameter. of earlier designs. —B200SR(A):6.875"(17.46 cm)diameter. Features -B224RB(A):6.2"(15.748 cm)diameter. • Sleek, low-profile design. —B224BI(A):6.2"(15.748 cm)diameter. • Addressable-analog communication. Shipping Weight:5.2oz. (147g). • Stable communication technique with noise immunity. Operating Temperature range: FSP-851(A), 0°C to 49°C • Low standby current. (32°F to 120°F). FSP-851T(A), 0°C to 38°C (32°F to 100°F). Low temperature signal for FSP-851T(A) at 45°F +/- 10°F • Two-wire SLC connection. (7.22°C +/- 5.54°C). FSP-851 R(A) installed in a DNR(A)/ • Compatible with FlashScan®and CLIP protocol systems. DNRW, -20°C to 70°C(-4°F to 158°F). • Rotary,decimal addressing(1-99 on CLIP systems, 1-159 UL/ULC Listed Velocity Range: 0-4000 ft/min. (1219.2 m/ on FlashScan systems). min.),suitable for installation in ducts. • Optional remote,single-gang LED accessory. Relative Humidity: 10%-93%noncondensing. • Dual LED design provides 360°viewing angle. Thermal Ratings: Fixed-temperature setpoint 135°F(57°C). • Visible bi-color LEDs blink green every time the detector is addressed, and illuminate steady red on alarm (FlashS- DETECTOR SPACING AND APPLICATIONS can systems only). Notifier recommends spacing detectors in compliance with • Remote test feature from the panel. NFPA 72. In low airflow applications with smooth ceiling, • Walk test with address display (an address on 121 will space detectors 30 feet (9.144m) for ceiling heights 10 feet blink the detector LED: 12-[pause]-1(FlashScan systems (3.148m) and higher. For specific information regarding only). detector spacing,placement,and special applications refer to NFPA 72. System Smoke Detector Application Guide, docu- • Built-in functional test switch activated by external magnet. ment A05-1003, is available at systemsensor.com • Built-in tamper-resistant feature. • Sealed against back pressure. ELECTRICAL SPECIFICATIONS • Constructed of off-white fire-resistant plastic, designed to Voltage Range: 15-32 volts DC peak. commercial standards, and offers an attractive appear- Standby Current(max. avg.): 300pA @ 24VDC (one com- ance. munication every five seconds with LED enabled). • 94-5V plastic flammability rating. LED Current(max.):6.5mA @ 24 VDC("ON"). • SEMS screws for wiring of the separate base. • Optional relay, isolator,and sounder bases. DN-6935:E•2/11/2015—Page 1 of 2 • s • Installation B210LPBP: Bulk pack of B210LP;package contains 10. FSP-851(A)plug-in detectors use a separate base to simplify B501(A):Standard European flangeless mounting base. installation, service, and maintenance. A special tool allows B501 BP: Bulk pack of B501;package contains 10. maintenance personnel to plug in and remove detectors with- out using a ladder. B200S(A): Intelligent, programmable sounder base capable Mount base(all base types)on an electrical backbox which is of producing sound output in high or low volume with ANSI at least 1.5" (3.81 cm) deep. For a chart of compatible junc- Temp aANSI Temporal 4, continuous tone, marching tion boxes,see DN-60054. tone,anndd custom tone. B200SR(A): Intelligent sounder base capable of producing NOTE: 1) Because of inherent supervision provided by the SLC sound output with ANSI Temporal 3 or continuous tone. loop, end-of-line resistors are not required. Wiring 'T-taps" or Replaces 8501 BH series bases in retrofit applications. branches are permitted for Style 4 (Class "B") wiring. 2) When using relay or sounder bases, consult the ISO-X(A) installation B224RB(A): Plug-in System Sensor relay base. Screw ter- sheet /56-1380 for device limitations between isolator modules minals:up to 14 AWG(2.0 mm2).Relay type: Form-C. Rating: and isolator bases. 2.0 A @ 30 VDC resistive;0.3 A @ 110 VDC inductive; 1.0 A @ 30 VDC inductive. Agency Listings and Approvals B224BI(A): Plug-in System Sensor isolator detector base. These listings and approvals apply to the modules specified Maximum 25 devices between isolator bases. in this document. In some cases,certain modules or applica- tions may not be listed by certain approval agencies,or listing ACCESSORIES may be in process. Consult factory for latest listing status. F110: Retrofit flange to convert B210LP(A) to match the • UL Listed:S1115. B710LP(A) profile, or to convert older high-profile bases to ULC Listed: S1115 (FSP-851A, FSP-851RA, FSP- low profile. • 851TA). F110BP: Bulk pack of F110; package contains 15. • MEA Listed:225-02-E. F210: Replacement flange for B210LP(A)base. • FM Approved. RA100Z(A): Remote LED annunciator. 3—32 VDC. Mounts • CSFM:7272-0028:0206. to a U.S. single-gang electrical box. For use with B501(A) • Maryland State Fire Marshal: Permit#2122. and B210LP(A)bases only. • BSMI:CI313066760036. SMB600:Surface mounting kit • CCCF:Certif.#2004081801000017(FSP-851T) M02-04-00:Test magnet. Certif.#2004081801000016(FSP-851). U.S. Coast Guard: 161.002/42/1 (NFS-640); 161.002/50/ M02-09-00:Test magnet with telescoping handle. • 0(NFS2-640/NFS-320/NFS-320C,excluding B210LP(A)). XR2B: Detector removal tool. Allows installation and/or • Lloyd's Register: 11/600013 (NFS2 640/NFS 320/NFS- removal of detector heads from bases in high ceiling applica- 320C,excluding B210LP(A)). tions. XP-4: Extension pole for XR2B. Comes in three 5-foot(1.524 Product Line Information m)sections. NOTE:"A"suffix indicates ULC Listed model. T55-127-010: Detector removal tool without pole. FSP-851: Low-profile intelligent photoelectric sensor. Must BCK-200B: Black detector covers for use with FSP-851(A) be mounted to one of the bases listed below. only; box of 10. FSP-851A:Same as FSP-851 but with ULC listing. WCK-200B: White detector covers for use with FSP-851(A) FSP-851T: Same as FSP-851 but includes a built-in 135°F only; box of 10. (57°C)fixed-temperature thermal device. FSP-851TA:Same as FSP-851T but with ULC listing. FSP-851 R: Low-profile intelligent photoelectric sensor, remote test capable. For use with DNRA/DNRW. FSP-851RA: Same as FSP-851R but with ULC listing. For use with DNRA. INTELLIGENT BASES NOTE:"A"suffix indicates ULC Listed model. NOTIFIER®is a registered trademark of Honeywell International Inc. NOTE:For details on intelligent bases,see DN-60054. ©2015 by Honeywell International Inc.All rights reserved.Unauthorized use of this document is strictly prohibited. B210LP(A): Standard U.S. flanged low-profile mounting base. 1S0 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements. ENGINEERING&MANIHCTIRING All specifications are subject to change without notice. QUALITY SYSTEMS For more information,contact Notifier.Phone:(203)484-7161,FAX:(203)484-7118. www.notifier.com Page 2 of 2—DN-6935:E•2/11/2015 FOR CITY USE ONLY 43D� OeG '.0N City of Orono Date Received: Permit# Q P.O.Box 66 RECEIVED m $ 2750 Kelley Parkway Crystal Bay,MN 55323 MAR 01 2018 AApprovedount: By: 1-ge)4 I. (952)249-4600 <` G t�kfSHO�''� Recommends: Approval Denial 1:1CITY OF ORONO 1Mzii '/ CITY OF ORONO—AUTOMATIC FIRE SPRINKLER/GENERAL PERMIT c by-a, 1/17CJ (All permits must be approved by the Fire Marshall and/or Building Official) 1. Permits are required for all fire sprinkler installation and repair. All work shall be done by a licensed fire sprinkler contractor. Two sets of plans, specification data sheets, fire flow tests and hydraulic calculation sheets shall be submitted to the Orono Fire Marshal a minimum of 7 days before start of work. 2. Permits can be applied for by mail at PO box 66, Orono,MN, 55323 or in person at, 2750 Kelly Parkway; Phone: (952)249-4600. Permits are also available online at: www.ci.orono.mn.us 3. All systems shall be designed, installed and maintained to N.F.P.A.-13,N.F.P.A.-25,Minnesota State Building Code,Minnesota State Fire Code and Standards. All attic systems are to be spaced at maximum 130 square foot coverage. Plastic pipe will not be allowed at any time in attic spaces. 4. All equipment installed shall be U.L. or F.M. approved for fire protection service. Water flow test shall be completed on all new systems. Water flow test reports shall be submitted to the Orono Fire Marshal along with plan submittal. 5. Yard or wall post indicator valves are required. All indicating and control values installed shall be provided with tamper protection. On dry systems,the control valve to service the pressure switch(air) shall be supervised. 6. Inspectors test valve shall be installed on each floor level or zone of system.All systems shall have main drain and inspectors test valves piped to the outside. 7. No water is to be introduced into the sprinkler system until main has been thoroughly flushed. 200# air test and flushing shall be witnessed by the City of Orono Water Department. 8. An approved audible/visual device wired to main flow switch shall be installed above F.D. connection and in areas normally occupied by tenants. 9. EXISTING SYSTEMS: If any changes in the hydraulically most demanding area, change in occupancy classification or an addition of 20 or more heads,hydraulic calculations and flow test will be required. 10. The Orono Fire Marshal shall witness all final flow or trip tests. Appointments can be made by calling the Fire Marshall at(952)473-9701, 8:00-4:00 p.m. Monday-Friday. 24-hours notice is requested. 11. When required,(30 foot building height) stairwell standpipe's shall have 2 '/z gate valves installed with 2 ''Axl '/zcaps. '- AUT MATIC.FIRE SPRINKLER PERMITS Please Check One ❑ New Addition ❑ Remodel ❑ Replace Backflow Device: n AVB n PVB Job Site°l Owner Info iation Site Address: } N C 0La CRAI S-ru X SA1-I t o b Owner: S 2.� Z7 Mailing Address: City: Lo)QC,, Loye_t; Zip: SS-3S . Home Phone: Alternate Phone: Contractor l Applicant Information: tee....... f3 'a-rt4 Contractor/A pp•: '' - Contact Person: Ra - v G Ct7K Address: 80-5 S Sreta rt p 12-1V6 State License#: C.�r I Z'(P City: SA- • J ptA Zip: 5(0374- Expiration Date: jc.„of30, 2.0 t$ Phone: CPS 24)J 3edo 3 r° 00 Alternate Phone: TYPES tli`:FIRE SPIINICLER PERMITS tigr Commercial-Fire Sprinkler ❑ Residential-Fire Sprinkler Fire Systems Permit I 41(2.51x Fire Systems Permit *Base Price=Contract Price: $VA'S t(2.S 1Q x.0125 =$ 2,o48.q t( (Minimum$50.00) *Surcharge=Contract Price:$t(O , `(2.Six.0005 =$ *Mail-In Fee(Only On Mail in Applications) =$ 2.00 *Total Cost of Permit: =$ 21 t 32 . The undersigned herby applies to the City for issuance of a Sprinkler Systems Permit. Applicant agrees that all systems shall be designed,installed and maintained to N.F.P.A.-13,N.F.P.A.-25,Minnesota State Building C Minn ,ota tate Fire C e and Standards,and certifies that all statements made on this applicat . co .'ete rue and co t. Z S 2o/$ Applicant Date Project Name: Plan Review and Inspection Checklist • i „ ! cOpy NFPA 13(2010 Edition) Page 1 of 5 Plan System Component Section Review Inspection Comments Yes No Yes No General Information 1 Do all areas have sprinkler coverage? 4.1 L. - 2 Partial system? 4.2&Division Policy \---_ FP-07 2007 3 Wet system being installed? 3.4.10 L/ 4 Dry system being installed? 3.4.5 5 Antifreeze system being installed? 3.4.1 ✓' 6 Preaction system being installed? 3.4.9 5oe 7 Deluge system being installed? 3.4.4 �-_ , 8 Is sufficient data provided to review plans? 22.1.3 ' ✓' „,<,* A-cd:I-,s o/I {l 9 Is sufficient data provided to review calculations? 22.3.2 'V ^"� -6?-04" rif 10 Manufacturer's data sheets for any specially listed 22.1.4 equipment provided? 11 Proper site plan? ✓ 12 Proper cross section? 22.1.3(4) L---” 13 Dry system capacity indicated? 22.1.3.17 �-.-- 14 Proper occupancy class of each area? 22.1.3(7) ✓ Water Supply Information 1 Does system have an automatic water supply? 23.1.1 2 Stored water supply? 23.2.4 v 3 Vortex plate provided? NFPA 20 4.14.10 _ 4 Is supply piping material plastic? 23.1.6.1 ✓' ., 5 Does flow test information appear accurate? 22.2.1 6 Has a listed fire pump been installed? 23.2.2 7 Fire pump performance curve or annuai test provided? _ —__, 8 Have simultaneous domestic uses through a 4.2&Division Policy / combined service been properly taken into account? FP-06 2007 V • 9 Hydraulic design information is posted at riser? 24.5.1 ti 10 General Information Sign posted at riser? 24.6 V' Valves(Directional And Control) 1 Are all control valves listed indicating type, 6.7.1.2 requiring 5 seconds to operate? 2 Is a riser check valve provided? 8.16.1.1.3.1 3 Is there at least one control valve at each water supply source? 8.16.1.1.1.2 �/ 4 Are valves supervised? MSCF 903.4 ✓ 5 Are valves secured? MSFC 903.4 ✓ -k " 6 Are valves accessible? MSFC 508.5.4 i/ 7 Is proper signage provided? 6.7.4&MSFC 510.1 __,5 -4- , 3 3 (; �( i / . ,F p 3x 5- -- - 1 0 ?( [if r _ 6_3 ,, )y-) = z) 4- s5' Project Name: Ii Plan Review and Inspection Checklist ORit i Opy NFP. 13(2010 Edition) Page 1 of 5 Plan SystemInspection Component Section Review Comments Yes No `, Yes No General Information 1 Do all areas have sprinkler coverage? 4.1 2 Partial system? 4.2&Div sion Policy FP-07 2007 3 Wet system being installed? 3.4.10 L/' 4 Dry system being installed? 3.4.5 %/' 5 Antifreeze system being installed? 3.4.1 ✓' 6 Preaction system being installed? 3.4.9 ", 7 Deluge system being installed? 3.4.4 —fes of 1 8 Is sufficient data provided to review plans? 22.1.3 A moi' �4. -i sq/� 9 Is sufficient data provided to review calculations? 22.3.2 v'' �"! � 10 Manufacturer's data sheets for any specially listed 22,1.4 ‘.(-- equipment f provided? 11 Proper site plan? ✓ 12 Proper cross section? 22.1.3(4) ti _13 Dry system capacity indicated? 22.1.3.17 14 Proper occupancy class of each area? 22.1.3(7) %.- Water Water Supply Information 1 Does system have an automatic water supply? 23.1.1 2 Stored water supply? 23.2.4 v 3 Vortex plate provided? NFPA 20 4.14.10 4 Is supply piping material plastic? 23.1.6.1 ✓' 5 Does flow test information appear accurate? 22.2.1 6 Has a listed fire pump been installed? 23.2.2 k/ 7 Fire pump performance curve or annual lest provided? -----.._„ 8 Have simultaneous domestic uses through a 4.2&Division Policy V combined service been properly taken into account? FP-06 2007 9 Hydraulic design information is posted at riser? 24.5.1 10 General Information Sign posted at riser? 24.6 1/' ValvesDirectional ( And Control) 1 Are all control valves listed indicating type, requiring 5 seconds to operate? 6.7.12 t..." 2 Is a riser check valve provided? 8.16.1.1.3.1 3 Is there at least one control valve at each water supply source? 8.16.1.1.1.2 V 4 Are valves supervised? MSCF 903.4 5 Are valves secured? MSFC 903.4 6 Are valves accessible? MSFC 508.5.4 7 Is proper signage provided? 6.7.4&MSFC 510.1 3 ,, 36 �� 7( , / / / z. g -Pr' i ...___ _________. 1_ 5--5- 3 x 1 = C(_3 , j y-) = Z) 4- S r Project Name: Plan Review and Inspection Checklist •• ei NEPA 13(2010 Edition) Page 2 of 5 4, Plan Inspection System Component Section Review Comments Yes No Yes I No Hangers and Bracing 1 Is piping supported in accordance with listing? • Per manufacturer 2 Are hangers ferrous type? 9.1.1.5.1 3 Are hangers of listed type? 9.1.1.4 4 Is piping supported independent of ceiling?(Toggles 9.2.1.1.1 = 1%max) (9.2.1.1.2) 5 Hangers installed in right locations on purlins&joists? 9.2.1.3.1 6 Are hangers spaced correctly? 9.2.2 7 Are pipe hangers provided for each pipe length? 9.2.3.2.1 8 Are hangers a minimum 3"from upright sprinklers? 9.2.3.3 9 Hangers correct for unsupported end pipe? 9.2.3.4 10 Unsupported armovers less than 24"for steel, 8.2.3.5.1 12"for copper? 11 Sprigs 4-ft or longer restrained against lateral 9.2.3.7 movement? One hanger provided for each two branch lines on the 12 • cross main? 9.2.4 13 Risers adequately supported within 24"of riser centerline? 9.2.5.1 v 14 If system pressure exceeds 100 psi unsupported length 9.2.3.4.3.1 & proper? 9.2.3.5.2 15 Are threaded sections of rod bent? Not allowed 9.1.2.6 16 Are nails used to support hangers? Not allowed 9.1.5.5 • 17 Clamps with set screws supporting pipe? Not allowed 9.2.5.2 18 Are screws installed in right locations in joists? 9.1.5.1 19 Are hangers supporting non-system components? Not a.lowed 9.1.1.7 20 Have pipe hangers and restraints been provided for Per plastic pipe? manufacturer Alarms/Air Compressor 1 Local water flow alarm provided? (over 20 spkl.) 6.9&8.17.1.1 • 2 Is flow switch provided on dry system? Not allowed r __- (6.9.2.4) 3 Inspector's test WET system location acceptable? 8.17.4.2 l n dr 4 Inspector's test DRY system location acceptable? 8.17.4.3 5 Compressed air supply available at all times? 7.2.6.2.1 6 Check valve properly installed in air filling supply line? 7.2.6.3.2 7 Relief valve properly installed in air filling supply line? 7.2.6.3 8 Is elec.switch to the compressor secure? 7.2.6.2.1 . Pressure Gauges/Relief Valve 1 Is there a pressure gauge on the riser or feed main? 7.1.1.1 2 Is pressure gauge minimum W? 8.17.3.1 3 Pressure gauges in correct location on dry system? 7.2.1 4 Are pressure gauges in correct location for pre-action 7.3.1.3 and deluge systems? 5 Are pressure gauges on each side of system check 7.1.1.2 valve? 6 Is dry system under normal operating pressure? 7 Is wet system under normal operating pressure? 8 Relief valve installed on wet gridded system? 7.1.2.1 Project Name: Plan Review and Inspection Checklist NFPA 13(2010 Edition) Page 3 of 5 Plan Inspection System Component Section Review Comments Yes No ; Yes No _ Fire Department Connection 1 Has FDC been provided? 8.17.2.1 ✓ 2 Is FDC location acceptable? MSFC 903.3.7 v- 3 Is FDC 18"-48"above grade? MSFC 912.2.3 4 Is FDC correct size? 8.17.2.3 5 Is FDC correctly arranged within system? 8.17.2.4 ✓ 6 Check valve installed on FDC? (Verify direction) 8.17.2.5.1 � • 7 FDC check within 25 feet of FDC inlet? MSFC 903.3.1.6.4 %./' 8 Has sign stating system type been installed? 8.17.2.4.7 9 Is there a shutoff valve between FDC and the Not allowed system? (8.17.2.5.2) /170' 10 Does FDC have proper threads? 6.8.1 11 Does FDC have protective caps? 6.8.2 12 Is the FDC accessible and unobstructed? 8.18.2.4.6 s 13 Ball drip properly installed? 8.17.2.6 Drains 1 Are there provisions to drain the riser? 8.16.2.4.2 /p-f- Alum 2 Are drains provided for each sectional control valve? 8.16.2.4.3 3 Are auxiliary drains provided for isolated piping? 8.16.2.5 A6r4 g hi UPI 4 Do drains terminate at approved locations? 8.16.2.4.4 / 5 Common drain riser size increased? 8.16.2.4.7 Y /l/1/17(/t/it /"/ Piping and Fittings 4r f )vi/Z i 1 'Is piping approved type c. listed? I 6.3.1 I 11 I T 2 Do pipe bending techniques comply? 6.3.7 3 Does cross main have provision for flushing? 8.16.3.2 I . 4 Is end of cross main a minimum size of 1-1/4"? 8.16.3.3 5 Are return bends properly provided? 8.15.18 6 Is piping protected from freezing? 8.16.4.1 7 Is pipe protected against corrosion? 8.16.4.2 8 Are pipe joining techniques proper? 6.5 9 Are fittings approved type or listed? 6.4 10 Gaskets listed for use on dry pipe system? 6.5.3.3 11 Have fasteners been welded topiping? Not allowed 6.5.2.4.6(7) 12 Are screwed unions used on pipe over 2"? Not allowed • 6.4.5.1 13 Has plastic pipe been installed in unapproved Per manufacturer exposed areas? _ 14 Is piping properly pitched? 8.16.2.1 Project Name: Plan Review and Inspection Checklist NFPA 13(2010 Edition) Page 4 of 5 Plan Inspection System Component Section Review Comments Yes No Yes No Sprinklers 1 Make,type, model, K-factor, and sprinkler 22,1.3(12) identification number indicated? 2 Are sprinklers listed for their use? 6.1.1 3 Are nonmetallic escutcheons listed type? 6.2.7.1 Are escutcheons for recessed or flush sprinklers part 4 of listed assembly? 6'2.7'2 5 Residential sprinklers used in residential areas? 8.4.5.1 /~ Are residential sprinklers within each compartment of 6 the same fast response type? 8.4.5.3 7 Is the correct K-factor used? Table 6.2.3.1 Are small orifice sprinklers used on dry systems? 8.3.4.1(2) 8 Exception (Note exception) 8.6.4.1.4.4 Has strainer been provided for small orifice 9 8.3.4.1(3) sprinklers? 10 Do sprinklers have correct temperature rating? 8.3.2.1 11 Have spare sprinklers and wrench been provided? 6.2.9 12 List of sprinklers posted? 6.2.9.7 13 Are guards provided for sprinklers subject to injury? 6.2.8 14 Are all sprinkler coverage areas within listing limits? 8.1.1(2) 15 Are upright and pendent sprinklers correctly spaced 8.6.3.2&8.6.3.3 from walls? 16 Are sprinklers 4"minimum from walls? 8.7.3.3.1 & 8.6.33 Is minimum 18"clearance provided from sprinkler to " 17 top of storage? 8.5.6.1 \/1 18 Are sprinklers within allowable distance below ceiling/ 8.5.4 roof? 19 Are combustible concealed spaces protected? 8.15.1 - • 20 Sprinklers located correctly under peaked roof? 8.6.4.1.3 21 Are shafts protected with sprinklers? 8.15.2 22 Sprinklers located to minimize obstructions? 8.5.5 23 Skylights properly protected? 8.5.7 .� 24 Ceiling pockets properly protected? 8.6.7&8.8.7 NFPA 82(04)5.2.6 25 Are chutes and discharge rooms protected? &5.2.7&MSFC 903.2.10.2 26 Are floors, atriums and stair(vertical)openings 8.15.4 protected? 27 Are exterior balconies, decks, canopies and platforms 8 15.7 protected? Are sprinkler omissions from bathrooms in 8.15.8.1 - 28 accordance with correct size and construction NOTE: requirements? 8.15.8.1.2 Are sprinkler omissions from closets in accordance 29 with correct size and construction requirements? 8.15.8.2 • MSFC amendment 30 Are areas under OVHD doors, large ducts, etc. 8.5.5.3.1 protected? 31 Is commercial-type cooking equipment protected? 7.10&MSFC 904.2.1 32 IAre coolers and freezers protected? (above&below) 4.1 &8.15.2.2.1 f IALie.-c v- cAry 5e-c.c1 15 Project Name: Plan Review and Inspection Checklist NFPA 13(2010 Edition) Page 5 of 5 Plan Inspection System Component Section Review ; Comments Yes No = Yes! No Sprinklers continued 32 Are standard coverage upright sprinklers directly 8.6.5.2.1.8 attached to less than 3"pipe? 33 Are extended coverage upright sprinklers directly 8.8.5.2.1.7 attached to less than 3"pipe? 34 Are sprinklers in attic properly located at peak? (4/12 8.6.4.1.4.2 —_—, pitch) MSFC amendment 35 Are sprinklers in attic properly located at eave?(4/12 8.6.4.1.4.3 ^- pitch) MSFC amendment=5'min. 36 Small room rule properly applied? 8.6.3.2.4 Hydraulic Calculation Checklist(Non-Storage) Section Yes No Comments 1 Is the flow test current?<3 years Division Policy FP-02 2007 2 Flow test utilized in the calculations match: 3 the cover sheet? ✓ 4 the plan? v 5 the graph sheet? tr 6 System demand satisfy 5 psi safety margin? MSFC 903.3.8 ✓ 7 Correct hose streams been added? 11.2.3.1.2 v 8 Is the size of the remote area correct? Fig. 11.2.3.1.1 ✓ • 9 Is the shape of the remote area correct? 22.4.4.1.1.1 ' 10 Remote area location correct?(Hyd.most remote) A.22.4.4.6 11 Has room design method beenplied correct? 11.2.3.3 .� 12 Design area QR reduction been applied correctly? 11.2.3.2.3.3 13 Is the number of design sprinklers correct? 11.2.3.2.3.2 _ 14 30%design area increase for sloped ceiling? 11.2.3.2.4 15 30%design area increase for dry system? 11.2.3.2.5 16 Extra haz.,high temp.reduction correct? 11.2.3.2.6 17 Multiple adjustments been applied correctly? 11.2.3.2.7 18 All sprinklers in the design area operating? 14.4.4.4.1 & 14.4.4.4.2 19 Is the occupancy correct? 5.1 ✓ J 20 Is the density correct? 11.2.3.1.1 21 Is the coverage area for each sprinkler correct? 8.5.2.1.1 / Data sheet 22 Is the minimum GPM for the sprinklers correct? 22.4.4.6.1 /Data sheet 23 Is the pressure required for each sprinkler correct?(7 22.4.4.10.1 / psi min.) Data sheet Table 6.2.3.1 / 24 Is the K-factor(s)correct? Data sheet 25 Sprinklers on the plans same as on calculations? 26 Is the C-valve for the pipe correct? Table 22.4.4.7 27 Are pipe I.D.'s correct? 28 Pipe sizes on the plans match calculations? 29 Pipe lengths on the plans match calculations? 30 All valves and fittings added into calculations? 22.4.3 31 Friction loss through the pipe and fittings correct? 22.4.4.7 32 Has correct amount of elevation been calculated? A.11.2.3. (Fig. A.22.3.2(c) 33 Nodes on calc. sheets match nodes on plans? 34 Are all the nodes indicated on the plan? 35 Are the nodes properly connected? -JI ILI w 0 z (4r) ,,, ,...., • \ -.. ......_ 1._ E dm NN 1 I I i , tI ,) w w v -J LLI .ii. n. , , . s .., I 5 — ..• vi. 4 2 • . 1 N.N N. I1' ,,,, , . i N, 1 I N, N i I 11 i i toP x \'.6... •41•11,a.11.1 NNN i i 1 ? I I N.. I • ' I, 111 %I I i ...,t PI ifil N'N't LI , , - _. 1 1 N _L_ l __ , .,„ _ 1 ..........,_ i . L r...L. , _ _• MEND • •MMM • ••••1 , • t ' N . •. 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U ^I N.�il�LLA 4� 4�-,tz� 0��x o w �C�64 L6 t6 r� tAoiQC� 0 rzo co �O 0 co co N • Orono Ilion School Drawing Date:02/23:16 4/30/18 11 :22 :22 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Orono High School J :iti 2018 Location: 795 North OLD CRYSTAL BAY RD Long Lake CITY OF ORONO Drawing Date: 02/23/18 Remote Area Number: 2 Contractor: Breth-Zenzen Fire Protection Te .ephone:320--363-0900 8053 Sterling Drive Suite, 101 St. Joseph, MN 56374 clgAN Designer: Paul Secord Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: II B Occupancy:E Reviewing Authorities:City of Orono SYSTEM DESIGN _-- Code:NFPA 13 Hazard:ORD GRPTI System Type:WET Area of Sprinkler Oper: 1528 sq ftl Sprinkler. or Nozzle Density (gpm/sq ft) 0.150 I Make: Tyco Area per Sprinkler 114.0 sq ft( Model: TY-FRB Hose Allowance Inside 0 gpm I K-Factor: 5. 60 Hose Allowance Outside 250 gpm I Temperature Rating: 200 CALCULATION SUMMARY 14 Flowing Outlets gpm Required: 508. 9 psi Required: 50.6 8 City Supply WATER SUPPLY Water Flow Test ( Pump Data ( Date of. Test 11-28-1.8 I Rated Capacity 0 gpm I Static Pressure 58.0 psi I Rated Pressure 0. 0 ps.i. I Residual Pres 52.0 psi I Elevation 0 At a Flow of 1190 gpm I Make: Elevation 1 ' 6" I Model: Location: Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55:356 • Crone Eigh School Drawinc Dote:02/23/1H 4/30/18 11 :22 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref N Required at Hyd Area 2 259 52. 8 psi 1 4" Grvd Butterfly Valve Tyco BFV- 5' 120 4 .026 259 0. 1 1 4" Thrd Back. Flow Valve WATTS 774 CHART LOSS 259 2 . 4 Elevation Change -1110" -5. 1 Fixed Flow Inside Hose Stream 0 gpm Hydr Ref R1 Required at Base of Riser 259 50.1 psi 1 Pipe 6" D1x18 America DI 350 300' 140 6.338 259 0. 5 Fixed Flow Outside Hose Allow. 250 gpm Hydr Ref R2 Required at City Supply 509 50 . 6 psi Water Source 58.7 psi static, 52.7 psi residual @ 1190 gpm 509 gpm 57.4 psi SAFETY PRESSURE 6.8 psi NOTE: Water Source has been adjusted. to include a change of elevation of 1' 6" flow test to point of connection Available Pressure of 57.4 psi Exceeds Required Pressure of 50.6 psi This is a safety margin of 6.8 psi or 12 % of Supply Maximum Water Velocity is 11.8 fps a Job Water Required Hose Allowance Orono High School Static Pres: 58.0 psi Pressure: 50.6 psi In: 0 gpm 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi Sys Flow: 259 gpm Out: 250 gpm ' Long Lake Flow: 1190 gpm Sys+Hose: 509 gpm Remote Area: 2 Date: 11-28-18 Safety Pres: 6.8 psi Loc: Hydrant in front of build Hd Ely Pres: 9.6 psi 70 _ i 1 60 :m _ M pp •..,t,„„. i I 50 i 250 gpm hose . i / . , 40 f P S i 1 30 • i • 20 • .— ...,.,. —.. __.... L. .__.__._ ........ 1 • 1 • 10 9.6 psi { _.. Ij �.. 150 225 300 375 450 525 600 675 750 Flow (gprn) Crone High School DrawingDate:i2r 3t_L4/30/18 11:22 `age FITTING NAME _'. BLE A2DREY%. NAME C Coupling 90' Standard Elbow F 45' Elbow S Straight Flow Thru Tee T 90' Flow Thru Tee V Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. _ K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 . 52 x (Q/C) ^1. 85 / ID^4 .87 Pv Velocity pressure (psi) where Pv = 0.001123 x Q^2/ID^4 Pn. Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0.01 psi. Pressures are listed to 0.1 psi. Addition may vary by 0. 1 psi due to accumulation of round off. - Calculations conform to NFPA 13. - Velocity Pressures are not considered in these Calculations Cronu High Schon Drawing t ).. %2 31.8 4/30/.18 1..... :2 .. Page 4 NODE ELEVATION SPRINKLER PRESSURE tZ.``,T )iil., MINIMUM 1z:.,'....rz.., NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GF/ i s..^1-i'1 ) (PST) (GPU) (GPM) (01C4/ )Q. Fr7 100 15.75 34 .0 101 15.75 33. 9 102 15.75 33. 9 103 15.75 33.9 104 22.25 31.2 105 22.25 31 .1 106 22.25 31 . 1 107 22.25 31.1 200 22.22 5. 60 9.3 17.1 17 .1 0.15 201 22.22 5. 60 9.4 17.2 17.1 0.15 202 22.22 5. 60 9. 6 17 .4 17. 1 0.15 203 22.22 5.60 11.1 18 .7 17 .1 0. 16 204 22.22 5. 60 11 . 6 19. 1 17 . 1 0 . 17 205 22.22 5. 60 12.4 19.8 17.1 0 . 17 206 21. 92 5. 60 9.4 17.2 17 .1 0. 15 207 21. 92 5. 60 9. 5 17.3 17. 1 0 .15 208 21. 92 5.60 9.8 17.5 17.1 0. 15 209 21.92 5.60 11.3 18 .8 17.1 0. 16 210 21.92 5.60 11.7 19.2 17.1 0 .17 211 21. 92 5. 60 12.5 19.8 17.1 0. 17 212 21. 67 5. 60 12.3 19.7 17. 1 0. 17 213 21.67 5. 60 13.2 20.3 17.1 0.18 501 -1.71 46.0 507 -1.71 46.0 508 -1.71 46.0 620 -1. 92 39.9 621 19. 33 2.8.8 622 19.33 28 .9 623 30.83 25.7 624 30.83 25.7 625 30.83 25.7 626 30.83 25.7 627 30.83 25.7 628 30.83 25.7 629 30.83 25.7 630 19.33 28.8 631 15.75 36.5 632 -1 .71 46.0 633 -1 .71 46.0 634 -1 .71. 46.0 635 -1.71 46.0 636 -1.71 46.0 637 -1.71 46.0 638 -1.71 46.0 641 10. 67 42.9 642 10. 67 42. 9 643 10. 67 42 .9 644 10. 67 42 .9 645 10 . 67 42. 9 646 10. 67 42.9 Al -1. 92 39.9 . . ` ~ Grono High School Drawing Date:02/23/18 4/30/28 11 :22 Page 5 _' . �._-_-� _. NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL ROMPER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSI" ) ) (PSI) (GPM) (GPM) (GPM/SO. FT) A2 -1 . 92 39.9 A3 -1.92 39.9 A4 19.33 30.7 AS 19.33 30.7 A6 19.33 30.7 A7 19. 33 30.7 A8 I5. 00 33.5 A9 I5. 00 33.7 2ll0 I5.00 33.9 All 15'00 34.1 AI2 I5.00 34.3 AI3 I5.00 34-5 A14 I5,00 34.7 A15 I5. 00 34' 9 }lI6 15- 00 36.9 A17 -4' 00 47.0 J\18 -1I'83 52.7 Al9 -1I.83 52.7 BI -1.92 39.9 Cl 30.83 25.7 C2 30. 83 25.7 Dl 19.33 30.6 El 15. 00 36.9 Fl -1'71 46.0 GI 9. 67 43.4 �2 9. 67 43.4 G3 9. 67 43.4 G4 9.67 43.4 G5 -2 .67 48'7 G6 -2.67 48.7 8l -2. 67 48.7 B2 -2. 67 48.7 H3 -2. 67 48.7 Il 30. 83 25.7 12 30.83 25.7 JI -1 .92 39'9 J2 -1.92 39. 9 Kl -I.92 39. 9 01 22.22 10,9 02 21 .92 1I.0 03 21. 67 11.1 91 I5.08 34.4 P2 15'00 34.4 P3 I5.00 34 .4 94 I5'00 34 .4 95 15.00 34.4 P6 15.00 34.5 97 I5.00 34 .5 P8 15.00 34.5 99 15.00 34.5 QI 9.67 43.4 ZZ9 Oa, ET? 1Uo,74 GdTd eq UT slm000 t.,9' TT Izo A4T00T0A xell 8'Zg CS' Il- M 6' 8&' 00 - ES 6' 8t 6. 8-; 00'E- TS V"Efi L9'6 V..) f7'ET7 L9 .6 ZO (ISd) ( (.--iviSd) /NdD) (JA) i,IISNAC mo,"L;I MUL4 EaLDVA-',A >TE2NAN q4iII3V NiTiNINIE qVnIDV YdrISS7121d >17,!ITANI\LIdS NOILVATI3 HCION - -- -,- . ____ -, ----- __-. . ------- --- 9 ..4.i)?i ?Z: Tr er/o /t, i.?T/F:,..j:./:0:al e,:1 D LIT tv,P la TO 0,!;,1;)S Li b TE o Li C.)Y'.) . • Orono High Schc)ol Drawing -___-__- --- HYD. Qa DTA. 51771112 PIPE Pt 2t REF n n TYPES v >HS _. f . _. .. Tv r r.*.r.**a NOTEs ***..4*** PATH 1 FROM HYDRAULIC REFERENCE 206 TO W (PRIMARY PATH) 1.7.2.1. 1 .740 8.33 9.4 9.4 K = 5.60 206 0=120 0. 00 0.0 0.0 17.21 0.008 8.33 0.1 9. 4 Vel = 2.34 17.27 1 .740 8.33 9.5 9.5 K = 5. 60 207 C=120 0.00 0.0 0.0 34.48 0.030 8 .33 0.3 9.5 Vel - 4 .70 17.50 1.740 1T 7.29 9. 8 9.8 K 5. 60 208 C=120 11. 68 0.0 0.0 51.98 0.065 18 . 97 1.2 9.8 Vel = 7.08 -5.08 3.316 14 . 49 11.0 11 .0 02 C=120 0. 00 0. 1. 0.0 See PATH 4 AND 5 46. 91 0.002 14. 49 0.0 11.0 Vel = 1.76 1 .740 1T 10. 88 11.1 11 .1 03 C=120 11 . 68 0.0 0.0 46.91 0.054 2.2.55 1 .2 11. 1 Vel =. 6. 39 19. 68 1.740 8 .00 12.3 12.3 K 5. 60 212 C=120 0.00 0.0 0.0 66.59 0.102 8 . 00 0. 8 12.3 Vel ,._. 9. 07 20. 32 1.740 4E 64. 18 13.2 13.2 K = 5. 60 213 C=120 23.35 1 .0 0.0 86.91 0.168 87. 54 14.7 13.2 Vel - 11.84 2.215 1T 22.34 28 . 9 28. 9 622 0=120 14.00 0.0 0.0 86. 91 0. 052 36.34 1 . 9 28 . 9 Vel -= 7. 31 172.01 4 . 316 3E 19. 13 30.7 30 .7 A7 C-120 42 . 10 1.9 0.0 See PATH 2 258.91 0.015 61 .22 0.9 30.7 Vel = 5.73 -6.40 4 .316 14 .22 33. 5 33.5 A8 C=120 0.00 0.0 0.0 See PATH 6 252.51 0.014 14 .22 0.2 33.5 Vel. = 5.59 -5.45 4 .316 14 .22 33.7 33.7 A9 C=1.20 0.00 0.0 0.0 See PATH 7 247.06 0.014 14 .22 0.2 33.7 Vel = 5. 47 UNITS -- DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) , j 4/30/28 11 :22 Tyco Products ;- F r.' HYD. ti = DIA. FT .3 1 NG P f > _ _. ,. 1)(' % 1 P`/ft 1`, !AL .. .. OI PATH 1 FROM HYDRAULIC REFERENCE 206 TO W (PRIMARY PATH) -4.56 4 . 316 14.22 33.9 33.9 A10 C=120 0.00 0 .0 0.0 See PATH 8 242.50 0.013 14.22 0.2 33.9 Vel = 5.37 -3.49 4.316 14 .22 34 . 1 34.1 A1.1. C-120 0.00 0.0 0. 0 See PATH 9 239.01 0.013 14.22 0.2 34. 1 Vel = 5.29 • -2. 12 4 .316 14 .22 34 . 3 34 . 3 Al2 C=1.20 0.00 0.0 0 .0 See PATH 10 236.89 0. 013 14 .22 0.2 34 . 3 Vel = 5.25 1 .36 4.316 14 .22 34 .5 34 .5 A13 C=120 0.00 0.0 0.0 See PATH 11 238 .28 0.013 14 .22 0.2 34 . 5 Vel 5.28 3.04 4 .316 14 .22 34 .7 34.7 A14 C=120 0.00 0.0 0.0 See PJVI.J1 12 241 .32 0.013 14.22 0.2 34 .7 Vel = 5.34 4 .15 4 .316 lE 104 .14 34 .9 34 .9 A15 C=120 1T 42.10 0.0 0.0 See PATH 13 245.47 0.014 146.23 2. 0 34 . 9 Vel = 5. 44 13.45 4 .316 4E 39.76 36. 9 36. 9 A16 C=120 iT 84 .19 8.2 0.0 See PATH 6 258.91 0. 015 123.95 1.9 36. 9 Vel = 5.73 4 .316 3E 79.40 47 .0 47. 0 Al . C=120 11 70. 16 3.4 0.0 258.91 0.015 149.56 2.3 47 .0 Vel. = 5.73 4 .260 2.00 52 .7 52.7 A18 C=120 3.00 0 .0 0.0 258.91 0. 016 2.00 0.0 52.7 Vel = 5.89 4 .260 4 .24 52.7 52.7 A19 C-120 0.00 0.0 0.0 258 .91 0.016 4 .24 0.1 52.7 Vel = 5.89 W 258 .91 52.8 K = 35. 64 PATH 2 FROM HYDRAULIC REFERENCE 200 TO A7 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) ` . ^ ~ Orono Bigb School Drawing Date:02/23/18 4/30/18 I2 :22 Tyco Fire Products Page 9 ~ _~�- ' ~.~ ~� ~_~ ^```� ~. HYD. c2a DIA' FITTING PIPE pt Pt REF "C° TYPES FTNG'8 Pe pv +^*+^+* 00TES ^°++^~^ POINT Qt. Pf/ft TOTAL Pf Po - ---- PATH 2 FROM HYDRAULIC REFERENCE 200 TO Al CONTINUED 17 . 10 I.740 8.33 9. 3 9.3 X - 5. 60 200 C=120 0.00 0. 0 0.0 17 . 10 0.008 8. 33 0. 1 9.3 Vel = 2.33 I7'16 1 .740 8.33 9.4 9.4 K = 5. 60 201 C=I20 0,00 0.0 0. 0 34 .26 0.030 8 .33 0.2 9.4 Vel - 4. 67 17 '39 1 .740 IT 7.29 9. 6 9. 6 K = 5. 60 202 C=120 I1' 65 0.0 0.0 51. 65 0.064 18. 97 1 .2 9. 6 Vel = 7 . 04 -22.93 1.740 IT 1.04 I0'9 10.9 01 C=120 I1 ' 68 0.0 0.0 See' PATB 4 28 .73 0.022 12.72 0.3 10. 9 Vel = 3.91 18 . 68 1.740 8 .33 11 .1 11. 1 K = 5. 60 203 C-120 0. 00 0.0 0.0 47. 41 0.055 8.33 0.5 11. 1 Vel = 6.46 19.06 1 .740 8.33 1I . 6 11. 6 K = 5. 60 204 C=120 0.00 0.0 0.0 66, 47 0,IO2 8.33 0' 9 I1 ' 6 Vel - 9.06 I9'75 1.740 4E 67.98 12.4 12,4 K = 5. 60 205 C=120 23.35 1.2 0.0 86.22 0' 165 9I'34 I5. 1 12.4 Vel = I1,75 2'215 17 22 .34 28.8 28. 8 630 C=120 14 .00 0.0 0.0 86.22 0.051 36.34 1.9 28 .8 Vel = 7.25 4.316 14.33 30.6 30' 6 Dl C=I20 0. 00 0.0 0.0 86.22 0.002 14 .33 0.0 30. 6 Vel = 1. 91 4.316 1.25 30.7 30.7 A4 C=120 0. 00 0.0 0. 0 86.22 0' 002 1.25 0.0 30.7 Vel = I. 91 4 .316 6. 56 30.7 30.7 A5 C=120 0. 00 0. 0 0. 0 86.22 0.002 6.56 0°0 30.7 Vel = 1'91 Orono Iliad School Drawing Date:02/23/16 4/30/18 11 :22 Tyco Fire Products Paoc 10 HYD. Oa DTA, FITTING PIPE Pr Pt. REF ,,c,, TYPES FTNG'S Pe pv ,,** *,, POINT Qt.. P1/ft TOTAL if Pc PATH 2 FROM HYDRAULIC REFERENCE 200 TO A7 CONTINUED 85.78 4.316 7. 98 30.7 30.7 A6 C=120 0.00 0 .0 0.0 See PATH 3 172.01 0.007 7.98 0. 1 30.7 Vel = 3.81 A7 172.01 30.7 K = 31.03 PATH 3 FROM HYDRAULIC REFERENCE 209 TO A6 46.79 1.740 8.33 11. 3 11 .3 K -; 13.95 209 0=120 0.00 0.0 0.0 46.79 0.053 8. 33 0.4 - 11.3 Vel = 6.38 19. 16 1.740 8.33 11.7 11.7 K = 5.60 210 C-•=120 0.00 0.0 0.0 65.95 0. 101 8. 33 0.8 11 .7 Vel .- 8.99 19.83 1.740 4E 69.40 12.5 12.5 K - 5.60 211 0-120 23.35 1. 1 0.0 85.78 0.164 92.75 15.2 12 .5 Vel -- 11. 69 2.215 1T 22. 34 28 .8 28.8 621 0=120 14.00 0.0 0.0 85.78 0.051 36.34 1.8 28.8 Vel - 7.21 A6 85.78 30.7 K - 15. 49 PATH 4 FROM HYDRAULIC REFERENCE 01 TO 02 22.93 3.316 13.64 10. 9 10. 9 01 C=120 0.00 0.1 0.0 See PATH 2 22. 93 0.001 13. 64 0.0 10.9 Vel = 0.86 02 - 22. 93 11.0 K = 6. 91 PATH 5 FROM HYDRAULIC REFERENCE 02 TO 209 .._ UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) ^ ^ ^ , Orono High 3cnool Drawing Dat-e:02/23/18 4/30/I8 I1 /22 Tyco Fire Products Paye II -------- --- __ - �'. '_~�_ - ___~~- 8YD. Oa 0I2. FITTING PIPE Pt Pt REF ''C" TYPES FTNG'S Pi,? pv °+*+*°° NOTES ^+°~**^ POINT Qt Pt.-/ft TOTAL Pt En ----------_---- -------- __- ~ ~~~ . „.~~� PATH 5 FROM HYDRAULIC REFERENCE 02 TO 209 CONTINUED -____ __' - __ _______ 28.00 1 .740 lT 1.04 11 .0 11 . 0 02 C~120 I1 . 68 0.0 0.0 See PATH 1 AND 4 28'00 0' 021 12.72 0.3 1I.0 Vel = 3'82 - __ ___. ___'-'_____- 2U9 28,00 I1'3 K = 8 .35 - - -, - _ PATH 6 FROM HYDRAULIC REFERENCE A8 TO A16 6.40 1.530 1E 239.04 33. 5 .33'5 A8 C-120 lT 14 . 88 -0.3 0.0 See PATH 1 6.40 0. 003 263.92 0. 6 33.5 Vel = I ' 13 1' 530 14 .70 33.9 33.9 103 C=I20 0.00 0 .0 0.0 6.40 0.003 I4'70 0.0 33. 9 Vel - 1 .13 I- 630 14.70 33.9 33. 9 102 C=120 0.00 0.0 0.0 6.40 0.003 14.70 0.0 33. 9 Vel = I '13 1'530 14 .70 33.9 33.9 101 C=120 0.00 0.0 0.0 6. 40 0.003 14'70 0.0 33^9 Vel = 1.I3 1 .530 2T 2T l9. 03 34 .0 34 .0 100 C=120 I9' 83 0.3 0.0 6.40 0'003 39.76 0. 1 34.0 Vel = 1.I3 ���' 2. 707 14 '22 34.4 34.4 P1 C=120 0.00 0.0 0.0 6'40 0' 000 14 .22 0.0 34 . 4 Vel = 0.36 5. 45 2.707 14 '22 34.4 34.4 P2 C=I20 0.00 0.0 0.0 See PATH 7 I1' 85 0'000 14 .22 0.0 34 .4 Vel = 0. 67 4 .56 2.707 14.22 34.4 34 .4 P3 C-120 0.00 0.0 0. 0 See PATH 8 16.42 0. 001 14 .22 0.0 34 .4 Vel = 0.92 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) ^ ^ ^ ~ Orono Nigh School Drawing Date:02/I3/18 4/30/18 1l :22 Tyco Fire Products Page 12 `. -__ - ^' `_- _ HYD. �� DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'8 Pe pv, °*~^°** NOTES +^^^*+° POINT Qt pf/ft TOTAL P± Po _~ .. . . PATH 6 FROM HYDRAULIC REFERENCE A8 TO A16 CONTINUED 3.49 2.707 14 .22 34 .4 34'4 P4 C=120 0.00 0.0 0.0 See PATH 9 19.91 0'00I 14.22 0.0 34. 4 Vel = I .12 2. 12 2.707 14 .22 34. 4 34. 4 P5 C=I20 0.00 0 .0 0.0 See PATH 10 22.02 0.002 14.22 0.0 34 .4 Vel - 1 .24 -I,38 2.707 14 .22 34.5 34 .5 P6 C~120 0'00 0.0 0.0 See PATH 11 20.64 0.00I 14.22 0.0 34.5 Vel = 1.16 -3.04 2.707 14 '22 34'5 34 .5 P7 C=120 0. 00 0.8 0.0See PATH 12 17.59 0.001 14.22 0.0 34.5 Vel = 0.99 -4 .15 2.707 14'22 34. 5 34. 5 P8 C-120 0.00 0.0 0.0 See PATH 13 13.45 0.001 14.22 0.0 34 .5 Vel = 0.76 1 .530 ID 213.08 34 .5 34. 5 P9 C=120 2T 24.79 -0.3 0.0 13.45 0.0I0 237.88 2. 4 34 . 5 Vel = 2. 37 2. 104 lT 0.75 36.5 36. 5 631 C~120 10.90 0.3 0.0 13.45 0.002 I1' 65 0.0 36. 5 Vel - I.25 4 .316 0. 67 36. 9 36. 9 El C=I20 0.00 0 .0 0.0 13.45 0'000 0.67 0.0 36.9 Vel = 0.30 _ _ _____�. � _ _ ._ 8l6 13.45 36. 9 K - 2 .21 ___. '.~- - - ' ,~ ^- �-, PATH 7 FROM HYDRAULIC REFERENCE A9 TO P2 5.45 1.530 1E 245.54 33.7 33.7 A9 C=120 lT I4 ,88 -3. 1 0. 0 See PATH I 5.45 0.002 260. 42 0.5 33. 7 Vel = 0. 96 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . , Ci-r)q High Sch(')01 Drawing Date: 02/23/18 4/30/1 11 :22 Tyco Fire Frodiacts Page 13 NYE). 9a DIA. FITTING PIPE Pt Pt: REF "C" TYPES ETNG'S Pe pv ,,***-k* NoTHs ,**,,,,,,,* , POINT Ot Pfift TOTAL PI Ii. PATH 7 FROM HYDRAULIC REFERENCE A9 TO P2 CONTINUED 1.530 14.70 31 .1 31 . 1 107 0=120 0.00 0.0 0.0 5.45 0. 002 14.70 0.0 31 . 1 Vel = 0. 96 ---- - - : 1.530 14 .70 31.1 31 . 1 106 C=120 0.00 0.0 0.0 5. 45 0.002 14 .70 0.0 31.1 Vel = 0.96 1 .530 14. 70 31.1 31.1 105 0=120 0. 00 0.0 0.0 5. 45 0. 002 14.70 0.0 31 . 1 Vel = 0. 96 1.530 1E 26. 43 31.2 31 .2 104 0-120 1T 14 .88 3.1 0. 0 5.45 0. 002 41.30 0. 1 31 .2 Vel = 0. 96 --- -- - P2 5. 45 34 . 4 K -- 0. 93 PATH 8 FROM HYDRAULIC REFERENCE A10 TO P3 4 .56 1.530 1E 304 .33 33. 9 33. 9 Al0 C=120 3T 34 .71 0.0 0.0 See PATH 1 4 . 56 0.001 339.04 0. 5 33.9 Vel = 0.80 P3 4 .56 34.4 K = 0.78 PATH 9 FROM HYDRAULIC REFERENCE All TO P4 ,. ........_ . .. . _ 3.49 1.530 lE 304 .96 34 .1 34 . 1 All C=120 3T 34 .71 0. 0 0.0 See PATH 1 3. 49 0.001 339. 67 0.3 34. 1 Vel = 0.61 P4 3 .49 34. 4 K = 0.59 -• - - ..... r_ . _ PATH 10 FROM HYDRAULIC REFERENCE Al2 TO P5 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 4 . Orono High School IDIwing 2ate:02/23/18 4/30/18 11:22 Tyco Fire Products Page 14 HYD. Qa DIA. FITTING PIPE Pt Pt REF If c!f TYPES FTNG'S Pe pv *4**,k** NoTEs ******* POINT Ot P1./ft TOTAL Pt Pr PATH 10 FROM HYDRAULIC REFERENCE Al2 TO P5 CONTINUED 2. 12 1. 530 18 305.58 34 .3 34 .3 Al2 C=120 3T 34 .71 0.0 0. 0 See PATH 1 2.12 0.000 340.29 0.1 34 .3 Vel = 0. 37 85 2. 12 34.4 K ,,,. 0. 36 PATH 11 FROM HYDRAULIC REFERENCE P6 TO A13 1. 38 1.530 1E 304. 96 34 . 5 34 . 5 P6 C=120 3T 34 ,71 0.0 0.0 See PATH 6 1. 38 0.000 339. 67 0. 1 34.5 Vel = 0.24 A13 1. 38 34 .5 K - 0.24 . .-..... ___ . PATH 12 FROM HYDRAULIC REFERENCE P7 TO A14 3. 04 1.530 18 304 .33 34 . 5 34. 5 87 0=120 3T 34.71 0.0 0.0 See PATH 6 3.04 0.001 339.04 0.2 34 . 5 Vel = 0.54 A14 3.04 34 .7 K = 0.52 PATH 13 FROM HYDRAULIC REFERENCE P8 TO A15 4. 15 1. 530 28 316.08 34.5 34 .5 P8 C=120 2T 29.75 0.0 0.0 See PATH 6 4 .15 0.001 345. 83 0.4 34 .5 Vel = 0.73 A15 4 . 15 34 .9 K - 0.70 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) • p Orono High School Drawing Dare:02/23/18 4/30/16 11 :23 HYDRAULIC DESIGN INFORMATION SHEET law•-•-4 Job Name: Orono High School Location: 795 North OLD CRYSTAL BAY RD JUN Long Lake Drawing Date: 02/23/18 Remote Area Number: 1 Contractor: Breth-Zenzen Fire Protection Telebhone: 320-363-0900CITY 8053 Sterling Drive OF ORONO Suite, 101 St. Joseph, MN 56374 Desianer: Paul Secord Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: II B Occupancy:E Reviewing Authorities:City of Orono _ . SYSTEM DESIGN Code:NFPA 13 Hazard:Light System Type:WET Area of Sprinkler Oper. 1660 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.100 1 Make: Tyco Area per Sprinkler 209. 3 sq ftl Model: TY-FRB Hose Allowance Inside 0 gpm I K-Factor: 5. 60 Hose Allowance Outside 100 gpm 1 Temperature Rating: 200 CALCULATION SUMMARY 8 Flowing Outlets gpm Required: 274.8 psi Required: 40.8 @ City Supply WATER SUPPLY Water Flow Test Pump Data Date of Test 11-28-18 I Rated Capacity 0 gpm I Static Pressure 58 . 0 psi I Rated Pressure 0.0 psi 1 Residual Pres 52.0 psi I Elevation 0 1 At a Flow of 1190 gpm I Make: Elevation 1' 6" Model: Location: Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55356 q • Orono High School Drawing Date:02/23/18 4/30/18 .1 1 :23 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at. Hyd Area 1 175 43.5 psi 1 4" Grvd. Butterfly Valve Tyco BFV- 5120 4 . 026 175 0 .0 4" Thrd Back Flow Valve WATTS 774 CHART LOSS 175 2 .1 Elevation Change -11 ' 10" -5. 1 Fixed Flow Inside Hose Stream 0 gpm Hydr Ref Ri Required at Base of Riser 175 40.6 psi 1 Pipe 6" DIx18 America DI 350 300' 140 6.338 175 0.3 Fixed Flow Outside Hose Allow. 100 gpm Hydr Ref R2 Required at City Supply 275 40.8 psi Water Source 58 .7 psi static, 52.7 psi residual 8 1190 gpm 275 gpm 58.3 psi SAFETY PRESSURE 17.4 psi NOTE: Water Source has been adjusted to include a change of elevation of 1 ' 6" flow test to point of connection Available Pressure of 58.3 psi Exceeds Required Pressure of 40.8 psi This is a safety margin of 17.4 psi or 30 % of Supply Maximum Water Velocity is 10.3 fps ` . Job Water Required Hose Allowance Orono High School Static Pres: 58.0 psi Pressure: 40.8 psi In: 0 gpm 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi Sys Flow: 175 gpm Out: 100 gpm ' Long Lake Flow: 1190 gpm Sys+Hose: 275 gpm Remote Area: 1 Date: 11-28-18 Safety Pres: 17.4 psi Loc: Hydrant in front of build Hd Ely Pies: 9.6 psi 7D - f--; , • • P | I ' ! Grope Bigh School Drak?ing Date:02/23/18 4/30/18 JI :23 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling 90' Standard Elbow F 45' Elbow S Straight Flow Thru Tee T 90' Flow Thru Tee V Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -WP Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe - ,FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4. 52 x (Q/C) ^1.85 / ID^4 .87 Pv Velocity pressure (psi) where Pv = 0.001123 x Q^2/ID^4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0.01 psi. Pressures are listed to 0. 1 psi. Addition may vary by 0. 1 psi due to accumulation of round off. - Calculations conform to NFPA 13. - Velocity Pressures are not considered in these Calculations . . ' . Orono High School Drawing naLe:02/23/18 4/30/18 1I :23 Page 4 _ ~- ~_ _~_~_~ _ - ~ _~~~-~ -_^ NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSI^3.1) ) (PSI) (GPM) (GPM) (GBM/SQ.FT) _~__ _____ ~ _____ _ _____ __- lUO 15.75 5' 60 17.0 23. 1 20'9 0.11 101 15.75 5. 60 16'I 22.5 20' 9 0'I1 102 15.75 5. 60 15.9 22.4 20.9 0.11 103 15.75 5. 60 16.0 22.4 20.9 0. 11 104 22.25 5. 60 14. 8 21.6 20.9 0. 10 105 22.25 5, 60 14 '1 21.0 20.9 0' 10 106 22.25 5. 60 14.0 20.9 20.9 0.10 107 22 .25 5.60 I4,0 21. 0 20.9 0' I0 203 22.22 25.6 204 22.22 25.6 205 22.22 25. 6 209 2I. 92 25.7 210 3I. 92 25.7 2I1 21. 92 25.7 212 21. 67 25.8 213 21.67 25.8 50I -I .71 38.0 507 -1'7I 38.0 508 -1.71 38.0 620 -I.92 36.1 621 I9'33 26.8 622 19.33 26.8 623 30,83 21.8 624 30'83 21.8 625 30.83 21.8 626 30.83 21.8 627 30.83 21.8 628 30.83 21.8 629 30'83 21.8 630 19.33 26.8 631 15.75 29.4 632 -1'71 38.0 633 -1.71 38.0 634 -1 .71 38'0 635 -1.71 38.0 636 -1 .7I 38.0 637 -1.71 38 .0 638 -I ,71 38 .0 641 10'67 33'7 642 I0. 67 33.7 643 I0.67 33.7 644 I0'67 33.7 645 10'67 33.7 646 10. 67 33. 7 Al -1. 92 36. 1 A2 -I.92 36.1 A3 -1 .92 36.1 A4 I9. 33 26.8 A5 19.33 26.8 A6 I9.33 26. 8 A7 19'33 26.8 ' . . , 0r000 High School Drawing Date:02/23/I8 4/30/I8 I1 :23 Page 5 _________ _ '_- _ ^ ~ _ NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GBM/ (PSI^;1) ) (PSI) (GPM.) (GPM) (GPM/SO'FT) _- .- . AU 15.00 28 .7 A9 15. 00 28 .7 AlO 15.00 28 .7 All I5'00 28 .8 Al2 15.00 28.8 J\l3 15. 00 28.8 A14 15' 00 28. 9 Al5 15,00 29.0 A16 I5. 00 29.8 Al7 -4. 00 39.0 Al8 -11.83 43. 5 J\I9 -I1,83 43. 5 BI -1,92 36. 1 Cl 30.83 21.8 C2 30.83 21.8 Dl 19.33 26.8 El 15,00 29.8 Fl -1.71 38,0 GI 9. 67 34.1 G2 9. 67 34. 1 G3 9. 67 34 .1 G4 9. 67 34. 1 G5 -2. 67 39.5 G6 -2.67 39.5 fiI -2. 67 39.5 B2 -2. 67 39.5 h3 -2. 67 39.5 Il 30.83 21 .8 12 30.83 21.8 JI -1.92 36. 1 J2 -1. 92 36. 1 KI -1.92 36.1 01 22 .22 25.6 02 21. 92 25.7 03 21. 67 25.8 P1 15.00 23.3 P2 15.00 23.4 P3 15.00 23.9 P4 I5,00 24.2 P5 I5'00 24. 5 P6 I5.00 24. 6 P7 15'00 24.7 P8 15.00 24 ,8 P9 15.00 24.8 01 9.67 34 .1 Q2 9.67 34 .1 Q3 9.67 34'1 51 -3.00 39.6 _ 52 -3.00 39. 6 S3 -3.00 39. 6 W -11.83 43.5 OOT 01, Id '..uoag •,,)(1.7,:r.j. Gq1 UT sAno..po ',,.,A--, -01, .7.0 A4Too7,...)A x11,1, i,Jr,'„3 'OS/Nd E)) („Ed0) (HdD) (1 Sd) ( ('',.1:,ISd) / dE)) ( .. ‘:F,I Sts.q3(1 MO'73 tilOrIS 1OI3V,-.1->i UJON q vn,:r..::Y77 NnETNIIH IVil I 0k1 :inin S STdd '8:4TAN.I)'zId S NO LIATATIr.g 20 ON 9 ,,,ibed LTJ: TT RT/C4,-/fr BT/r...-Z/70: 3P,I7 5uTmPIG Tooc,Tog T.1-1)Til ou0.74-0 , Cr<n. High School Drawing g flut .:, 02i 2_ 1> 4/30/18 U . " 1 Tyco Fire Products Page 7 to DIA. FITTING PIPE Pt. Pt RAF "C" TYPES FTNG'S PA pu : k ) NCTES ,..** .. ., POINT Pt/ft TOTAL f }_ P' PATH 1 FROM HYDRAULIC REFERENCE 102 TO W (PRIMARY PATH) 13. 02 1 . 530 14 .70 15.9 15.9 K = 3.2 . 102 0-120 0.00 0. 0 0.0 13.02 0.009 1.4 .70 0.1 15.9 Vel - 2 .29 22 . 46 1 . 530 14 .70 16. 1 16.1 K = 5. 60 201 0=120 0.00 0.0 0.0 35. 48 0.060 14 .70 0.9 16. 1 Vel = 6.25 23.06 1 .530 2T 19. 93 17.0 17.0 K - 5.60 100 0=120 19.83 0.3 0. 0 58.54 0.151 39.76 6.0 17.0 Vel = 10.32 2 .707 14.22 23.3 23.3 P1 C=120 0.00 0.0 0.0 58 .54 0.009 14.22 0. 1 23.3 Vel .w 3.30 54.35 2.707 14,22 23.4 23.4 P2 C=120 0.00 0.0 0.0 See PATH 3 112.89 0.032 14.22 0.4 23.4 Vel - 6.35 -16. 39 2 .707 14 ,22 23.9 23. 9 P3 C-120 0.00 0.0 0.0 See PATH 5 96. 50 0. 024 14.22 0 .3 23. 9 Vel = 5.43 -15.79 2.707 14 .22 24 ,2 24 .2 P4 C=120 0.00 0.0 0.0 See PATH 6 80. 71 0.017 14 .22 0,2 24 .2 Vel = 4 .54 -15, 38 2.707 14 .22 24 . 5 24 .5 P5 C=120 0.00 0.0 0.0 See PATH 7 65.33 0,011 14 .22 0.2 24 .5 Vel = 3. 68 -15. 17 2.707 14.22 24 . 6 24 .6 P6 C=120 0. 00 0.0 0.0 See PATH 8 50 . 16 0. 007 14 .22 0.1 24 . 6 Vel = 2.82 -15.09 2.707 14.22 .24 .7 24 .7 P7 C=120 0.00 0.0 0.0 See PATH 9 35.07 0.004 14 .22 0.1 24.7 Vel = 1. 97 -14 . 97 2.707 1.4.22 24.8 24 . 8 P8 C-120 0.00 ' 0.0 0.0 See PATH 10 20.10 0.001 14 .22 0.0 24 . 8 Vel = 1 .13 UNITS DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . ' ^ Orono Thigh School. Drawing' Date: 02/23/I8 4/30/I8 I1 :23 Tyco Fire Products Page 8 ~~-.. _~ __~ . `_ . .~ _-~ - HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FT0G'S Pe Pv *°^°^°+ NOTES *°^~^°° POINT Qt P±/ft TOTAL Pl Po _~~ ,~~__... _~_..... _ ----- .. _ PATH 1 FROM HYDRAULIC REFERENCE 102 TO W (PRIMARY PATH) 1. 530 15 213'08 24 .8 24 .8 P9 C=120 2T 24 .79 -0' 3 0.0 20. 10 0'021 237.88 5.0 24.8 Vol = 3.54 2.I04 IT 0.75 29.4 29.4 631 C=120 I0.90 0.3 0. 0 20. 10 0.004 I1.65 0.1 29.4 Vel = 1. 87 4'3l6 0. 67 29.8 29.8 El C=120 0.00 0.0 0.0 20,10 0'000 0.67 0.0 29.8 Vel = 0.45 154'70 4.316 45 39.76 29'8 29.8 A16 C=120 IT 84.19 '8.2 0.0 See PATH 2 174 .80 0.007 123.95 0. 9 29.8 Vel = 3. 87 4.316 35 79. 40 39.0 39.0 Al7 C=120 IT 70'I6 3.4 0.0 174'80 0,007 149.56 1.1 39.0 Vel = 3.87 4.260 2.00 43.5 43.5 AID C=I20 0'00 0.0 0.0 174 .80 0.008 2.00 0.0 43.5 Vol = 3.97 4 .260 4.24 43.5 43.5 A19 C=120 0.00 0.0 0.0 174'80 0.088 4.24 0.0 43. 5 Vel = 3.97 W 174 '80 43.5 K = 26.50 PATH 2 FROM HYDRAULIC REFERENCE 102 TO A16 9.34 1.530 I4.70 15. 9 15.9 K = 2.34 102 C=120 0.00 0.0 0. 0 9.34 0.005 14 .70 0. 1 15. 9 Vel - 1 .65 22 .41 1. 530 15 239.04 16.0 I6. 0 K = 5'60 I03 C=I28 lT I4'88 0.3 0.0 31 '75 0'049 253.92 12' 4 I6'0 Vel = 5. 60 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) , . ` ^ Cr000 High School Drawing DaLe:02/23/I8 4/30/28 1I :23 Tyco Fire Products Page 9 ------- - __ --_-~~ ~~~~_�` _.: : - _________ - ___ __ _____--- HYD. C'a DIB. FITTING PIPE Pt Pt REF It,e,' TYPES FT0S`S Pe g, ***+*+° NOTEs *+*°^*~ POINT nc Pf/ft TOTAL Pf Pu . - . ~~~ - -_ - _~__, ___~~_ _~___~~. ~.. - --- PATH 2 FROM HYDRAULIC REFERENCE 102 TO A16 CONTINUED 4.'316 14.22 28.7 28 .7 A8 C=120 0.00 0'0 0.0 31.75 0.000 14'22 0.0 28'7 Vel = 0.70 _ 30. 16 4 .316 14 .22 28.7 28 .7 A9 C=I20 0.00 0. 0 0.0 See PATH 4 61. 91 0.00I 14.22 0.0 28 .7 Vel - 1.37 16. 39 4'316 14 .22 28 .7 28.7 AI0 C=I20 0.00 0,0 0.0 See PATH 5 78. 30 0.002 14 .22 0.0 28 .7 Vel - 1.73 15.79 4 .316 14'22 28 . 8 28.8 All ' C=120 0.00 0.0 0. 0 See PATH 6 94'09 0.002 14 .22 0'0 28.8 Vel = 2.08 15.38 4 . 316 14.22 28.8 28.8 Al2 C=120 0.00 0.0 0.0 See PATH 7 109'47 0.003 14 .22 0.0 28 '8 Vel - 2.42 15'17 4.316 14.22 28 .8 28 .8 Al3 C=120 0.00 0.0 0.0 See PATH 8 124.64 0.004 14.22 0.1 28.8 Vel = 2.76 15' 09 4 . 316 14 .22 28.9 28. 9 Al4 C=120 0. 00 0.0 0.0 See PATH 9 139.73 0.005 14.22 0.1 28 .9 Vel = 3.09 14. 97 4.316 1E I04 , 14 29.0 29.0 AI5 C=120 1T 42. 10 0.0 0.0 See PATH 10 154'70 0.006 146.23 0.9 29.0 Vel = 3.43 Al6 154'70 29.8 K - 29 ,33 PATH 3 FROM HYDRAULIC REFERENCE 106 TO P2 1I'76 1.530 I4 ,70 I4'0 14 .0 K = 3.15 106 C=I28 0.00 0.0 0.0 11.76 0'008 14.70 0. 1 14'0 Vel = 2.07 �� � UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 4 Orono High School Drawing Date:02/23/1S 4/30/16 11 :23 Tyco Fire Products Page 10 --- HYD. Qa DIA. FITTING PIPE Pt Pt REF ur:,, TYPES FTNG'S Pe p,,,,r **** *** NOTES POINT Qt PP/ft TOTAL Pf En PATH 3 FROM HYDRAULIC REFERENCE 106 TO P2 CONTINUED 21. 02 1.530 14 .70 14.1 14 .1 K = 5. 60 105 C-120 0.00 0.0 0.0 32.77 0.052 14.70 0.8 14. 1 Vel = 5.77 21.57 1 .530 1E 26.43 14.8 14 .8 K = 5. 60 104 C=120 1T 14 .88 3.1 0.0 54.35 0.132 41.30 5.4 14 .8 Vel = 9. 58 P2 54 .35 23.4 K = 11.23 PATH 4 FROM HYDRAULIC REFERENCE 106 TO A9 9. 17 1.530 14.70 14 .0 14.0 K = 2.45 106 C=120 0.00 0.0 0.0 9. 17 0 .005 14 .70 0. 1 14.0 Vel - 1 .62 20.98 1.530 1E 245.54 14.0 14. 0 K - 5. 60 107 C=120 iT 14 .88 3.1 0.0 30.16 0.044 260.42 11.5 14.0 Vel - 5.31 A9 30.16 28.7 K = 5.63 PATH 5 FROM HYDRAULIC REFERENCE P3 TO A10 16.39 1.530 1E 304.33 23. 9 23.9 P3 C=120 3T 34.71 0.0 0.0 See PATH 1 16.39 0.014 339.04 4 .9 23.9 Vel = 2. 89 Al0 16.39 28.7 K - 3.06 . . ' -- • • PATH 6 FROM HYDRAULIC REFERENCE P4 TO All UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . . . . Cron() High S,chool Drawing Date:02/23/18 4/30/18 7.1 :23 Tyco Fire Products Page 11 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pu Pu '***k.-**.k NoTEs ,-****** POINT Ot Pf/ft TOTAL Of Dr, - -- - --- --- --- - ___ . PATH 6 FROM HYDRAULIC REFERENCE P4 TO All CONTINUED 15.79 1 .530 lE 304.96 24 .2 24 .2 P4 C=120 3T 34.71. 0. 0 0.0 See PATH 1 15.79 0.013 339.67 4. 5 24.2 Vel = 2.78 All 15.79 28 .8 K - 2. 95 _ _ . .... .... . PATH 7 FROM HYDRAULIC REFERENCE P5 TO Al2 15.38 1.530 1E 305.58 24 .5 24.5 55 C=120 3T 34.71 0.0 0.0 See PATH 1 15.38 0.013 340.29 4. 3 24.5 Vel - - 2 .71 Al2 15.38 28 .8 K - 2.87 PATH 8 FROM HYDRAULIC REFERENCE P6 TO A13 15. 17 1 . 530 1F 304 . 96 24. 6 24. 6 56 C=120 ST 34.71 0. 0 0.0 See PATH 1 15. 17 0.012 339. 67 4 .2 24 . 6 Vel = 2. 67 A13 15. 17 28 . 8 K -- 2.82 PATH 9 FROM HYDRAULIC REFERENCE P7 TO A14 15.09 1. 530 lE 304. 33 24.7 24.7 57 C=120 3T 34. 71 0. 0 0.0 See PATH 1 15.09 0. 012 339.04 4 .2 24 .7 Vel = 2.66 A14 15.09 28. 9 K = 2.81 PATH 10 FROM HYDRAULIC REFERENCE P6 TO A15 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) , Orono High SchoolDrawing lIte:02/2. /18 4/30/18 11 :23 Tyco Fire Products Page 12 EYE). -A, FITTING E Pt Pt i [.l e Y' *a1 k*'*** NOTES * ****Y REF "0" TYPES :'1TvG P V POINT Qt Pf/ft TOTAL Pf Pr PATH 10 FROM HYDRAULIC REFERENCE P8 TO A15 CONTINUED 14. 97 1.530 2E 316.08 24.8 24.8 P8 C=120 2T 29.75 0.0 0.0 See PATH 1 14 .97 0.012 345.83 4.2 24.8 Vel = 2. 64 A15 14 .97 29.0 K m 2.78 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Crono Sigh School Drawing Date:02/23/18 4/30/18 11 :21 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Orono High School Location: 795 North OLD CRYSTAL BAY RD Long Lake Drawing- Date: 02/23/18 Remote Area Numbey. : 3 Contractor: Breth-Zenzen Fire Protection Telephone: 320-363-0900 8053 Sterling Drive Suite, 101 St. Joseph, MN 56374 Designer: Paul Secord Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: II B Occupancv:E Reviewing Authorities:City of Orono SYSTEM DESIGN Code:NFPA 13 Hazard:Light System Type:WET Area of Sprinkler Oper. 1584 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.100 I Make: Tyco Area per Sprinkler 150.0 sq ft1 Model: TY-FRB Hose Allowance Inside 0 gpm K-Factor: 5.60 Hose Allowance Outside 100 gpm I Temperature Rating: 155 CALCULATION SUMMARY 13 Flowing Outlets gpm Required: 324.7 psi Required: 45.2 8 City Supply WATER SUPPLY Water Flow Test 1 Pump Data 1 Date of Test 11-28-18 I Rated Capacity 0 gpm Static Pressure 58.0 psi I Rated Pressure 0.0 psi Residual Pres 52.0 psi I Elevation 0 At a Flow of 1190 gpm I Make: Elevation 1' 6" I Model: 1 Location: Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55356 1 ()Lori() High School Drawing Date: 02/23/18 4/30/18 11 :21 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 3 225 47 . 6 psi 4" Grvd Butterfly Valve Tyco BFV- 5' 120 4 .026 225 0. 1 1 4" Thrd Back Flow Valve WATTS 774 CHART LOSS 225 2.3 Elevation Change -11 ' 10" -5. 1 Fixed Flow Inside Hose Stream 0 gpm _. . .. Hydr Ref R1 Required at Base of Riser 225 44 .8 psi 1 Pipe 6" DIx18 America DI 350 300' 140 6.338 225 0.4 Fixed Flow Outside Hose Allow. 100 gpm Hydr Ref R2 Required at City Supply 325 45.2 psi Water Source 58.7 psi static, 52. 7 psi residual @ 1190 gpm 325 gpm 58.1 psi SAFETY PRESSURE 12.9 psi NOTE: Water Source has been adjusted to include a change of elevation of 1 ' 6" flow test to. point of connection Available Pressure of 58. 1 psi Exceeds Required Pressure of 45.2 psi This is a safety margin of 12.9 psi or 22 % of Supply Maximum Water Velocity is 9. 6 fps Job Water Required Hose Allowance Orono High School Static Pres: 58.0 psi Pressure: 45.2 psi In: 0 gpm 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi Sys Flow: 225 gpm Out: 100 gpm Long Lake Flow: 1190 gpm Sys+Hose: 325 gpm Remote Area: 3 Date: 11-28-18 Safety Pres: 12.9 psi Loc: Hydrant in front of build Hd Ely Pres: 10.4 psi 70 ' I 60� � _ Supply r 50' _ 100 gpm hose ( I 40 x _ .. P i S 3_..._....., i t �.... ._....._. ,.. ..�_. .__........._............. ......................_._ __......_............... .............. ... ...A.= ..._.._.._. .._......._..�_ ... _,. .. , � : 6 • F � ( 20 ; t 1 1 • , 10 10.4 psi.... i • • 1 100 150 200 250 300 350 400 450 500 Flow (gpm) Crone High School Drawing Date:02/23/18 4/30/1S 71 :21 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling 90' Standard Elbow 45' Elbow S Straight Flow Thru Tee T 90' blow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -WP Qa Flow added or subtracted. Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Be Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4.52 x (Q/C) ^1 .85 / IDA4.87 Pv Velocity pressure (psi) where Pv = 0. 001123 x Q^2/ID^4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0.01 psi. Pressures are listed to 0. 1 psi. Addition may vary by 0. 1 psi due to accumulation of round off. - Calculations conform to NFPA 13. - Velocity Pressures are not considered in these Calculations . ' ^ Orono High School Drawing Date:02/23/I8 4/30/18 II :21 Pge 4 __~ - ~ _~_~ -`` __~. -_ NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (6PM/ (PSI^�f) ) (Psi) (GPM) (GPM) (GP0/3Q'FT) 100 15'75 30.4 101 15.75 30.4 IO2 15.75 30-3 103 15.75 30.3 104 22.25 27.6 I05 22.25 27.6 106 22.25 27.6 107 22.25 27 .5 203 22.22 26- 1 204 22.22 26. 1 205 22.22 26. 1 209 21. 92 26.3 210 21.92 26.3 211 21. 92 26.3 212 21.67 26.4 213 21 . 67 26.4 300 21.00 10.2 300S 26.79 5. 60 7.2 I5.0 I5'0 0.I0 30I 30,83 6.8 30IS 26.79 5.60 8.1 16.0 15.0 8.1I 302 30,83 8.2 302S 26.79 5' 60 9.4 I7' 1 15.0 0.11 303 30.83 8. 6 303S 26.79 5. 60 9.8 17.5 15.0 0.12 304 21'00 9. 9 304S 19.96 5.60 10.I 17.8 15.0 0 .I2 305 30'83 9.2 306S 26.79 5. 60 I0'3 18'0 15,0 0. 12 306 21.00 9.9 306S I9,79 5. 60 10.1 17.8 15'0 0. 12 307 30.83 6.7 307S 24.13 5. 60 8. 9 16.7 15. 0 0.11 308 30.83 7. 9 308G 24.13 5.60 10.0 17.7 15.0 0' I2 309 30.83 8.2 309S 24. 13 5. 60 I0. 3 18 .0 I5'0 0. 12 3I0 21.00 9.9 310S 24 ,13 5.60 8 .2 16.0 15.0 0. 11 311 30.83 8. 6 3113 24.13 5.60 10'7 18 .3 15.0 0. 12 312 30.83 9.2 312S 24.13 5.60 11.2 18 .7 15'0 0 . 12 501 -I.71 41.4 507 -I'71 41 .4 508 -1 .7I 41.4 620 -1.92 36.3 621 19.33 27.5 622 19.33 27 .5 623 30.83 9. 9 624 30.83 9.3 625 30. 83 8 .8 g . r -> r Page E: NODE ELEVA1ION SPRINKLER DPFESURT ACTUAL MINIMUM ACTUAL NUMBED K-FAC"'GR ELOW LOW DENSITY ) (GEM! S1." ) ) ( PSI) ;EM) (GEM) (GPM/EF c:,-,i 626 30. 83 8.5 627 30.83 9.8 628 30.83 9.2 629 30.83 8.7 630 1.9.33 27. 1 631 15.75 32.4 632 -1.71 41.4 633 -1.71 41.4 634 -1.71 41.4 635 -1.71 41.4 636 -1.71 41.4 637 -1.71 41.4 638 -1.71 41.4 641 10. 67 37.8 642 10. 67 37.8 643 10. 67 37.8 644 10. 67 37.8 645 10. 67 37.8 646 1.0. 67 37.8 647 30.83 7.3 648 21, 00 10.5 649 21.00 10.5 650 30.83 7.3 651 21.00 10.7 652 21.00 10.6 Al -1 .92 36.3 A2 -1.92 36.3 A3 -1.92 36.3 A4 19.33 27 .1 A5 19.33 27.1 A6 19.33 27.5 A7 19.33 27.5 A8 15.00 30.1 A9 15.00 30.3 Al0 15.00 30.5 All 15.00 30.6 A1.2 15.00 30.7 Al3 15.00 30. 9 Al4 15.00 31 .0 A15 1.5.00 31 .2 Al6 15.00 32.7 All -4 .00 42.4 Al8 -11.83 47 .5 A19 -11.83 47.6 El -1.92 36.3 Cl 30.83 21 .5 C2 30.83 21.5 Dl 19.33 27.1 El 15.00 32.7 Fl -1 .71 41.4 G1 9. 67 38.2 ^ ' ' ' Orono High School Drawing Date:02/23/18 4/30/18 11 :2I Page 6 ~~_~-~~ ~ -- .~, �� ' -� , � ,,- `- -- - -~-_ _~___~ - _~~__~ NODE ELEVATION SPPINKI,E9 PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K„-FACTOR FLOW FLOW DENSITY (FI) (GPM/ (PST ) ) (PSI) (GPM) (GPM) (GEM/SQ.FT) -`���� __ ____-__ G2 9. 67 38 .2 G3 9. 67 38.2 G4 9. 67 38'2 G5 -2 . 67 43.6 G6 -2. 67 43.6 Hi -2.67 43.6 H2 -2.67 43,6 H3 -2. 67 43. 6 Il 30.83 8.3 12 30. 83 8. 3 JI -1.92 36.3 J2 -1. 92 36.3 Ki -1. 92 36.3 01 22.22 26.2 02 21.92 26.3 03 21. 67 26'4 PI I5.00 30. 8 P2 15.00 30.8 P3 15.00 30.8 P4 15.00 30.8 P5 15.00 30.8 P6 I5. 00 30.8 P7 15. 00 30.9 P8 I5-00 30.9 P9 15.00 30.9 01 9. 67 38.2 02 9.67 38.2 Q3 9. 67 38 .2 Si -3.00 43.7 S2 -3.00 43.7 S] -3.00 43.7 W -11.83 47. 6 Max velocity of 9. 60 occurs in the pipe from 623 TO Cl Nodes with "S" indicate a node at the top of a sprig or bottom of drop pendent. The node without an "S" is on the branch. . . ` ^ Orono high School Drawing bate:02/33yI8 4/30/18 11 :21 Tyco Fire PzoUucts Page 7 -�~ ` ~ _ -_ - ~_ ~ .__ - __~__~_ ._~-~~-~_ _~______ HYD. Qa DIA. FITTING PIPE Pt Pt RE:: "C,' TYPES F7NG'3 Pe Pr *+**^°* NOTEs *~*+~** POINT Qt Pf/ft TOTAL 2f 2o �_ .. PATH I FROM HYDRAULIC REFERENCE 306 TO W (PRIMARY PATH) 17.62 1.083 1E I.21 10. 1 10. 1 K = 5' 60 306S C-I20 2. 34 -0.5 0.0 17. 82 0.090 3. 54 0.3 10.1 Vel = 6.27 1'083 lT 1 '00 9.9 9.9 EqK - 5. 66 306 C=I20 5-84 0.0 0.0 17.82 0.090 6.84 0.6 9. 9 Vel = 6.27 I6. 02 I'740 2E 22.16 10.5 10'5 648 C=I20 11'68 -4 .3 0.0 See PATH 3 33.85 0.029 33.84 1.0 10.5 Vel = 4 . 61 16.71 1.740 IT 4. 96 7.3 7.3 647 C=120' 11. 68 0.0 0.0 See PATH 5 50.56 0.062 16. 63 1.0 7.3 Vel - 6.89 . -9. 07 2'215 lT 3.79 8.3 8.3 II C=I20 14 .00 0. 0 0.0 See PATH 14 41 . 49 0'0I3 I7'80 0.2 8.3 Vel = 3.49 17.73 2.215 12.29 8.5 8 .5 626 C=120 0.00 0.0 0. 0 See PATH 7 59.22 0.025 12.29 0.3 8 . 5 Vel = 4 . 98 _____ I7. 97 2.215 10,00 8'8 8.8 625 C=120 0.00 0.0 0. 0 See PATH 9 77 .19 0.042 I0.03 0. 4 8.8 Vel = 6.49 16.29 2.215 I0. 00 9.3 9.3 624 C=I20 0.00 0.0 0.0 See PATH 10 95.47 0.062 I0.00 0.6 9.3 Vel = 8.03 18 .75 2.215 lT 12I.58 9.9 9. 9 623 C~I20 I4. 00 0.0 0.0 See PATH 13 I14 .22 0.086 I35. 59 I1'6 9.9 Vel = 9- 60 4. 316 I1'33 21.5 21.5 Cl C=I20 0.00 0.0 0. 0 I14'22 0.003 1I. 33 0.0 21 . 5 Vel - 2.53 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) School Drawing 72,"23/ 4/30/10 .. Tyco Fire Products Page 8 HYD. Qa, _,.,.A. FITTING PIPE It Pt EF "C" TYPES .-NG Pe I:'ti ***.i,5, NoTEs 4,*-***,* POINT Qt f . _t TOTAL TO 1,,n PATH S FROM HYDRAULIC REFERENCE 306 TO W (PRIMARY PATH) 110. 50 4.316 2E 19. 63 21. 5 21 .5 C2 C=120 28. 06 5.0 0.0 See PATH 2 224.72 0.012 47.69 0. 6 21 .5 Vel = 4 . 96 -8.84 4. 316 1T 6.56 27 .1 27. 1 A5 C=120 28.06 0.0 0.0 See PATH 15 215. 88 0. 011 34 . 63 0.4 27.1 Vel = 4.78 3.20 4. 316 7 .98 27 .5 27.5 A6 C==120 0.00 0.0 0.0 See PATH 16 219.08 0. 011 7 . 98 0.1 27. 5 Vel = 4 . 85 5. 64 4 .316 3E 19.13 27 .5 27 .5 A7 C=120 42.10 1.9 0.0 See PATH' 15 224 .72 0.012 61 .22 0.7 27,5 Vel = 4 .98 -5. 56 4.31.6 14 .22 30.1 30.1 A8 C=120 0.00 0.0 0.0 See PATH 17 219. 16 0.011 14.22 0.2 30. 1 Vel = 4.85 -4 .73 4 .316 14 .22 30.3 30.3 AS C=120 0.00 0.0 0.0 See PATH 1.8 214 .43 0.011 14.22 0.2 30. 3 Vel = 4.75 -3. 96 4.316 14.22 30.5 30.5 Al0 C=120 0.00 0.0 0.0 See PATH 19 210.47 0.010 14.22 0. 1 30.5 Vel = 4 .66 -3.03 4 .316 14 .22 30.6 30. 6 All C=120 0.00 0.0 0.0 See PATH 20 207 .44 0.010 14.22 0 . 1 30. 6 Vel = 4.59 -1.84 4. 316 14.22 30 .7 30.7 Al2 C=120 0.00 0. 0 0.0 See PATH 21 205.60 0.010 14.22 0. 1 30. 7 Vel. = 4 .55 1.20 4.316 14 .22 30. 9 30.9 A13 C=120 0.00 0.0 0.0 See PATH 22 206.81 0.010 14 .22 0 .1 30.9 Vel = 4.58 2. 64 4 .316 14 .22 31 ,0 31 .0 A14 C=120 0.00 0 .0 0.0 See PATH 23 209. 45 0.010 14 .22 0..1 31.0 Vel = 4 . 64 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Orono High School Drawing Date: ✓/ 3/18 4/30/18 1> 1_ .2,:. T':co Fire Products Ja, e 9 PIPE{; : REF DIA. FITTING 31 y:'''1I i:%:� P`:. Pr !1C if TYPES NG{S Pc v Xa .'***i' NryrpS *-i***** POINT ;>i. Pfift FOTA:_ I. f Tn PATH 1 FROM HYDRAULIC REFERENCE 306 TO W (PRIMARY PATH) 3. 60 4. 316 IF 104.14 31 .2 31.2 A15 C=120 iT 42.10 0,0 0.0 See PATH 24 213.05 0.011 146.23 1.5 31 .2 Vel = 4 .72 11 . 67 4.316 4E 39.76 32.7 32 .7 A16 C=120 1T 84 .19 8.2 0.0 See PATH 17 224.72 0.012 123. 95 1.4 32.7 Vel = 4.98 4 .316 3E 79. 40 42.4 42.4 A17 0=120 1T 70.16 3.4 0.0 224.72 0.012 149.56 1 .7 42.4 Vel -= 4.98 4 .260 2.00 47 .5 47. 5 A18 C=120 0.00 0.0 0.0 224.72 0.012 2.00 0.0 47.5 Vel = 5.11 4 .260 4.24 47 . 6 47. 6 A19 C=120 0.00 0.0 0.0 224 .72 0. 012 4.24 0.1 47. 6 Vel = 5.11 W 224 . 72 47. 6 K = :32.56 PATH 2 FROM HYDRAULIC REFERENCE 304 TO C2 17.79 1.083 1E 1.04 10. 1 10. 1 K -- 5. 60 304S C=120 2.34 -0.5 0.0 17 .79 0.090 3.38 0.3 10.1 Vel _- 6.26 1 .083 1T 1.00 9. 9 9.9 EqK = 5.64 304 0=120 5.84 0. 0 0.0 17.79 0.090 6.84 0. 6 9. 9 Vel = 6.26 1.740 12 .26 10.6 10. 6 652 0=120 0.00 0.0 0. 0 17.79 0. 009 12.26 0.1 10. 6 Vel = 2.42 1.5. 00 1 .740 2E 22. 16 10.7 10.7 651 C-120 11. 68 -4 . 3 0.0 See PATH 4 32.79 0.028 33.84 0.9 10.7 Vel = 4.47 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) ^ . ' ' Orono High School Drawing Date:02/23/I8 4/30/18 11 :2I Tyco Fire Products page 10 -~_ ~~_^_ ~. ------ -- _~~ HYD, (,,1s DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'3 Pe pv +^^^°** NOTT,,S *+°,,*°+ POINT Qt Pf/fc TOTAL Pt Po ~�_~___ _____ _ ~~_�~ _' ' ~-~___ ... . PATH 2 FROM HYDRAULIC REFERENCE 304 TO C2 CONTINUED _ � � _ _____ 15. 96 1 .740 iT 4 .96 7 .3 7 .3 650 C=120 I1 '68 0.0 0. 0 See PATH 6 48 .75 0.058 16. 63 1 .0 7 .3 Vel = 6. 64 _ 9.07 2.215 IT 3.79 8 .3 8. 3 12 C=120 14 .00 0.0 0.0 See PATH 14 57.82 0.024 17 .80 0.4 8.3 Vel - 4 .86 __ l7. I4 2.215 12-29 8.7 8 .7 629 C=I20 0'00 0.0 0.0 See PATH 8 74.96 0.039 I2'29 0'5 8 .7 Vel = 6.30 __- 17.54 2.215 I0.00 9.2 9.2 628 C=120 8'00 0.0 0.0 See PATH 11 92. 50 0.058 10'00 0.6 9.2 Vel = 7'76 18.00 2.215 IT I31,58 9.8 9.8 627 C=120 I4'00 0.0 0.0 See PATH 12 II0. 50 0.081 145'59 11.7 9.8 Vel = 9.29 C2 IlO'SU 21.5 K - 23.81 PATH 3 FROM HYDRAULIC REFERENCE 3I0 TO 648 16.02 1.083 1E 3.13 8.2 8.2 K = 5.60 310S C=I20 2 .34 1' 4 0.0 16.02 0'074 5.46 0. 4 8 .2 Vel - 5'63 I,083 IT 1.00 9. 9 9.9 EqK - 5.08 310 C=I20 5.84 0.0 0.0 16.02 0.074 6.84 0.5 9.9 Vel - 5. 63 1.740 12.26 10.5 10.5 649 C-I20 0'00 0.0 0.0 16.02 0.007 12 .26 0.1 I0'5 Vel ~ 2. 18 648 I6.02 10. 5 K = 4. 93 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . , Orono High School Drawing Date:02/23/18 4/30/18 11 :21 Tyco Fire Products Page 11 HYD. iDa DIA. FITTING PIPE Pt Pt REF ..c., TYPES ETNG'S Pe Fe- ******* NOTES ******* POINT Qt P1/ft TOTAL P1 Pe PATH 4 FROM HYDRAULIC REFERENCE 300 TO 651 15.00 1.083 1E 5.79 7.2 7.2 K = 5. 60 300S C=120 2.34 2.5 0.0 15.00 0.065 8.13 0.5 7.2 Vel = 5.28 1.083 1T 1.00 10.2 10.2 EqK = 4 . 69 300 C=120 5.84 0.0 0.0 15.00 0.065 6.84 0.4 10.2 Vel = 5.28 651 15.00 10.7 K - 4 .59 PATH 5 FROM HYDRAULIC REFERENCE 307 TO 647 16.71 1.083 1E 6.71 8.9 8.9 K = 5. 60 307S C=120 2. 34 -2. 9 0.0 16.71 0.080 9.04 0.7 8.9 Niel - 5. 88 1 .083 1T 1.00 6.7 6. 7 EqK = 6.45 307 0=120 5. 84 0.0 0. 0 16.71 0.080 6.84 0.5 6.7 Vel = 5.88 647 1. 6. 71 7. 3 K ---, 6.20 PATH 6 FROM HYDRAULIC REFERENCE 301 TO 650 15. 96 1.083 1E 4 .04 8 . 1 8 .1 K = 5. 60 301S 0=120 2.34 -1.8 0.0 15. 96 0.073 6.38 0.5 8. 1 Vel - 5. 61 _ ..... 1.083 1T 1. 00 6.8 6.8 EqK = 6.10 301 0=120 5.84 0.0 0. 0 15.96 0.073 6.84 0.5 6.8 Vel = 5. 61 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Crone Iligh School Drawing Dngte.02/23/18 4/30/1& 11 :21 Tycc, Fire Procits Page 12 ---- - - - ----- HYD. Se DIA. FITTING PIPE Pt Pt REF "5" TYPES FTNG' S Pe p, ***** * POTNT f)t,. Pt/ft TOTAL Pt 1:gi ----------------- ---- • - __ _ __.._,„„„-._...____ - -_-___ _ 650 15, 96 7. 3 K -- 5.89 PATH 7 FROM HYDRAULIC REFERENCE 308 TO 626 ---- _ 17.73 1.083 IE 6.71 10.0 10.0 K = 5. 60 308S C=120 2. 34 -2.9 0.0 17 .73 0.089 9.04 0.8 10.0 Vel -- 6.23 ..... . 1.083 17 1.00 7.9 7. 9 EqK = 6.30 308 120 5.84 0.0 0. 0 17 .73 0.089 6.84 0. 6 7 . 9 Vol - 6.23 626 17.73 8. 5 K = 6.07 PATH 8 FROM HYDRAULIC REFERENCE 302 TO 629 17. 14 1. 083 1E 4.04 9. 4 9. 4 K = 5.60 302S C=.120 2.34 -1. 8 0.0 17 , 14 0.084 6.38 0. 5 9.4 Vel 6.03 1 .083 1T 1.00 8.2 8 .2 EqK = 6.00 302 C=120 5. 84 0, 0 0. 0 17 .14 0.084 6.84 0.6 8.2 Vol - 6.03 629 17. 14 8.7 K - 5.80 PATH 9 FROM HYDRAULIC REFERENCE 309 TO 625 17.97 1.083 lE 6.71 10.3 10.3 K -- 5. 60 309S C-120 2. 34 -2.9 0.0 17. 97 0.091 9.04 0.8 10. 3 Vel = 6. 32 1.083 1T 1. 00 8 .2 8 .2 EqK = 6.27 309 C=120 5. 84 0.0 0.0 17. 97 0.091 6. 84 0.6 8 .2 Vol = 6. 32 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Orono Righ School Drawing PL :02/23/28 4/30/16 17 ,727 Tyco Fire Products Page 13 --- --- -• - -- ---- - - - - - - -- HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES 'ZING'S Pe Ey ******* NOTES ******,* POINT Qt if/ft TOTAL Pf Pn 625 17.97 8 . 8 K = 6.04 -., PATH 10 FROM HYDRAULIC REFERENCE 311 TO 624 18.29 1.083 15 6.71 10. 7 10.7 K = 5. 60 311S C-120 2.34 -2. 9 0.0 18 .29 0.094 9. 04 0. 8 10.7 Vel - 6.43 1.083 1T 1. 00 8. 6 8. 6 EqK = 6.23 311 0=120 5.84 0.0 0.0 18.29 0.094 6.84 0. 6 8. 6 Vel = 6.43 624 18.29 9.3 K = 6. 01 PATH 11 FROM HYDRAULIC REFERENCE 303 TO 628 --- -- ---- - 17. 54 1.083 1E 4 .04 9.8 9.8 K = 3. 60 303S 0=120 2.34 -1 .8 0.0 17. 54 0.087 6.38 0. 6 9.8 Vel = 6. 17 1 .083 11 1.00 8 . 6 8.6 EqK = 5. 98 303 0=120 5.84 0.0 0.0 17. 54 0.087 6.84 0. 6 8. 6 Vel - 6. 17 628 17. 54 9.2 K = 5.78 PATH 12 FROM HYDRAULIC REFERENCE 305 TO 627 ---- 18 .00 1 .083 1E 4. 04 10. 3 10.3 K - 5. 60 305S 0-120 2.34 -1. 8 0.0 18.00 0.092 6.38 0. 6 10.3 Vel - 6. 33 1.083 1T 1 .00 9.2 9.2 EqK = 5.95 305 0=120 5.84 0. 0 0.0 18. 00 0.092 6.84 0. 6 9.2 Vel = 6. 33 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) ^ . ' ' Orono High School Dzawiog Date:02/2I/18 4/30/18 1I:2I Tyco Fire Products Page 14 - ~~ ^ __ '~ ^.�' _ _.� -_-' _ _ � -` ~ _- - � _- _ __ _'� ` _ HYD. Oa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe pv , ^**�°° N0TEs **+*°°° POINT Ot Pf/ft TOTAL Pf Pr _-_ _~______ _____~ , __-_~_ . - 627 18. 00 9. 8 Z = 5. 75 . PATH 13 FROM HYDRAULIC REFERENCE 312 TO 623 __ __ __ I8.75 I'083 1E 6.71 11 .2 1I.2 K - 5. 60 312S 120 2.34 -2. 9 0. 0 18 .75 0. 099 9.04 0. 9 11 .2 Vel = 6.59 1 .083 lT 1 .00 9.2 9.2 EqK = 6.18 312 C=120 5.84 0.0 0.0 18.75 0. 099 6.84 0.7 9.2 Vol -- 6. 59 ---------- 623 18.75 9.9 K - 5.97 ' PATH 14 FROM HYDRAULIC REFERENCE z1 TO 12 9.07 2.707 11'33 8'3 8.3 II C=I20 0.00 0.0 0 .0 See PATH I 9.07 0.008 1I'33 0.0 8.3 Vel = 0.51 - 12 9.07 8.3 K. = 3.15 PATH 15 FROM HYDRAULIC REFERENCE A5 TO A7 __ _ 8'84 4 .316 IT 1.25 27 . 1 27 . 1 85 C=120 28 .06 0.0 0. 0 See PATH 1 8 .84 0'000 29.31 0.0 27 . 1 Vel = 0.20 4 '316 14.33 27 . 1 27.1 A4 C=I20 0.00 0.0 0.0 8.84 0,000 14 .33 0. 0 27 .1 Vel - 0.20 2 .215 IT 22. 34 27 .1 27 .1 Dl C=120 14 .00 0.0 0.0 8 . 84 0'00I 36.34 0. 0 27 .1 Vel = 0.74 � � UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . ' ` ^ Grono Bi4h School Dzai_oq Date:02/23/I8 4/30/18 I1 :21 Tyco Fire Products Page 15 __~ - _ -�-_ _ _~ ~ _ __ _- �~ ~ ~ HID. Qu DIA. FITTiNG PIPE Pt 1-'1'. REF "C" TYPES FI0G'3 Pe pv ^^^x~+° N[/ns ^^^^^^* POINT O1_ Pf/ft TOTAL Pt Po PATH 15 FROM HYDRAULIC REFERENCE A5 TO A7 CONTINUED _ _____ _____ 1'740 4E 67 .98 37. 1 27 . 1 630 C=I20 23. 35 -1 .2 0.0 8 . 84 0.002 91 .34 0.2 27 . 1 Vel ~ 1 '20 1'740 8 . 33 26.1 26. 1 205 C=I20 0.00 0.0 0.0 8 ' 84 0.002 8.33 0.0 26. 1 Vel = 1.20 1.740 8 . 33 26-I 26. 1 204 C=I20 0.00 0,0 0.0 8 .84 0.002 8. 33 0.0 26. 1 Vel = I '20 _ _ 1.740 IT 1 .04 26.1 26. 1 203 C-I20 1I' 68 • 0.0 0. 0 8.84 0'002 12.72 0,0 26. 1 Vel = 1.20 . 5'316 13.64 26.2 26.2 01 C=120 0.00 0.1 0.0 8 . 84 0.000 13. 64 0.0 26.2 Vel = 0,33 -3'20 3.316 I4 . 49 26.3 26. 3 02 C-120 0. 00 0. 1 0.0 See PATH 16 5. 64 0.000 14 . 49 0-0 26. 3 Vel = 0,21 1.740 lT. 10. 88 26.4 26.4 03 C=I20 1I. 68 0.0 0.0 5. 64 0.00I 22. 55 0.0 26.4 vel = 0.77 I'740 8.00 26. 4 26.4 212 C=I20 0. 00 0.0 0.0 5. 64 0'00I O'OO 0.0 26.4 Vel = 0.77 1 .740 4E 64. 18 26.4 26. 4 213 O=I20 23.35 1.0 0.0 5.64 0'00I 87 . 54 0.1 26.4 Vel = 0.77 2.215 IT 22.34 27.5 27 . 5 622 C=I20 14 .00 0.0 0.0 5. 64 0.000 36. 34 0.0 27 . 5 Vol = 0'47 A7 5. 64 27 .5 K = I.07 PATH 16 FROM HYDRAULIC REFERENCE 02 TO A6 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) .rani, High School 0i^awic c Date. 021/23/,.18 4/30/18 1.1. .21. Tyco Fire ProthIcts Page 16 HYD. Oa DIA. FITTING N PIPE1 Pt Pt REF „",, TYPES _.T G' S _e PST >****_* NOTES ****Xk POINT {t PT/ft TOTAL S f Sn PATH 16 FROM HYDRAULIC REFERENCE 02 TO A6 CONTINUED 3.20 1.740 1T 1 .04 26.3 26.3 02 C-120 11. 68 0.0 0.0 See PATH 15 3.20 0.000 12 .72 0.0 26.3 Vel = 0.44 1.740 8 .33 26.3 26.3 209 C=120 0.00 0.0 0.0 3.20 0.000 8 .33 0.0 26.3 Vel 0.44 1.740 8.33 26.3 26.3 210 0=120 0.00 0.0 0.0 3.20 0. 000 8.33 0.0 26.3 Vel = 0.44 1.740 4E 69. 40 26.3 26.3 211 0=1.20 23.35 1.1 0.0 3.20 0.000 92.75 0.0 26.3 Vel = 0.44 2.215 1T • 22.34 27.5 27 .5 621 0=120 14. 00 0.0 0.0 3.20 0.000 36. 34 0.0 27 . 5 Vel = 0.27 A6 3.20 27 .5 K -- 0. 61 PATH 17 FROM HYDRAULIC REFERENCE AB TO A16 5.56 1. 530 15 239.04 30.1 30. 1 A8 C=120 1T 14.88 -0.3 0.0 See PATH 1 5.56 0.002 253.92 0.5 30. 1 Vel = 0.98 1 .530 14 .70 30.3 30.3 103 C=120 0.00 0.0 0.0 5. 56 0.002 14.70 0.0 30. 3 Vel = 0.98 1.530 14.70 30.3 30.3 102 C=120 0.00 0.0 0.0 5. 56 0.002 14.70 0.0 30.3 Vel = 0.98 1.530 14 .70 30. 4 30.4 101 0=120 0.00 0.0 0.0 5.56 0.002 14 .70 0.0 30.4 Vel = 0. 98 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) �0 Orono.� _. ,;� .;C;,77C).' Drawing -..iii'. 0�:IG311 h /.� 18 11 :21 •1.1 Tyco Fire Products Page 17 :'YD. u� DIA. FITTING PIPE Pt Pt. R E F i3,,1} TYPES FTNn i SPe * x{x .IYNOTES .*y7 > 7j PO .N.. Gt Pt/ft TOTAL Pt Pr PATH 17 FROM HYDRAULIC REFERENCE A8 TO A16 CONTINUED 1.530 2T 19. 93 30.4 30. 4 100 C=120 19.83 0.3 0.0 5.56 0.002 39.76 0. 1 30.4 Vel = 0.98 2.707 14.22 30.8 30.8 P1 C=120 0.00 0.0 0.0 5. 56 0.000 14 .22 0.0 30.8 Vel = 0. 31 ........... ............. 4 .73 2.707 14 .22 30.8 30.8 P2 C=120 0.00 0 .0 0. 0 See PATH 18 10.29 0.000 14.22 0.0 30. 8 Vel = 0. 58 3. 96 2.707 14.22 30.8 30.8 ' P3 C=120 0.00 0.0 0.0 See PATH 19 14 .25 0.001 14.22 0. 0 30.8 Vel = 0.80 3. 03 2.707 14.22 30.8 30.8 P4 C=1.20 0.00 0.0 0.0 See PATH 20 17.28 0.001 14.22 0.0 30.8 Vel = 0. 97 1.84 2.707 14.22 30.8 30. 8 P5 C=120 0.00 0.0 0. 0 See PATH 21 19. 11 0.001 14.22 0.0 30. 8 Vel = 1 .08 -1 .20 2.707 14.22 30.8 30.8 P6 C=120 0.00 0.0 0.0 See PATH 22 17. 91 0.001 14.22 0.0 30.8 Vel = 1 . 01 -2. 64 2.707 14.22 30.9 30. 9 P7 C=120 0.00 0.0 0.0 See PATH 23 15.27 0.001 14 .22 0.0 30.9 Vel = 0.86 -3.60 2.707 14.22 30.9 30.9 P8 C=120 0.00 0.0 0.0 See PATH 24 11.67 0.000 14.22 0.0 30.9 Vel = 0. 66 1.530 1E 213.08 30.9 30.9 P9 0=120 2T 24.79 -0.3 0.0 11.67 0.008 237.88 1.8 30.9 Vel = 2. 06 2. 104 iT 0.75 32.4 32. 4 631 C=120 10. 90 0.3 0.0 11 .67 0.002 11. 65 0.0 32. 4 Vel = 1. 09 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) , . ' ' Orono fligb Sc,booi Drawing Date/ 02/23/18 4/30/18 2I:2I Tyco Fire Products Page 18 __~_~~~~ ,~ .. . _-~^ ._^ ~___ . ~_ HYD. Ua DIA. FITTING PIPE Pt Pt REE "C" TYPES FTNG'S Pe pv ^^*^*^* NOTES ^°°*+ * POINT Qt, Pf/ft TOTAL pf Pu _______-_ ~_______ _ ~__.~~~ PATH 17 FROM HYDRAULIC REFERENCE A8 TO A16 CONTINUED _____ 4. 216 0. 67 32.7 32.7 El C=I20 0.00 0.0 0.0 1I. 67 0.000 0.67 0. 0 32.7 Vol = 0.26 B16 11. 67 32.7 K = 2.04 . -. _' - PATH 18 FROM HYDRAULIC REFERENCE A9 TO P2 4 .73 1.530 1E 245.54 30.3 30.3 A9 C=I20 1T 14.88 -3'I 0.0 See PATH 1 4.73 0'00I 260. 42 0.4 30.3 Vel - 0.83 1.530 I4.70 27.5 27.5 107 C=.l20 0. 00 0.0 0.0 4.73 0.00I 14.70 0.0 27. 5 Vel - 0.83 1 .630 14 .70 27. 6 27. 6 106 C=I20 0.00 0. 0 0.0 4.73 0.00I 14.70 0.0 27. 6 Vel - 0.83 1 .530 14.70 27 . 6 27. 6 I05 C=120 0,00 0 .0 0. 0 4.73 0' 001 14.70 0 .0 27 .6 Vel - 0,63 . - 1.530 1E 26.43 27 .6 27. 6 I04 C~I20 IT 14.88 3. 1 0.0 4.73 0.001 4I '30 0 . 1 27. 6 Vel = 0.83 82 4.73 30.8 K - 0'85 PATH 19 FROM HYDRAULIC REFERENCE AIU TO P3 _ 3. 96 1.530 1E 304 . 33 30 .5 30.5 J\10 C=120 3T 34 . 71 0.0 0 .0 See PATH 1 3. 96 0.00I 339'04 0'4 30.5 Vel = 0.70 q . , Orono High School Drawing Date:02/23/18 4/30/18 11 :27 Tyco Eire Products Pope 19 HYD. Qa. DIA. FITTING PIPE PtPt REF ,c,, TYPES ETNG'S Pe pv ******* NoyEs ******* POINT Qt. Pr/ft TOTAL Pt Pu P3 3.96 30. 8 K = 0.71 PATH 20 FROM HYDRAULIC REFERENCE All TO P4 3.03 1.530 lE 304.96 30. 6 30. 6 All C=120 3T 34.71 0.0 0.0 See PATH 1 3.03 0.001 339. 67 0.2 30. 6 Vel = 0.33 P4 3.03 30.8 K = 0. 55 PATH 21 FROM HYDRAULIC REFERENCE Al2 TO P5 1.84 1.530 lE 305.58 30.7 30.7 Al2 C=120 , 3T 34.71 0.0 0.0 See PATH 1 1.84 0.000 340.29 0. 1 30.7 Vol = 0. 32 P5 1.84 30.8 K = 0. 33 PATH 22 FROM HYDRAULIC REFERENCE P6 TO A13 1.20 1 .530 lE 304.96 30. 8 30 .8 P6 C=120 3T 34.71 0. 0 0.0 See PATH 17 1.20 0.000 339. 67 0.0 30.8 Vel = 0.21 A13 1.20 30. 9 K = 0.22 PATH 23 FROM HYDRAULIC REFERENCE P7 TO A14 2. 64 1. 530 15 304 .33 30. 9 30. 9 P7 0---120 3T 34.71 0.0 0.0 See PATH 17 2. 64 0.000 339.04 0.2 30. 9 Vel = 0: 47 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) .. Orono Nigh School Drawing Date:02/23/18 4/30/18 /1 :21 Tyco Fire Product Page 20 EYE. C:a4 DIA, FITTING PIPE Pt Pt REF “,--, ,.. TYPES FTNG'S IT'e Pv ******* NOTES ,***,k*** POINT cot Pf/ft TOTAL Pt Pri ------------------------ ------ ——....----___ . _ A14 2. 64 31 .0 K = 0. 47 PATH 24 FROM HYDRAULIC REFERENCE P8 TO A15 3.60 1.530 2E 316.08 30. 9 30.9 P8 C=120 2T 29.75 0.0 0.0 See PATH 17 3.60 0.001 345.83 0.3 30.9 ye? = 0. 63 Al5 3.60 31.2 K. .= 0.64 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 4 , Orono high School Drawing Date:02/23/18 4/30/18 11:20 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Orono High School Location: 795 North OLD CRYSTAL BAY RD Long Lake Drawing Date: 02/23/18 / mote Axea Number: 4 Contractor: Breth-Zenzen Fire Protection ?elephone: 320-363-0900 8053 Sterling Drive Suite, 101 St. Joseph, MN 56374 Designer: Paul Secord Calculated By:SprinkCAD www.sprinkcad-com 451 N. Cannon. Ave. Lansdale, PA 19446 Construction: 1. 1 B Occupancy:E Reviewing Authorities:City of Orono SYSTEM DESIGN Code:NFPA 13 Hazard:ORD GRPII System Type:WET Area of Sprinkler Opel . 961 sq. ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.200 I Make: Tyco Area per Sprinkler 120.0 sq ftl Model: TY-FRB Hose Allowance Inside 0 gpm 1 K-Factor: 5.60 Hose Allowance Outside 250 gpm I Temperature Rating; 155 CALCULATION SUMMARY 7 Flowing Outlets gpm Required: 423.4 psi Required: 44.0 8 City Supply WATER SUPPLY Water Flow Test 1 Pump Data Date of Test 11-28-18 I Rated Capacity 0 gpm 1 Static Pressure 58.0 psi I Rated Pressure 0.0 psi 1 Residual Pres 52.0 psi 1 Elevation 0 I At a Flow of 1190 gpm 1 Make: I Elevation 1' 6" 1 Model: 1 Location: Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55356 1 Orono 1-ugh School 0,--awina Dote:02/23/18 4/30/18 11 :20 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 4 173 46.7 psi 1 4" Grvd Butterfly Valve Tyco BFV- 5' 120 4 .026 173 0.0 1 " Thrd Rack Flow Valve WATTS 774 CHART LOSS 177 2.1 Elevation Change -1110" -5. 1 Fixed Flow Inside Hose Stream 0 gpm Hydr Ref R1 Required at Base of Riser 173 43.7 psi 1 Pipe 6" DIx18 America DI 350 300' 140 6.338 173 0.3 Fixed Flow Outside Hose Allow. 250 gpm Hydr Ref R2 Required at City Supply 423 44 .0 psi Water Source 58.7 psi static, 52.7 psi residual @ 1190 gpm 423 gpm 57 .8 psi SAFETY PRESSURE 13.8 psi NOTE: Water Source has been adjusted to include a change of elevation of 1 ' 6" flow test to point of connection Available Pressure of 57.8 psi Exceeds Required Pressure of 44.0 psi This is a safety margin of 13.8 psi or 24 % of Supply Maximum Water Velocity is 9.8 fps ' . Job Water Required Hose Allowance Orono High SchooStatic Pres: 58.0 psi Pressure: 44.0 psi In: 0 gpm ' 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi 173 gpm Out: 250 gpm ` Long Lake Flow: 1190 gpm 423 g Remote Area: 4 Date: 11-28-18 Safety Pres: 13.8 psi Loc: Hydrant in front of build Hd Ely Pres: 4.4 psi 70 | ) ---- — — • • • P S || I | � 1 | | | | 3D | { :• t . _� | . . , ............. . � 1 ,,,,,,___ , ' J___ | , , , , ,.... . 1 . , . , , , . , . • • 10 i ( | _-_ � | |i| ! • • |T [ |• | �`4pa[ T _ ||| i — � [| | | | | ! i � 100 150 200 250 300 350 400 450 500 Orono High School Drawing Date. 0 '/23/18 4/30/18 8 _ d . 20 V page s FITTING NAME TABLE iEEREt` . NAE C Coupling E 90' Standard Elbow F 45' Elbow S Straight Flow Thru Tee T 90' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe C Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE + FTNG'S) Pt Total pressure (psi) at fitting Pe Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4 .52 x (Q/C) ^1.85 / ID^4 .87 Pv Velocity pressure (psi) where Pv = 0.001123 x Q^2/ID^4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0.01 psi. Pressures are listed to 0.1 psi. Addition may vary by 0.1 psi due to accumulation of round off. - Calculations conform to NEPA 13. - Velocity Pressures are not considered in these Calculations . ' ' ' Croon Rich School Drawing Date/02/2I/26 4/30/18 11 :20 Page 4 _ ` _---_~_- ______ : ^~. - NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (P5I^4) ) (PSI) (GPM) (GPM) (GPM/SQ. FT) _-- . ' __ ~~~ . - --- IOC 15.75 34.7 101 15.75 34 .7 IO2 15.75 34.7 103 15.75 34.7 104 22.25 31.8 I05 22.25 31'8 I06 22.25 31' 8 I07 22 .25 31.8 203 22.22 31.8 204 22.22 31. 8 205 22.22 31.8 209 21.92 32'0 2I0 21.92 32'0 2I1 21.92 32.0 212 21. 67 32. 1 213 21 . 67 32. 1 400 10.67 19.8 400S 10'I3 5. 60 19'6 24 .8 24 . 0 0 '21 40I 10'67 19. 9 40I3 I0' 13 5. 60 19'7 24. 9 24 .0 0,2I 402 10. 67 20.5 402S 10.13 5-60 20.2 25.2 24.0 0'21 403 I0'67 19.7 403S 10'I3 5. 60 19.5 24.7 24.0 0.21 404 10.67 19.8 404S 10'I3 5. 60 19. 6 24.8 24.0 0.21 405 10'67 20.3 405S 10.13 5.60 20'0 25. 1 24 .0 0.21 406 10. 67 18. 6 ' 406S I0'13 5. 60 I8'4 24.0 24'0 0'28 50I -1'7I 42.2 507 -1.71 42.2 508 -1'7I 42.2 620 -1.92 42.3 621 19. 33 33.1 622 I9.33 33. 1 623 30.83 28. 1 624 30.83 28.1 625 30. 83 28. 1 626 30.83 28. 1 627 30.83 28. 1 628 30.83 28. 1 629 30.83 28 .1 630 19' 33 33' 1 631 15.75 34.7 632 -1 .71 42.2 633 -I.71 42.2 634 -1.7I 42.2 635 -1.71 42.2 636 -1 .71 42 .2 637 -1.71 42.2 ` . ` ` . Orono High School Drawing Date:02/23/28 4/30/13 7I :20 Page 5 ------ - - ~ ~-~_ - ~�^' ' � ,,.. _.~- � � _�-__ __- ~ - ~~ _ NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (5PM/ (P3I^qt) ) (PSI) (OPM) (GPM) (GPM/3Q,. EI) „.������� 638 -1'71 42.2 641 10' 67 21 .7 642 10. 67 2I' 1 643 10. 67 21.0 644 10.67 21. 5 645 10' 67 21. 0 646 I0' 67 20. 9 665 10. 67 19. 6 Al -1. 92 42. 3 A2 -1.92 42.3 A3 -1. 92 42. 3 A4 I9'23 33. 1 A5 19. 33 33.1 A6 19. 33 33. 1 A7 19.23 33. 1 AS 15.00 35.0 A9 15. 00 35'0 AIO 15. 00 35.0 All I5.00 35.0 Al2 15.00 35.0 AI3 15. 00 35.0 Al4 15. 00 35.0 Al5 15. 00 35.0 3I6 15. 00 35.0 Ali -4'00 43.2 A18 -1I.83 46. 6 A19 -1I'83 46. 6 BI -I.92 42. 3 Cl 30.83 28.1 C2 30.83 28.1 Dl 19.33 33.1 El 15. 00 35.0 Fl -I .71 42.2 Cl 9. 67 33.5 G2 9.67 33. 6 G3 9.67 34 .0 G4 9.67 36.3 G5 -2. 67 4I. 9 G6 -2.67 42.3 BI -2.67 42.3 H2 -2.67 42,3 H3 -2,67 42'3 Il 30.83 28.1 12 30.83 28.1 Jl -I'92 42.3 J2 -I'92 42.3 KI -1. 92 42.3 01 22.22 31 .8 02 21.92 32.0 03 21.67 32.1 PI 15.00 35. 0 Orono nigh School Drawing Dat . 02/23/18 4/30/18 11 :20 Page 6 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K--FACTOP, FLOW FLOW DENSITY (FT) (GPM/ (PSI'1 ) ) (PSI) (GPM) (GPM) (GPM/SQ.PT) P2 15.00 35.0 P3 15.00 35.0 P4 15.00 35.0 P5 15.00 35.0 P6 15.00 35.0 P7 15.00 35.0 P8 15.00 35.0 P9 15.00 35.0 Q1 9.67 21. 6 02 9.67 21.5 Q3 9.67 21.5 R1 9. 67 21.5 S1 -3.00 42. 4 S2 -3.00 42.4 S3 -3.00 42.4 W -11.83 46.7 Max velocity of 9.76 occurs in the pipe, from G4 TO G3 Nodes with "S" indicate a node at the top of a sprig or bottom of drop pendent. The node without an "S" is on the branch. ` . ^ ` . Orono High School Drawing hate:02/23/18 4/30/I8 I1 :20 Tyco Fire Products Page 7 - ---. ---- ,. '- ~-. __ __________ HYD. Qa DIA. FITTING PIPS Pc Pt REF "0" TYPES F7NG'S Pe p, ~^+^°°^ N0TES *°**+*+ POINT Qt gf/ft TOTAL Pf Pu - ~~__-_ ' _ PATH 1 FROM HYDRAULIC REFERENCE 406 TO W (PRIMARY PATH) ___ 24 . 00 1 .083 1E 0.54 18.4 18.4 K - 5.60 406S C=120 2.34 -0.2 0. 0 24 .00 0.156 2.88 0'4 18.4 \TeI ~ 8.44 __ _____ __ I.083 IT 1. 00 18,6 18. 6 EqK ~ 5.57 406 C=120 5.84 0.0 0.0 24 ,00 0, 166 6.84 1.1 18 . 6 Vel - 8 .44 1'740 3E 60.35 19. 6 19. 6 665 C=120 lT 29, 19 0,4 0.0 24 '00 0'0I6 89.54 1.4 19,6 Vol - 3.27 2.707 8.85 21.5 21. 5 RI C~120 0.00 0.0 0.0 24.00 0. 002 8. 85 0.0 21.5 \Tel = 1.35 9.04 2.707 9.94 21 .5 21 .5 Q3 C-I20 0.00 0.0 0.0 See PATH 8 33. 04 0.003 9. 94 0.0 21.5 Vel = 1 .86 5.96 2.707 9. 31 21 ,5 21. 5 Q2 0-I20 0.00 0.0 0.0 See PATH 9 39.00 0'004 9'3I 0.0 21'5 Vel - 2 .20 1.530 2E 137' 98 21. 6 21 .6 QI D=I20 2T 29.75 0'0 0.0 39,00 0.071 I67'73 I1.9 21 . 6 Vel = 6.87 2.707 I1,06 33.5 33.5 01 C=I20 0. 08 0.0 0.0 39.00 0'004 1I . 06 0.0 33. 5 Vel - 2.20 68. 88 2.707 15' 11 33.6 33. 6 G2 C=120 0.00 0.0 0.0 See PATH 4 107'88 0'029 15-I1 0'4 33. 6 Vel = 6.07 _ 65.50 2.707 2E 14 . 46 34'0 34.0 G3 C=120 18 .79 0.0 0.0 See PATH 2 173.38 0.070 33.24 2.3 34 '0 Vel = 9.76 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Orono high School Drawing Date:02,'23/18 4/30/18 11 :20 Tyco Fire re ro '..1nts Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt ZEE F,C. TYPES FTNG'S Pe Pv *,,k**,* NCTEs *x- •*** Y POINT Qt /..t; TOTAL Pt.. ?n PATH 1 FROM HYDRAULIC REFERENCE 406 TO W (PRIMARY PATH) 4.260 1E 12.33 36.3 36.3 G4 C=120 13.17 5.3 0.0 173.38 0.008 25.50 0.2 36. 3 Vel -- 3. 94 4.316 1E 12.32 41 . 9 41.9 G5 C=120 IT 42. 10 0.0 0.0 173. 38 0.007 54.42 0.4 41.9 Vel = 3.84 4.316 1E 11.00 42.3 42.3 G6 C=120 1T 42. 10 4.0 0.0 173.38 0.007 53. 10 0.4 42.3 Vel = 3. 84 4.260 4.24 46.6 46. 6 A19 C=120 0.00 0.0 0.0 173. 38 0.008 4.24 0.0 46.6 Vel = 3. 94 W 173.38 46.7 K 25.38 PATH 2 FROM HYDRAULIC REFERENCE 403 TO G3 24.72 1.083 1E 0.54 19. 5 19.5 K = 5.60 403S 0=12.0 2.34 -0.2 0.0 24 .72 0. 165 2.88 0.5 19.5 Vel = 8.69 1.083 1T 1.35 19. 7 19.7 EqK = 5.57 403 0=120 5.84 0.0 0. 0 24.72 0.165 7.19 1.2 19.7 Vel = 8. 69 -9.04 1 .740 12.00 20.9 20. 9 646 C=120 0.00 0.0 0.0 See PATH 8 15.67 0.007 12.00 0.1 20.9 Vel = 2.14 24.77 1.740 12.00 21. 0 21..0 645 C=120 0.00 0.0 0.0 See PATH 3 40.44 0.041 12 .00 0.5 21.0 Vel = 5.51 25.05 1.740 4E 86. 55 21. 5 21.5 644 C=120 1T 35.03 0. 4 0.0 See PATH 6 65. 50 0. 099 121 .58 12.1 21.5 Vel = 8 . 92 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Cron() High School D'.'awinc late.02/23/18 4/30/i.e 11120 Tyco .. ire Products P. ac HIP, '= DIA. FITTING PIPE Pt: Pt REF IT r,tt TYPES E J NG S Pe pv **11/4*n'R A rrs r. POINT 31.. P'_!ff TOTAL P1 Pn G3 63.50 34 . 0 K = 11. .23 PATH 3 FROM HYDRAULIC REFERENCE 404 TO 645 24.77 1.083 1E 0.54 19. 6 19. 6 K --- 5. 60 404S C=120 2.34 -0.2 0.0 24 .77 0.165 2.88 0.5 19. 6 Vel w 8.71 1.083 1T 1 . 35 19,8 19. 8 EqK = 5.57 404 0=120 5. 84 0.0 0.0 24 .77 0. 165 7. 19 1,2 19.8 Vel = 8 .71 645 24 . 77 21.0 K = 5.41 PATH 4 FROM HYDRAULIC REFERENCE 400 TO G2 24 .79 1. .083 1E 0.54 19.6 19. 6 K = 5.60 400S C=120 2.34 -0.2 0. 0 24.79 0. 166 2. 88 0. 5 1.9. 6 Vel 8 .72 1.083 1T 1.30 1.9.8 19. 8 EqK = 5.57 400 0=120 5. 84 0.0 0.0 24 .79 0.166 7. 14 1 .2 19.8 Vel - 8.72 -5.96 1.740 12 .00 21.0 21.0 643 C=120 0.00 0.0 0.0 See PATH 9 18 .83 0.010 12. 00 0.1 21 .0 Vel. = 2.57 24 .86 1.740 12 .00 21 .1 21 . 1. 642 C=120 0.00 0.0 0.0 See PATH 5 43. 69 0.047 12.00 0. 6 21 .1 Vel = 5.95 25. 19 1.740 2E 81 . 38 21.7 21.7 641 0=120 1T 23. 35 0.4 0.0 See PATH 7 68. 88 0.109 104 . 74 11.4 21 .7 Vel = 9.38 G2 68.88 33. 6 K = 11 .89 UNITS DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Orono _ ,h School r1.3;4� �.i fi�,�x %23/ 8 4/30/18 11:2(1 lis .. Products Page 10 HYD. k}a DTA. FITTING PIPE Pt pt REF ,,,,,, RErt _xr- tx E -� t4..kr rr`�s -�=Y PES rT°v Cr :.•.', F:. Fir I`df'is'E:.a POINT Qt Pt/ft _01(12: Pt En PATH 5 FROM HYDRAULIC REFERENCE 401 TO 642 24.86 1 .083 1E 0.54 19.7 19.7 K 5. 60 401S C=120 2.34 -0.2 0.0 24. 86 0.167 2.88 0.5 19.7 Vel = 8.74 1.083 1T 1.30 19. 9 19.9 EqK. = 5. 57 401 C=120 5.84 0 .0 0.0 24.86 0. 167 7. 14 1.2 19.9 Vel = 8.74 642 24 .86 21. 1 K - 5.41 PATH 6 FROM HYDRAULIC REFERENCE 405 TO 644 25.05 1.083 lE 0. 54 20.0 20.0 K = 5. 60 4055 0=120 2.34 -0.2 0.0 25.05 0.169 2. 88 0.5 20. 0 Vel = 8 .81 1.083 1T 1 .35 20.3 20.3 EqK = 5. 57 405 0=120 5.84 0. 0 0.0 25.05 0.169 7.19 1.2 20.3 Vel = 8.81 644 25.05 21 .5 K == 5.41 PATH 7 FROM HYDRAULIC REFERENCE 402 TO 641 25. 19 1.083 1E 0.54 20.2 20.2 K = 5. 60 402S 0-120 2.34 -0.2 0.0 25.19 0.171 2. 88 0. 5 20.2 Vel = 8 .86 1.083 IT 1 .30 20.5 20.5 EqK = 5.56 402 0=120 5.84 0.0 0.0 25.19 0.171 7.14 1 .2 20. 5 Vel = 8 .86 UNITS _. DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . . , Orono High School Drawing Date:02/23/10 4/30/18 11:20 Tyco Fire Products Page 11 HYD. Q, DTA, FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe pr POINT Qt Pf/ft TOTAL pfd Pn 641 25. 19 21 . 7 R. - 5.41 . . . ., . - . PATH 8 FROM HYDRAULIC REFERENCE 646 TO Q3 9.04 1.740 2E 32.85 20.9 20,9 646 C=120 1T 23.35 0.4 0.0 See PATH 2 9.04 0.003 56.20 0.1 20.9 Vel = 1.23 Q3 9.04 21.5 K - 1.95 PATH 9 FROM HYDRAULIC REFERENCE' 643 TO Q2 5. 96 1.140 2E 32. 85 21 .0 21.0 643 C=120 1T 23.35 0.4 0.0 See PATH 4 5.96 0.001 56.20 0.1 21.0 Vel = 0.81 Q2 5. 96 21 . 5 K .,,, 1.28 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Crone High School Drawing Date:02/23/18 4/30/70 11 :20 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Orono High School Location: 795 North OLD CRYSTAL BAY RD Long Lake Drawing Date: 02/23/18 Remote Area Number : 5 Contractor: Breth-Zenzen Fire Protection Telepto_e: 320-363-0900 8053 Sterling Drive Suite, 101. St. Joseph, MN 56374 Designer: Paul Secord Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: II B Occupancy:E Reviewing Authorities:City of Orono SYSTEM DESIGN Code:NFPA 13 Hazard:Light System Type:WET Area of Sprinkler Oper, 950 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0. 100 I Make: Tyco Area per Sprinkler 150.0 sq ftl Model: TY-FRB Hose Allowance Inside 0 gpm 1 K-Factor: 5. 60 Hose Allowance Outside 100 gpm I Temperature Rating: 155 CALCULATION SUMMARY 9 Flowing Outlets gpm Required: 244. 6 psi Required: 39.0 8 City Supply WATER SUPPLY Water Flow Test Pump Data Date of Test 11.-28-18 1 Rated Capacity 0 gpm Static Pressure 58 .0 psi 1 Rated Pressure 0.0 psi Residual Pres 52.0 psi 1 Elevation 0 At a Flow of 1:1.90 gpm 1 Make: Elevation 1' 6" 1 Model: Location:__....�� Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55356 6 Orono iiigh School Drawing Date:02/23/18 4/30/18 11 :20 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 5 145 41.8 psi 1 4" Grvd Butterfly Valve Tyco BFV- 5' 120 4 . 026 145 0.0 1 4" Thrd Back Flow Valve WATTS 774 CHART LOSS 145 2. 1 Elevation Change -11 ' 10" -5. 1 Fixed Flow Inside Hose Stream 0 gpm Hydr Ref R1 Required at. Base of Riser 145 38 .8 psi 1 Pipe 6" DIx18 America DI 350 300 ' 140 6. 338 145 0.2 Fixed Flow Outside Hose Allow. 100 gpm Hydr Ref R2 Required at City Supply 245 39.0 psi Water Source 58.7 psi static, 52.7 psi residual @ 1190 gpm 245 gpm 58.3 psi SAFETY PRESSURE 19.4 psi NOTE: Water Source has been adjusted to include a change of elevation of 1 ' 6" flow test to point of connection Available Pressure of 58.3 psi Exceeds Required Pressure of 39.0 psi This is a safety margin of 19.4 psi or 33 % of Supply Maximum Water Velocity is 14 .2 fps Job Water Required Hose Allowance , Orono High School Static Pres: 58.0 psi Pressure: 39.0 psi In: 0 gpm 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi Sys Flow: 145 gpm Out: 100 gpm - Long Lake Flow: 1190 gpm Sys+Hose: 245 gpm Remote Area: 5 Date: 11-28-18 Safety Pres: 19.4 psi Loc: Hydrant in front of build Hd Ely Pres: -0.9 psi 70 ,_,_______ I z ! 60 ! : : n w._. ...... ♦ ; Supply E 50 • i i I i. i i f 1 1 ' 3 l 40 i i P • " • _.._.......__ .. __ a__ ................._ _. _._ i._-- 100 gpm hose --- S i • : x i. : l • • I ; I I .__..�._.. -.-i.- .._...._..._.i.......... ._ ._...... .e._ _..... "".... i 1 _! 20.-------1 . . : : , , . : : . : : . . < „ „ . , . . • . : < : : : : : , : : < , , : : „ . 1 . .--- I ....................__ 1..._. ...._ ._..._ �.-... .._...�..� 3 �V Y" 10 _ -__ 3 3 I I : : i tI 100 150 200 250 300 350 400 450 500 Flow (gpm) Orono Sigh School Drawing Date:02/23/18 4/30/18 11 :20 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90Standard Elbow 45' Elbow S Straight Flow Thru Tee 90 ' Flow Thru Tee ✓ Valve LEGEND HYD REF Hydraulic reference. Refer to accompanying flow diagram. K FACTOR Flow factor for open head or path where Flow (gpm) = K x -\/P Qa Flow added or subtracted Qt Total flow DIA Actual internal diameter of pipe Hazen Williams pipe roughness factor Pf/ft Friction loss per foot of pipe PIPE Length of pipe FTNG'S Number of fittings. See table above. TOTAL Total length (PIPE FTNG'S) Pt Total pressure (psi) at fitting Fe Pressure due to change in elevation where Pe = 0.433 x change in elevation Pf Friction loss (psi) to fitting where Pf = 1 x 4.52 x (Q/C) ^1 .85 / 11)^4 . 87 Pv Velocity pressure (psi) where Pv = 0.001123 x QA2/Iir4 Pn Normal pressure (psi) , where Pn = Pt - Pv NOTES: - Pressures are balanced to 0.01 psi. Pressures are listed to 0. 1 psi. Addition may vary by 0. 1 psi due to accumulation of round off. - Calculations conform to NFPA 13. - Velocity Pressures are not considered in these Calculations Orono High School Drawing Da.e:021 23/18 4/30/18 11:20 Page 4 NODE ELEV/TION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER C-FACTOR. FLnW FLOW DENSITY (LT) (GPM/ (PSI^ ;) ) (PSI' (GPM) (GPM) (GEM/SQ. FT` 100 15.75 29.0 101 15.75 29.0 102 15.75 29.0 103 15.75 29.0 104 22.25 26.2 105 22.25 26.2 106 22.25 26.2 107 22.25 26.2 203 22.22 26.2 204 22.22 26.2 205 22.22 26.2 209 21.92 26.4 210 21.92 26.4 211 21.92 26.4 212 21. 67 26.5 213 21 . 67 26. 5 500 -1:71 9.0 500S -2.13 5.60 8. 9 16.7 15.0 0.11 501 -1.71 9. 6 5015 -2.13 5.60 9.2 17.0 15.0 0.11 502 -1.71 8.3 5025 -2.13 5. 60 8.3 16.1 15.0 0. 11 503 -1.71. 7.2 503S -2.13 5.60 7.2 15.0 15.0 0. 10 504 -1.71 7.2 5045 -2.13 5. 60 7.2 15.0 15.0 0.10 505 -1.71 5. 60 8.2 16.0 15.0 0.11 506 -1.71 8.0 5065 -2.13 5. 60 8.0 15.8 15.0 0.11 507 -1 .71 5. 60 8.3 16. 1 15.0 0.11 508 -1.71 5.60 8. 9 16.7 15.0 0.11 620 -1. 92 36.7 621 19.33 27.5 622 19.33 27.5 623 30.83 22.5 624 30.83 22.5 625 30.83 22.5 626 30.83 22.5 627 30.83 22. 5 628 30.83 22. 5 629 30.83 22.5 630 19.33 27. 5 631 15.75 29.0 632 -1.71 34.3 633 -1.71 9.2 634 -1.71 8 .5 635 -1 .71 8 .5 636 -1 . 71 8.2 637 -1. 71 8 .2 638 -1.71 31.8 639 -1.71 7 .6 ' . ` ^` ' Orono high School Dzawiog :iale: 02/23/I8 4/30/I8 I2 :20 Page 5 ~ NODE BTBVATZON SPRINKLER PBESSDPn ACTUAL MININ:UN ACTOA", NUMBER F-'1C,rOR FI,OW FLOW DENSI'iT (F2) (GPM/ (�SI^ ) ) (PSI) (GEM) <GPM) (GPM/SO^FP} ~ _____ 64O -1'7I 7.4 641 I0.67 32'0 642 10. 67 32.0 643 10. 67 32. 0 644 10' 67 32.0 645 I0,67 32.0 646 10. 67 32.0 A1 -1' 92 36.7 A2 -1, 92 36.7 A3 -1.92 36.7 A4 19.33 27.5 A5 19.33 27 .5 A6 19.33 27. 5 A7 19.33 27'5 A8 15.00 29.4 A9 15.00 29.4 A10 15. 00 29.4 All 13.00 29.4 Zl12 15,00 29.4 AI3 15.80 29.4 J\l4 15.00 29. 4 A15 I5'00 29.4 Al6 15,00 29.4 Al') -4.00 37. 6 D18 -11,83 41'8 A19 -I1.83 41.8 El -1.92 36.7 Cl 30.83 22.5 C2 30.83 22. 5 Dl 19.33 27.5 El 15'00 29. 4 Fl -I,71 36.2 Gl 9,67 32.5 G2 9. 67 32.5 G3 9. 67 32.5 G4 9. 67 32.5 G5 -2. 67 37.8 G6 -2. 67 37.8 BI -2. 67 37.8 H2 -2. 67 37.8 H3 -2.67 37.8 I] 30.83 22.5 12 30.83 22. 5 Jl -1. 92 36.7 J2 -1 . 92 36.7 KI -I . 92 36.7 01 22.22 26.2 02 2I . 92 26. 4 03 21. 67 26.5 P1 I5,00 29.4 P2 15'00 29.4 Orono High School Drawing Date:02/23/18 4/30/18 :20 Page NODE ELEVATION ON SPR_NKLE < PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSI^ ) ) (;PSI) (GPM) (GPM) (GP17/SQ. PT) P3 15.00 29.4 P4 15.00 29.4 P5 15.00 29.4 P6 15.00 29.4 P7 15.00 29.4 P8 15.00 29.4 P9 15.00 29.4 Ql 9.67 32.5 Q2 9. 67 32.5 Q3 9.67 32.5 S1 -3.00 38 .0 S2 -3.00 38.0 S3 -3.00 38.0 W -11.83 41.8 Max velocity of 14.17 occurs in the pipe from 632 TO 501 Nodes with "S" indicate a node at the top of a sprig or bottom of drop pendent. The node without an "S" is on the branch. Orono High ii } of: Drawing D..,f. ) 7 R 4/30/18 20 Tyco Fire Products Paae 7 HYD. ua LIR. FITTING PIPE Pt Pt. REF n,, TYPES FTNG'` Pe PY x i +x i** NOTES *" k*9r*is POINT Qt Pt/ft TOT•,__, P. On PATH 1 FROM HYDRAULIC REFERENCE 504 TO W (PRIMARY PATH) 15.00 1.083 1E 0.42 7 .2 7 .2 K = 5.60 504S 0=120 2.34 -0.2 0.0 15. 00 0.065 2.75 0.2 7.2 Vel = 5.28 1.083 iT 1.00 7.2 7.2 EqK = 5. 60 504 0=120 5. 84 0. 0 0.0 15.00 0.065 6. 84 0. 4 7.2 Vel = 5.28 15. 01 1 .530 1T 2.71 7 .6 7. 6 639 C=120 9.92 0.0 0.0 See PATH 2 30. 01 0.044 12. 63 0. 6 7. 6 Vel = 5.29 -2.00 1 . 654 10. 65 8.2 8 .2 636 C=120 0:00 0.0 0.0 See PATH 7 28 .01 0. 026 10.65 0.3 8.2 Vel = 4 .22 16. 05 1. 654 0. 93 8 .5 8 .5 635 C=120 0.00 0.0 0. 0 See PATH 4 44. 06 0.061 0.93 0.1 8.5 Vel = 6. 64 16. 15 1. 654 6. 63 8 .5 8.5 634 C=120 0.00 0.0 0.0 See PATH 5 60.20 0. 109 6. 63 0.7 8 . 5 Vel = 9.08 16. 73 1.654 2,00 9.2 9.2 633 C=120 0.00 0.0 0.0 See PATH 6 76. 93 0.171 2.00 0,3 9.2 Vel = 11. 60 17. 02 1. 654 1T 90.50 9. 6 9. 6 EqK = 5.50 501 0=120 9. 12 0.0 0.0 93. 95 0.248 99.62 24.7 9.6 Vel _ 14. 17 3.316 1T 211 .63 34.3 34.3 632 0=120 21.90 0.0 0.0 93. 95 0.008 233.53 2.0 34.3 Vel = 3.52 50. 62 4.316 4E 19.23 36.2 36.2 Fl C=120 56. 13 1.0 0. 0 See PATH 3 144.58 0.005 75.36 0. 4 36.2 Vel. = 3.20 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) .. , Orono flich School Drawing Date:02/23/10 4/30/78 11 :20 Tyco Fire Products Page 0 BYE. Qa DIA. FITTING PIPE Pt. Pt REF "C" TYPES FTNG' S Pe pv **4**** NOTES ******* POINT (Dt Pt/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 504 TO W (PRIMARY PATH) - - --- .. . . _. ... _ . , ...... . 4 .316 3E 79.40 37.6 37. 6 A-17 C=120 iT 70. 16 3.4 0.0 144.58 0.005 149.56 0.8 37.6 Vel = 3.20 4.260 2.00 41.8 41.8 A18 C=120 0.00 0.0 0.0 144.58 0.005 2. 00 0.0 41.8 Vel = 3.29 4.260 4.24 41.8 41.8 A19 C=120 0.00 0,0 0.0 144 .58 0. 005 4.24 0.0 41.8 Vel = 3.29 - • W 144. 58 41.8 K = 22.36 17.02 1.083 iT 0.42 9.2 9.2 K = 5.60 5015. 0=120 5.84 -0.2 0.0 17.02 0.083 6.26 0.5 9.2 Vel = 5.99 501 17.02 9.6 K = 5.50 PATH 2 FROM HYDRAULIC REFERENCE 503 TO 639 15.01 1.083 1E 0.42 7.2 7.2 K = 5.60 503S 0=120 2.34 -0.2 0.0 15.01 0.065 2.75 0.2 7.2 Vel = 5.28 1.083 1E 1.67 7 .2 7.2 EqK = 5.60 503 0=120 2 .34 0.0 0.0 15.01 0.065 4 .00 0. 3 7.2 Vel = 5.28 ----- 1 .530 1E 9.63 7. 4 7.4 640 0=120 4 .96 0.0 0.0 15.01 0.012 14 .58 0.2 7.4 Vel = 2. 64 639 15.01 7. 6 K = 5.44 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Cron() Jii.C71i 4G1'1ool D.:''.d,111t o ii< te:02 2.,3/1.8 4/30:18 1.1. :20 Tyco ..ire Product.: Pe,', ,,. 9 IT. QQ,: DSA. . .__TIN ; PIPE Pt Pt REP "C" TYPES NG t C Pe p) w z x x k yr*c N( ,,,hs x x,is*k t:is .)TNT t Pi ls« _ POTNT Q . C 1 li ,. T\J r'A7....: 1'.7 e"li PATH 3 FROM HYDRAULIC REFERENCE 506 TO Fl 15.83 7. .083 1..E 0.42 8.0 8.0 K = 5. 60 5065 0=120 2. 34 --0.2 0.0 15.83 0.072 2.75 0.2 8.0 Vel = 5.57 1 .530 iT 3.00 8.0 8 .0 EqK = 5. 59 506 0=1.20 9. 92 0.0 0.0 15.83 0.013 12 .92 0.2 8.0 Vel = 2.79 2.00 1. 654 10.93 8 .2 8 .2 637 C=120 0.00 0.0 0.0 See PATH 7 17.83 0.011 10. 93 0.1 8 .2 Vel = 2. 69 16.14 1. 654 14.52 8.3 8.3 K = 5. 60 507 C=120 0.00 0.0 0.0 33.96 0.038 14.52 0.5 8.3 Vel = 5. 12 16.66 1. 654 1T 281.55 8 .9 8. 9 K = 5.60 508 C--420 9.12 0.0 0.0 50. 62 0. 079 290. 67 23.0 8 . 9 Vel = 7. 63 2.215 1E 211.56 31.8 31.8 638 0=120 1T 21.01 0.0 0.0 50.62 0. 019 232.56 4.4 31 .8 Vel = 4 .26 Fl 50.62 36.2 K = 8.41. PATH 4 FROM HYDRAULIC REFERENCE 505 TO 635 16.05 1.530 1T 7.79 8.2 8.2 K = 5. 60 505 0=120 9.92 0.0 0.0 16.05 0.014 17 .71 0.2 8 .2 Vel = 2.83 635 16.05 8.5 K = 5.52 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . . '' ' Orono .Nigh School Drawing Date:02/23/28 4/30/18 11 :20 Tyco Fire Products Page 15 ------- -~ ` . `~^~~ ^., ~'~~ ~�~ ~�~~~� �.~ -_ - -`-- - ~_ ' -- HYD' Da DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNS' S Pe pv +**°^^° NoTEG ^ *^^+ ` POINT 0t 2f/ft TOTAL Pf Pn --------- '____ ___ ~~_. ____ ' -~- ~ ~- sV&T8 5 FROM HYDRAULIC REFERENCE SO2 TO 634 --- -- 16.15 I. 083 IE 0.42 8.3 8 . 3 K = 5.60 502S C-I20 2.34 -0.2 0.0 I6, 15 0.075 2.75 0.2 8.3 Vel - 5. 68 1 .530 IT 2.71 8 . 3 8.3 EqK = 5.59 502 C=120 9.92 0.0 0.0 16, I5 0.0I4 12 . 63 0.2 8 . 3 Vel = 2.85 - 634 16, 15 8 .5 K = 5. 53 PATH 6 FROM HYDRAULIC REFERENCE 500 TO 633 16.73 1. 083 lE 0.42 8 .9 8. 9 K - 5.60 500S C=120 2.34 -0.2 0.0 16.73 0.080 2.75 0 .2 8 .9 Vel = 5.88 1.530 IT 8.21 9.0 9.0 EqK = 5.59 500 C=120 9.92 0.0 0.0 16.73 0. 015 I8,13 0.3 9.0 Vel = 2.95 ,������������ 633 16,73 9.2 K - 5.51 PATH 7 FROM HYDRAULIC REFERENCE 636 TO 637 2.00 1 . 654 1E 5. 47 8 .2 8 .2 636 C=120 4 .56 0,0 0.0 See PATH 1 2.00 0.000 I0.04 0.0 8.2 Vel = 0.30 637 2.00 8 .2 K - 0.70 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Orono High School Drawing Date. 022/23/18 4/30./18 11 :19 HYDRAULIC DESIGN INFORMATION SHEET Job Name: Orono High School Location: 195 North OLD CRYSTAL BAY RD Long Lake Drawing Date: 02/23/18 Remote Area Number: Contractor: Breth-Zenzen Fire Protection Te .ephone: 320-363-0900 8053 Sterling Drive Suite, 101 St. Joseph, MN 56374 Designer: Paul Secord Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: II B Occupancy:E Reviewing Authorities:City of Orono SYSTEM DESIGN Code:NFPA 13 Hazard:ORD GRP II System Type:WET Area of Sprinkler Oper. 898 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.200 I Make: Tyco Area per Sprinkler 75.0 sq ftl Model: TY-FRB Hose Allowance Inside 0 gpm I K-Factor: 5. 60 Hose Allowance Outside 250 gpm I Temperature Rating: 155 CALCULATION SUMMARY 13 Flowing Outlets gpm Required: 485.6 psi Required: 52.1 @ City Supply WATER SUPPLY Water Flow Test I Pump Data Date of Test 11-28-18 ,I Rated Capacity 0 gpm Static Pressure 58 .0 psi I Rated Pressure 0.0 psi • Residual Pres 52.0 psi I Elevation 0 At a Flow of 1190 gpm I Make: Elevation 1 ' 6" I Model: Location: Hydrant in front of building Source of Information: City of Orono SYSTEM VOLUME 2126 Gallons Notes: MN 55356 Orono High School Drawing Date:02/23/18 4/30/13 11 :19 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 6 236 54.4 psi 1 4" Grvd Butterfly Valve Tyco BFV- 5' 120 4 .026 236 0. 1 1 4" Thrd Back Flow Valve WATTS 774 CHART LOSS 236 2.3 Elevation Change -1110" -5. 1 Fixed Flow Inside Hose Stream 0 gpm Hydr Ref R1 Required at Base of Riser 236 51. 6 psi 1 Pipe 6" DIx18 America DI 350 300' 140 6.338 236 0.4 Fixed Flow Outside Hose Allow. 250 gpm Hydr Ref R2 Required at City Supply 486 52.1 psi Water Source 58 .7 psi static, 52 .7 psi residual 8 1190 gpm 486 gpm 57 .5 psi SAFETY PRESSURE 5.4 psi NOTE: Water Source has been adjusted to include a change of elevation of 1' 6" flow test to point of connection Available Pressure of 57 .5 psi Exceeds Required Pressure of 52.1 psi This is a safety margin of 5.4 psi or 9 % of Supply Maximum Water Velocity is 20.0 fps Job Water Required Hose Allowance ! Orono High School Static Pres: 58.0 psi Pressure: 52.1 psi In: 0 gpm 795 North OLD CRYSTAL BAY RD Resid. Pres: 52.0 psi Sys Flow: 236 gpm Out: 250 gpm Long Lake Flow: 1190 gpm Sys+Hose: 486 gpm Remote Area: 6 Date: 11-28-18 Safety Pres: 5.4 psi Loc: Hydrant in front of build Hd Ely Pres: 1.9 psi 70 , [ ; •• i • 60 -. •• i Supply E i • ;..._...._.i.._ _..__ _........__.................. _ _.__ . • { 50 250 gpm hose • __._ •• I • i I .• i •• E l • • • • 40 ; _ — . w • S I ; • ••• • • €• _ 30IIIII • •• i •• I , i i 1 ! _ 20 3 • •• • •• • i i I E Si i ..... ... ..._... • I `-1.9 psi - - 100 150 200 250 300 350 400 450 500 Flow (gpm) suoTapTnoTBO asaga uT paaapTsuoo aou eap saanssaad AaTooTaA - 'ET Vd3N oa u:aoJuoo SuoTaeTnoTeJ - -;go punox go uoTaeTnwnzxp oa anp Tsd T•0 Aq Aaen Aeuz uoTa ?:ppv -Tsd T -0 oa paasTT axe saanssaad -Tsd To-0 (pa paouoTeq aae saanssaad - S3,ZON Ad - ad = ud axagM ' (Tsd) aanssaad TeuaoN ud vvainz x EZTI00'0 = Ad aaagM (Tsd) aanssaad A TooTaA Ad L8' QI / G8-1., (3/0)(3/0) x Zc;' i x T = Jd aaagM buTaaT; oa (Tsd) ssoT uoTaoTa3 Jd uOTapnaTa uT abuego x E£ '0 = ad aaagM uoTapnaTa uT abuego oa anp aanssaad ad buTaaTT ap (Tsd) aanssaad TeaoL ad (S,JP L3 + 3dId) gabua T Te4o3 'IVLO;L •anoge aTgsa aaS •sbuTaaTJ go aaguunN S,ONL3 adTd To gabual 3dId adTd go aoo; aad ssoT uoTaoTa3 a.T/gd aoaop; ssaug15110.1: adTd Su<eTTTTM uazpj-I O adTd Jo aaaameTp TeuaaauT Tenao\ VIQ MoT.z TeaoI 40 paaop.aggns To pappp MoT3 p('S d/\- x >j = (wdb) MOTS aaagM gaed ao ppaq uado a03 TOaDOS MOTS aLOV3 >1 •uupTbeTp MoTJ buTAuedui000P oa xasag •aOuaxaJea oTTOITPAH 33E QAC eATBA A aa,I, nagw MoT3 106 aaJ nagy MoTd agbTeaa.S S MOCSiT3 t c f? 3 MogT3 pappueaS 106 buTTdnoD 3 YAVM MISEV I'I I II , Nk?I SNII:I.I:. a5 d 6.. T .. 9T/OE.-/t' L i;.7/7u + G Ou m PIG "oogo,S q.517ouo.is , ` ' '' , Crone High School Drawing Data:02/23/I8 4/30/18 I1 :19 Page 4 ~~ ~�. ______- ____' ` � �~~ �� -~-_~_ - '---- � ___-�� - 00DE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER X-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (PSI' ) ) (PSI) (GPM) (GPM) (GpM/3Q'FT) ^`_ __ ___ ----_______ ~~_-_~_~_ ~,-_. 100 15.75 40'4 10I 15.75 40.4 IO2 15.75 40.4 103 15.75 40.4 I04 22.25 37'6 I05 22'25 37.6 106 22.25 37 .6 107 22.25 37.6 203 22.22 37. 6 204 22.22 37.6 205 22.22 37. 6 209 21 . 92 37.8 210 21. 92 37.8 2I1 21 . 92 37 .8 212 21 . 67 37.9 213 21.67 37 .9 501 -I.71 39.9 507 -1 .71 40. 6 508 -1.71 40. 9 600 4. 92 7.2 600S 4 .38 5. 60 7 .3 15' I 15.0 0'20 60I 4. 92 7.1 60IS 4 .38 5. 60 7.2 15.0 15.0 0.20 602 4.92 7'3 602S 4.38 5.60 7.4 15.2 I5' 0 0.20 603 4 . 92 8.4 6038 4. 38 5,60 8.5 16.3 15.0 0.22 604 4.92 9.1 6048 4.38 5. 60 9'1 I6. 9 15.0 0.22 605 4'92 11.1 605S 4.38 5. 60 11.1 18. 6 I5'0 0.25 606 4 .92 1I.5 606S 2.88 5.60 12.0 19.4 15'0 0.26 607 4 .92 17.4 607S 5.38 5, 60 16.3 22. 6 15. 0 0.30 608 4 . 92 10.8 608S 4 .38 5, 60 10'8 18.4 15.0 0.25 609 4. 92 11.0 609S 4.38 5. 60 1I.0 18. 6 I5.0 0.25 610 4.92 I1.7 610S 4.38 5. 60 11 .6 19.1 15. 0 0.25 611 4 .92 I2'5 61IS 4 .38 5. 60 12.4 19.7 I5'0 0.26 612 4. 92 13.3 612S 2 . 88 5. 60 13.7 20.7 15. 0 0.28 620 -1 '92 48 .I 621 19.33 38. 9 622 I9'33 38. 9 623 30.83 33.9 624 30.83 33.9 625 30. 83 33. 9 . ^ ^^ ° erono High School Drawing Date:02/33/I8 4/30/28 I1 :19 Page 5 _ .~_~~--_. __ _ - ��- � - _� ~~ NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GBM/ <PSI^ ) ) (PSI) (GPM) (GPM) (GPM/SQ' FT) - ------ --~ ---~----^--- ------ 626 30.83 33' 9 627 30.83 33.9 628 30.83 33. 9 629 30.83 33. 9 630 19.33 38. 9 631 15.75 40. 4 632 -1.71 38.2 633 -1.71 40.0 634 -I.71 40. I 635 -I.71 40. I 636 -1.71 40. 3 637 -1.71 40.5 638 -1'7I 46. 1 641 10. 67 44.6 642 10.67 44 .6 643 10. 67 44.6 644 I0.67 44. 6 645 10. 67 44. 6 646 10. 67 44. 6 653 4. 92 14.2 654 4 '92 13.3 655 4 .92 12.4 656 4.92 1I.6 657 4.92 1I.5 658 4.92 12. 5 659 4.92 11.8 660 4 .92 10.0 661 4 . 92 8. 9 662 4.92 7. 8 663 4. 92 7 .7 664 4.92 7 '7 Al -1 .92 48 .1 A2 -1.92 48 .1 A3 -1.92 48. 1 A4 19'33 38.9 AS I9,33 38.9 A6 19.33 38.9 A7 19.33 38. 9 A8 I5.00 40.8 A9 15.00 40.8 AI0 15,00 40, 8 All 15,00 40. 8 Al2 I5.00 40.8 8l3 15.00 40.8 A14 15'00 40' 8 A15 I5'00 40. 8 AI6 15.00 40. 8 &I7 -4.00 49.0 A18 -I1.83 54 . 3 J\I9 -11.83 54 .3 El -1. 92 48 . 1 Orono isiah School L -I✓ ig Date:0G( 23/15 4/30/18 i1 ' 79 Page CSFge y' NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (P I^ ') ) (PSI) (GPM) (GPM) ( PM/SQ.SF) Cl 30.83 33.9 C2 30.83 33. 9 Dl 19.33 38. 9 El 15.00 40.8 Fl -1.71 47.1 G1 9.67 45.0 G2 9. 67 45.0 G3 9. 67 45.0 G4 9.67 45.0 G5 -2.67 50.4 G6 -2.67 50. 4 H1 -2.67 50. 4 H2 -2. 67 50. 4 H3 -2. 67 50.4 Il 30.83 33. 9 12 30.83 33. 9 J1 -1.92 48 .1 J2 -1.92 48.1 KI -1.92 48. 1 Li 4 .92 17. 0 M1 4.92 18. 9 M2 4.92 22.0 M3 -13.00 37.9 M4 -13.00 40.2 Ni 4.92 17.5 01 22.22 37 , 6 02 21. 92 37.8 03 21. 67 37.9 P1 15.00 40.8 P2 15.00 40.8 P3 15.00 40.8 P4 15.00 40. 8 25 15.00 40.8 P6 15.00 40.8 P7 15.00 40.8 P8 15.00 40.8 29 15.00 40.8 Q1 9.67 45.0 Q2 9.67 45.0 Q3 9.67 45. 0 Si -3.00 50.5 S2 -3.00 50.5 S3 -3.00 50. 5 W -11 .83 54.4 Max velocity of 20.02 occurs in the pipe from M2 TO Mi Nodes with "S" indicate a node at the top of a sprig or bottom of drop pendent. The node without an "S" is on the branch. . " ^^ ^ Orono High. School Drawing Dste:02/23/18 4/30/18 1I :29 Tyco Fire Products Page 7 __~- . ._~~' . .. - . _ ~~_-~ - - - ' ___��_'- HYD. Qa DIA. FITTING PIPE Pt Pt REP "C" TYPES FT0S`5 Pe pv °«*°°^^ ND7Eq ^°^°*^° POINT Qt Pf/ft TOTAL Pf. Po ____--__ _ - ~_~--__ PATH 1 FROM HYDRAULIC REFERENCE 80I TO W (PRIMARY PATH) I5'00 1.083 1E 0. 54 7.2 7.2 K - 5. 60 601S C=120 2 .34 -0.2 0. 0 15. 00 0.065 2.88 0.2 7 '2 Vel = 5.28 I'083 IT 3. 09 7.1 7.1 EqK = 5. 62 601 C-I20 5.84 0.0 0.0 I5.00 0.065 8. 93 0. 6 7.1 Vel = 5.28 15.11 1,740 3.43 7.7 7 .7 663 C=I20 0,00 0. 0 0.0 See PATH 2 30. 11 0.024 3.43 0.1 7 .7 Vel - 4. 10 I5' I9 1.740 2E 10.75 7.8 7 .8 662 C=I20 11. 68 • 0.0 0.0 See PATH 3 45' 30 0.050 22.43 1. 1 7. 8 Vel = 6.17 16'28 1.740 I8 6'28 8. 9 8. 9 661 C=I20 5. 84 0.0 0. 0 See PATH 4 6I,58 0'089 12. 12 1 . 1 8 . 9 Vel = 8.39 16. 87 I.740 IE 7 .03 10.0 I0.0 660 C=120 5.84 0.0 0.0 See PATH 5 78.45 0' 139 12.87 1,8 I0.0 Vel = 10.69 18 . 64 1 '740 3. 64 1I .8 11' 8 659 C=120 0'00 0.0 0. 0 See PATH 8 97. 09 0.206 3. 64 0.7 11 -8 Vel = 13.23 19. 37 1.740 II 5.70 12 . 5 12.5 658 C=120 I1' 68 0.0 0.0 See PATH 9 1I6- 46 0.288 17.37 5.0 12. 5 Vel = 15. 87 2 .203 lT 0.83 17.5 17. 5 Ni C=120 13, 64 0.0 0. 0 1I6'46 0.091 14.47 1.3 17.5 Vel = 9' 90 I19. I3 2.203 1E 2.50 18 .9 18 .9 MI C=I20 6.82 0.0 0.0 See PATH 6 235. 58 0. 336 9.32 3.1 18 . 9 Vel = 20.02 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . , ^^ ~ Crone iilcb School Drawing Date:02/23/IB 4/30/I9 12 :29 Tyco Fire Products Page 5 ~_ __ _. HYD. Oa DIA_ FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe pr +*°^°*° 00TFS ~°,^°*^ POINT Qt Pf/tt TOTAL pf 2u ~ __ - _____ ' -_-- __ _-___ _- _ PATH 1 FROM HYDRAULIC REFERENCE 601 TO W (PRIMARY PATH) �_ . 2.215 lE 17 . 92 22 .0 22.0 M2 C=120 7 .00 7 .8 0.0 235.58 0.327 24 . 92 8 .2 22.0 Vel = 19.81 - 4 .238 3E 162'46 37 '9 37 .9 M3 C=I40 5I,23 0.0 0.0 235.58 0.0I0 213' 69 2.2 37.9 Vel = 5.41 3. 316 3E I7' 92 40.2 40.2 M4 C=120 lV 45.27 -4'9 0.0 235.58 0.046 63. 18 2. 9 40.2 Vel = 8. 84 -22.57 3.316 1T 2I1,63 38 .2 38 .2 632 C=120 21.90 0.0 0.0 See RAT8 13 213'02 0.038 233.53 8. 9 38.2 Vel = 7 .99 22.57 4.316 4E 19,23 47.1 47 ,1 Fl C~I20 56. 13 1 .0 O'O See PATH 13 235.58 0'013 75. 36 1.0 47.1 Vel = 5.22 _ 4.316 3E 79.40 49.0 49.0 J\l7 C=120 lT 70'I6 3. 4 0.0 235.58 0'0I3 149.56 1 .9 49. 0 Vel = 5.22 4.260 2.00 54 .3 54. 3 818 C=120 0.00 0.0 0. 0 235'58 0.014 2 .00 0.0 54,3 Vel = 5.35 4 .260 4.24 54.3 54.3 A19 C=120 0.00 0.0 0.0 235.58 0. 014 4 .24 0.1 54.3 Vel = 5.35 W 235.58 54.4 K = 31.94 _ PATH 2 FROM HYDRAULIC REFERENCE 600 TO 663 15.11 1.083 1E 0'54 7.3 7.3 K = 5. 60 600S C=120 2.34 -0.2 0. 0 15.1I 0.066 2.88 0.2 7.3 Vel = 5'31 � �� UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) " 4` , Orono Eigb School Drawing Date:02/23/I8 4/30/18 21 :I9 Tyco Fire Products Page 9 _ - ~~~ ~ _-_ __-'--_- _ -~ HYD. Qa DIA. FITTING PIPE Pc Pt REF "C" TYPES FTNG'S Pe pv °^*^°^* NOTES ,***4 ** POINT Qt gf/ft TOTAL Pi Pu -_-___ __- __ ____ PATH 2 FROM HYDRAULIC REFERENCE 600 TO 663 CONTINUED ____ ___ 1. 083 IT 0.75 7.2 7.2 EqK - 5. 62 600 C-I20 5.84 0.0 0.0 I5' 1I 0.066 6.59 0.4 7.2 Vel - 5.31 _ - I.740 6.57 7.7 7.7 664 C-I20 0.00 0.0 0.0 15'1I 0. 007 6.57 0.0 7.7 Vel = 2. 06 663 I5' 11 7.7 K - 5. 44 PATH 3 FROM HYDRAULIC REFERENCE 602 TO 662 15' I9 1. 083 lE 0.54 7.4 7.4 K = 5. 60 602S C=I20 2.34 -0.2 0.0 15. I9 0.067 2.88 0'2 7.4 Vel = 5.34 ��- - • 1.083 lI 1.25 7.3 7.3 EqK - 5.62 602 C=I20 5.84 0'0 0. 0 15' I9 0.067 7.09 0.5 7. 3 Vel = 5'34 662 15. 19 7 .8 8 - 5. 44 - -- ' PATH 4 FROM HYDRAULIC REFERENCE 603 TO 661 16.28 1 ' 083 IB 0.54 8.5 8 .5 K - 5. 60 603S C=120 2 '34 -0.2 0.0 I6'28 0. 076 2.88 0.2 8 . 5 Vel = 5.73 1 .083 lT 0. 50 8.4 8.4 EqK = 5. 61 603 C=120 5.84 0. 0 0 .0 16.28 0. 076 6.34 0.5 8.4 Vel - 5. 73 661 15'28 8. 9 K ~ 5.45 _ - � ' ) •, r Orono FiGLSchool Drawing ct?:C�i2::18 4f3.%l" 1 1 .1: Tyco Fire .Products Page 10 YD. Qa DIA. FITTING PIPE Pt. Pt REF “c” TYPES F *x**x** T DT y'" *****k* POINT Qt Pf/ft TOTAL PS En PATH 5 FROM HYDRAULIC REFERENCE 604 TO 660 16.87 1.083 1E 0.54 9. 1 9. 1 K = 5. 60 604S 0=120 2.34 0,2 0. 0 16.87 0.081 2.88 0.2 9. 1 Vel = 5. 93 1.083 1E 3.14 9.1 9. 1 EqK = 5.60 604 0=120 iT 8.18 0.0 0.0 16.87 0.081 11.32 0. 9 9.1 Vel = 5. 93 660 16.87 10.0 K = 5. 34 PATH '6 FROM HYDRAULIC REFERENCE 608 TO M1 18. 40 1.083 1E 0.54 10.8 10.8 K = 5. 60 608S 0=120 2.34 -0.2 0.0 18.40 0.095 2.88 0.3 10.8 Vel = 6.47 1.083 1T 1. 50 10.8 10.8 EqK = 5.59 608 C-120 5.84 0.0 0.0 18.40 0.095 7.34 0.7 10. 8 Vel = 6.47 1 .740 10.00 11 ,5 11. 5 657 0=120 0,00 0.0 0.0 18.40 0.009 10.00 0. 1 1.1. 5 Vel = 2.51 18 .55 1.740 2E 9.53 11 .6 11. 6 656 C=120 11.68 0.0 0.0 See PATH 7 36.95 0.034 21.21 0.7 11. 6 Vel = 5. 03 19.08 1.740 12.00 12. 4 12. 4 655 C=120 0.00 0,0 0.0 See PATH 10 56.03 0. 074 12.00 0. 9 12. 4 Vel = 7 . 63 19.75 1 .740 6. 92 13.3 13. 3 654 C=120 0.00 0 . 0 0.0 See PATH 11 75.78 0.130 6. 92 0. 9 13.3 Vel = 10.32 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) - .t- 0 ` Croou ITligb School Drawing DaLe:82/23/I6 4/30/16 1I :29 Tyco Fire Products Page ll _ _ . -. �� � ~ , ~ � -' ^ _ --__ '__~_-~~ HYD. �� DIA' FITTING PIPE Pt Pt REF "0" TYPES FT0G'S Pe Pv ~*+x°°~ NOTES °°°++*+ POINT c:)).: PI/It TOTAL Pf Sri _- _____ -� �� '-__~__ _- __ PATH 6 FROM HYDRAULIC REFERENCE 608 TO }a1 CONTINUED _-_______ 20'73 I.740 lT 2.42 14.2 14.2 653 C=128 11.68 0.0 0.0 See PATH 12 96.51 0'204 I4,09 2. 9 14.2 Vel = I3'15 2.2O3 5. 60 17. 0 I7'0 LI C=120 0'00 0.0 0.0 96. 5I 0.065 5. 60 0. 4 17. 0 Vel = 8.20 - - 22. 61 2,203 lT 1.78 17 .4 17.4 EqK = 5. 42 607 C=I20 13. 64 0.0 0. 0 1I9. 13 0.095 15. 42 1.5 17.4 Vel = I0.I3 Ml 1I9-. 13 18. 9 K = 27.43 22. 6I 1 .083 lT 0.46 16.3 16.3 K = 5.60 6073 120 5.84 0.2 0.0 22'61 0.140 6.30 0. 9 16.3 Vol = 7. 95 607 22. 81 17,4 K - 5.42 PATH 7 FROM HYDRAULIC REFERENCE 609 TO 656 18. 55 1 .083 1E 0'54 11.0 11.0 K = 5. 60 609S C=120 2'34 -0.2 0.0 18 .55 0'097 2.88 0.3 11.0 Vel - 6.52 1 .083 IT 0'50 11.0 11.0 EqK - 5. 59 609 C=I20 5. 84 0.0 0.0 18. 55 0'097 6.34 0.6 I1 .0 Vel = 6.52 - -------- -- 656 18.55 11. 6 K = 5.44 _ , - ______ PATH 8 FROM HYDRAULIC REFERENCE 605 TO 659 - 18. 64 I' 083 IE 0.54 11 . 1 11.1 K = 5. 60 605S C~120 2.34 -0.2 0.0 18 .64 0'098 2.88 0. 3 11 . 1 Vel -- 6. 56 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) G ron,` t. i.C;i ��cnool Dra in D.'i Y-.., :0 2/3 3 6 ,.a 4/30/18 t 7 . _.9 .. - Tyc T Ote Products _Page 12 HYD. . DIA. F., . TTING PIPE Pt Pt f!: t! TYPES t 2 pv k>. :i# --1 NOTV 'k-s d Y is k P ,_ IT c P'/-t TOTA-. Ti_ Pa PATH 8 FROM HYDRAULIC REFERENCE 605 TO 659 CONTINUED 1. 083 IT 0.81 11. 1 11 . 1. EqK 5.59 605 C=120 5.84 0 .0 0 . 0 18. 64 0. 098 6. 65 0.7 11 . 1 Vel 6.56 659 18. 64 11. 8 K - 5. 43 PATH 9 FROM HYDRAULIC REFERENCE 606 TO 658 19. 37 1. 083 l_ 2. 04 1.2. 0 12. 0 K 5. 60 606S 0=120 2.34 -0. 9 0.0 19.37 0.105 4. 38 0. 5 12.0 Vel = 6.81 1. 083 1.T 2.45 11. 5 11.5 EqK = 5.70 606 0=120 1F 7.01 0.0 0.0 19. 37 0. 105 9. 46 1 .0 1.1...5 Vel 6.81 658 19.37 12. 5 K - 5.47 PATH 10 FROM HYDRAULIC REFERENCE 610 TO 655 19.08 1.083 1E 0. 54 11 . 6 11 .6 K - 5.60 6105 0=120 2.34 -0.2 0.0 19.08 0. 102 2.88 0.3 11. 6 Vel - 6.71 1.083 1T 0.97 11.7 11.7 EqK = 5.59 610 0=.1.20 5.84 0. 0 0.0 19. 08 0. 102 6.81. 0,7 1. . .7 Ve]. = 6.71 655 19.08 12 .4 K 5.43 PATH 11 FROM HYDRAULIC REFERENCE 611 TO 654 19. 75 1. 083 1E 0. 54 12 . 4 1.2. 4 K 3.60 611S 0=1.20 2.34 -0.2 0. 0 19.75 0. 1.09 2. 88 0.3 1.2.4 Vel = 6.95 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) . _ f' 4. 4 Orono high School Drawing Date:02/23/1h 4/30/18 11 :19 Tyco Fire Products Page 13 HYD. Qa, DIA. FITTING PIPE Pt. Pt REF "C" TYPES FTNG'S Pe pv k*W** NOTES ******* POINT Qt P1/ft TOTAL Pi. Pn ,_....._,. ________ - -- - • •---- - - --- - ____ ...._ PATH 11 FROM HYDRAULIC REFERENCE 611 TO 654 CONTINUED -- . 1.083 1T 0.97 12 . 5 12.5 EqK = 5.58 611 C=120 5. 84 0.0 0.0 19.75 0.109 6.81 0. 7 12 .5 Vel = 6.95 654 19.75 13.3 K = 5.42 PATH 12 FROM HYDRAULIC REFERENCE 612 TO 653 - - - 20.73 1.083 1E 2.04 13.7 13.7 K = 5.60 612S 0=120 2.34 -0.9 0.0 20.73 0.119 4.38 ' 0.5 13.7 Vel = 7.29 1.083 1T 0. 97 13.3 13.3 EqK = 5.68 612 0=120 5.84 0,0 0.0 20.73 0.119 6. 81 0.8 13.3 Vel = 7.29 653 20.73 14 .2 K = 5.51 PATH 13 FROM HYDRAULIC REFERENCE 632 TO Fl 22.57 1 . 654 1T 90.50 38.2 38 .2 632 C=120 9. 12 0.0 0.0 See PATH 1 22.57 0.018 99. 62 1.8 38 .2 Vel = 3.40 1. 654 2.00 39.9 39.9 501 0=120 0. 00 0.0 0.0 22.57 0. 018 2.00 0.0 39.9 Vel = 3.40 1.654 6. 63 40.0 40.0 633 C=120 0. 00 0.0 0.0 22.57 0.018 6. 63 0.1 40. 0 Vel - 3.40 1 .654 0. 93 40. 1 40.1 634 0=120 0.00 0.0 0.0 22. 57 0.018 0.93 0 .0 40. 1 Vel = 3.40 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 1, r Orono ono Hi gh School Dra vina _:ia L e: 02/23/18 4/30/18 11 :19 Tyco Fire Products Page t? i.4 HYD. Qa DIA. FITTING PIPE Pt _,.E.. Fi vtt TYPES r .V GtS Pe y rxkNOTES x * x POINT . .3. Q. P1/It _.. PATH 13 FROM HYDRAULIC REFERENCE 632 TO Fl CONTINUED 1 . 654 10. 65 4n.1 40 .1 635 C=1.20 0.00 0.0 0.0 22.57 0.018 10.65 0.2 40. 1 Vel 3.40 1. 654 1E 5.47 40.3 40. 3 636 0=120 4.56 0.0 0.0 22.57 0.018 10.04 0.2 40. 3 Vel _.a 3.40 1. 654 10.93 40.5 40.5 637 0--120 0.00 0.0 0.0 22.57 0.018 10. 93 0.2 40.5 Vel = 3.40 1 . 654 14. 52 40.6 40. 6 507 0=1.20 0. 00 0.0 '0.0 22.57 0.018 14 .52 0.3 40.6 Vel = 3. 40 1.654 1T 281.55 40.9 40. 9 508 0=120 9.12 0.0 0.0 22. 57 0.018 290. 67 5.1 40,9 Vel = 3. 40 2.215 lE 211.56 46. 1 46. 1 638 0=120 1.T 21.01 0.0 0.0 22.57 0.004 232.56 1 .0 46.1 Vel = 1.90 Fl 22.57 47.1 K = 3.29 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) I,,' tiR1‘111 ttl? Fire Protection Maintenance Manual Orono High School Activity Center Addition 795 North Old Crystal Bay Road Long Lake. MN 55356 SECTION 21 10 00 - Part 2 PRODUCTS -Water-Basecd Suppression Systems 2.02 PIPING MATERIALS Description � ! Part; , � -Retarks Mega-Flow Wheatland Tube Co. Mega-Thread Wheatland Tube Co. Grooved Fittings Tyco Threaded Fittings Central 009 FireLock EZ Grooved Couplings Victaulic 2.03 LISTED FIRE-PROTECTION VALVES Description" �.... .`s Parti Remarks Grooved Double Check Valve Deringer20 Backflow Direct vx. Grooved Check Valve Grooved Butterfly Valve ERICO 2.04 GENERAL-DUTY VALVES Descn[pt�or _ "atrt# ries Ball Valve AnvilStar 2.05 SPECIALTY VALVES Detion., E ., _ .. Fart Remarks NOT USED 2.06 SPRINKLER HEADS Description Remarks TY-FRB Chrome Upright(Exposed areas) TY313 Tyco TY-FRB Brass Upright TY313 Tyco TY-FRB White Upright(Locker Rooms) TY313 Tyco TY-FRB Chrome 1/2"5.6 K 155 Degree Pendent Recessed Escutcheon TY323 Tyco RF-II White Concealed Pendent TY3531 Tyco TY-FRB Chrome Horizontal Sidewall TY3331 Tyco G1 Red Head Guard Tyco 2.07 ALARM DEVICES Desrrfption �_ �r e1rl arks Riser Manifold Tyco 2.08 PRESSUREi� GAGES fi Description k d 3 emariR Air Water Gages BRECCO 2.09 PIPE HANGERS AND SUPPORTS Remarks Beam Clamp ANVIL Loop Hanger ERICO Threaded Rod HILTI Identification Signs Tyco 2.10 FIRE WALL PENETRATION DETAILS Section Description',Ii: 1 em"arks Steel piping 2 HR Concrete Wall Penetration HILTI Steel piping 2 HR Gyp. Board Wall Penetration HILTI 8053 Sterling Drive, Suite 101 St. Joseph, MN 56374 Phone 320-363-0900 Fax 320-363-0901 Wheatland's High Strength Lightwall Sprinkler Pipe Better hydraulics. Lower job costs. Made in U.S.A. Wheatland's Mega-Flow High Strength Sprinkler Pipe features an inside diameter that's up to 11% larger than Schedule 40 pipe and as much as 7% larger than Schedule 10. With the improved hydraulics of Wheatland's Mega-Flow, you can actually down-size the entire sprinkler system, substantially lowering your job costs without compromising quality or safety. Features and Benefits Specifications and Approvals • Lightwall means less weight to save Wheatland's Mega-Flow High Strength freight costs. Lightwall Sprinkler Pipe meets or • Wheatland's Mega-Flow is easier to exceeds the following: fabricate. Therefore, labor, and • ASTM: A-795 Type E, Grade A installation costs are substantially • NFPA 13 lower. • NFPA 14 • Provides the strength to comply with • UL & C-UL Listed for use with roll standard hanger spacing of 15 ft. O.C. grooved, plain-ended couplings per NFPA and welded joints for wet, dry • Readily available in standard lengths; preaction and deluge systems. or it may be ordered in custom lengths. • FM Approved for roll grooved, • Roll groove available from mill plain-ended, and welded joints inventory to reduce your fabrication for wet systems. costs. • Durable, high quality mill coating Please refer to approriate documentation for provides a superior"primer" surface for up-to-date listing and approval information. Specifications and descriptions are accurate as custom paint applications. known at time of publication and are subject to change without notice. The chart below compares the I.D.s of Mega-Flow versus Schedule 10 and Schedule 40 sprinkler pipe. Specifications Nominal Inside Diameter UL CRR" Wheatland's NPS Nominal O.D. Mega-Flow Mega- Sch.10 Sch. 40 Mega- Sch_ 40 Nom. Pcs/Lift Flow Flow Wt./Ft. 1 1/4 1.660 1.530 1.442 1.380 1.80 1_00 1.1 08 61 1 1/2 1.900 1.740 1.682 1.610 2.64 1.00 1_556 61 2 2.375 2.215 2.157 2.067 2.14 1.00 1.961 37 2 1/2 2.875 2.707 2.635 2.469 1.43 1.00 2.504 30 3 3.500 3.316 3.260 3.068 1.34 1.00 3.349 19 4 4.500 4.316 4.260 4.026 1.00 1.00 4.331 19 6 6.625 6.395 6.357 6.065 .75 1.00 8.000 10 *Calculated using Standard UL CRR formula, UL Fire Protection Directory,Category VIZY . *The CRR is a ratio value used to measure the ability of a pipe to withstand • corrosion. Threaded Schedule 40 steel pipe is used as the benchmark \ I I( , SYSTEM COMPATIBLE (value of 1.0). w 1 1 1 1 1 1 Effective February 23,2009 Wheatland Tube Company Coated Black Sprinkler Pipe 700 South Dock Street, Sharon, PA 16146 Ph 800.257.8182 Fax 724.346.7260 www.wheatland.com 0309 1.0Mrev05 4 Wheatland's - . Vpir - p • � µ ' The High Quality Alternative to Schedule 40 Sprinkler Pipe Made in U.S.A. Schedule 40 strength and dependability. Better hydraulics and value. Engineered to provide greater value and reduced costs in threadable applications. Features and Benefits Specification and Approvals • Wheatland's Mega-Thread offers an inside Wheatland's Mega-Thread is quality diameter which is 3.6% larger than Schedule manufactured to meet or exceed the 40. This results in improved hydraulics and following standards: opens the door to down-sizing when used in conjunction with Wheatland's. • ASTM: A-795 Type E, Grade A • Safer to weld than many zinc-coated lightwall • NFPA 13 threadable products. • UL& C-UL Listed for wet, dry • Wheatland's Mega-Thread threads smoothly and preaction sprinkler systems. and easily and requires no thread warning. • FM Approved for use in wet • The proprietary mill coating on Wheatland's systems. Mega-Thread extends shelf-life and eases • Hot-dipped galvanized Mega- paint application. Thread meets FM requirements • Offering increased strength and light weight, for dry systems. Wheatland's Mega-Thread helps reduce • Rated 300 psi working ressure. installation fatigue. • Approved for standard hanger spacing, Approved for all threaded couplings and welded Wheatland's Mega-Thread can be used as outlets and is suitable for all roll-grooved and earthquake sway bracing. plain-end fittings. • More widely accepted than lightwall Specifications and descriptions are accurate as threadable where Schedule 40 is specified. known at time of publication and are subject to change without notice. Specifications Nominal Inside UL CRR* Wheatland's Diameter Mega-Thread NPS Nominal O.D. . Mega- Sch. 40 Mega- Sch. L.W.T. Nom. Pcs/Lift Thread Thread Pipe Wt./Ft. 1 1.315 1.087 1.049 1.00 1.00 .61 1.462 70 • 1 1/4 1.660 1.416 1.380 1.00 1.00 .39 1.989 51 1 1/2 1.900 1.650 1.610 1.00 1.00 .31 2.370 44 2 2.375 2.117 2.067 1.00 1.00 .25 3.094 30 *Calculated using Standard UL CRR formula, UL Fire Protection Directory, Category VIZY *The CRR is a ratio value used to measure the ability of a pipe to withstand corrosion. Threaded Schedule 40 steel pipe is used as the benchmark(value of 1.0). SYSTEM COMPATIBLE '.*, Wheatland Tube Company Effective February 23, 2009 Coated Black Sprinkler Pipe 700 South Dock Street, Sharon, PA 16146 Ph 800.257.8182 Fax 724.346.7260 www.wheatland.com 0309 1.OMrev03 4. tqCO Fire & Building Products CENTRAL Customer Service/Sales: Technical Services:Tel: (800)381-9312/Fax: (800)791-5500 Tel:(215)362-0700/(800)523-6512 www.tyco-fire.com Fax:(215) 362-5385 Grinnell Grooved Fire Protection Products Grooved Fittings General Material: Limited Cast:Figures:201,210,219,250,260,501,510, Description 519,510DE,501S,510S and 519S- Warranty See Fire Protection Ductile iron conforming to ASTM A 536, Products manufactured by Tyco Fire Products are LPCBVd SSubmittal Sheet for Grade 65-45-12 warranted solely to the original Buyer for ten(10) Pressure Rating and Fabricated Steel: Figures 391, 392, 393, 312, years against defects in material and workmanship a Listing/Approval Information 313, 321,327, 341 and 350 Carbon Steel, (Sizes 11/4" 6"are Schedule 40); when paid for and properiyinstalled and maintained - ® (Sizes 8"-12"are Schedule 30), under normal use and service. This warranty will (Sizes 8"-12"ming to ASTMA5le30),3 B expire ten(10)years from date of shipment by Tyco confoFire Products. No warranty is given for products or The grooved fittings provide an economical Protective Coatings: components manufactured by companies not and efficient method of changing direction, •Non-lead orange paint affiliated by ownership with Tyco Fire Products orfor adding an outlet, reducing, or capping •Fire brigade red(optional)non-lead paint products and components which have been subject grooved piping systems. Grooved fittings •Hot dipped galvanized conforming to ASTM to misuse,improper installation,corrosion,orwhich are available in durable ductile iron or A-153 have not been installed, maintained, modified or fabricated steel as indicated. repaired in accordance with applicable Standards of Note: Figure 510S and 519S fittings are Ordering the National Fire Protection Association (NFPA), special short radius fittings with smaller and/orthestandards of any other Authorities Having center to end dimensions than standard Procedure Jurisdiction.Materials found by Tyco Fire Products grooved fittings. Depending on the size and When placing an order,indicate the full product to be defective shall be either repaired orreplaced,at coupling used,there maybe interferences at name.Please specifythe quantity,figure number, Tyco Fire Products'sole option.Tyco Fire Products the bolt pads that require repositioning of the wall thickness,and size. neither assumes, nor authorizes any person to coupling orientation. The use of flange Grinnell Grooved Piping Products, valves, assumeforit,any otherobligation in connectionwith adapters is not recommended with Figures accessories and other products are available the sale of products or parts of products.Tyco Fire 510S and 519S fittings. Contact Tyco Fire throughout the U.S.,Canada,and internationally, Productsshallnotbe responsibleforsprinklersystem Products for details. through a network of distribution centers.You designerrorsorinaccurateorincompleteinformation WARNING may write directly or call 215-362-0700 for the supplied by Buyer or Buyer's representatives. The Fittings described herein must be installed distributor nearest you. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE and maintained in compliance with this document, LIABLE,IN CONTRACT,TORT,STRICT LIABILITY as well as with the applicable standards of the Care and OR UNDER ANY OTHER LEGAL THEORY, FOR National Fire Protection Association,in addition Maintenance INCIDENTAL, INDIRECT, SPECIAL OR to the standards of any other authorities having CONSEQUENTIAL DAMAGES,INCLUDING BUT NOT jurisdiction. Failure to do so may impair the The owner is responsible for the inspection, LIMITED TO LABOR CHARGES,REGARDLESS OF performance of this device. testing,and maintenance of their fire protection WHETHERTYCOFIREPRODUCTSWASINFORMED The owner is responsible for maintaining their system and devices in accordance with the ABOUT THE POSSIBILITY OF SUCH DAMAGES, fire protection system and devices in proper applicable standards of the National Fire Protection AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' operating condition.The installing contractor or Association (e.g., NFPA 25), in addition to the LIABILITY EXCEED AN AMOUNT EQUAL TO THE sprinkler manufacturershould be contacted with standards of any authority having jurisdiction. SALES PRICE. any questions. The installing contractor or product manufacturer THE FOREGOING WARRANTY IS MADE INLIEU OF should be contacted relative to any questions. ANY AND ALL OTHER WARRANTIES EXPRESS OR Technical Any impairment must be immediately corrected. IMPLIED. INCLUDING WARRANTIES OF It is recommended that automatic sprinkler MERCHANTABILITY AND FITNESS FOR A Data systems be inspected,tested,and maintained by PARTICULAR PURPOSE. Approvals: a qualified Inspection Service. UL,FM,ULC,VdS,and LPCB; Note: See Fire Protection Submittal Sheet for exact Listing/Approval information. Page 1 of 6 September 2004 TFP1810 a Page 2 of 6 TFP1810 Figures 201 , 210, 219, and 260 C to E Figure 201 Figure 210 Figure 219 Figure 260$ 45°Elbow 90°Elbow Tee End Cap ill -.i Nominal C to E Appx.Wt. C to E Appx.Wt. C to E Appx.Wt. E to E Appx.Wt. I Size Inches Lbs. Inches Lbs. Inches Lbs. Inches Lbs. C to E mm Kg. mm Kg. mm Kg. mm Kg. C to E 1.75 0.9 2.75 1.0 2.75 1.4 0.88 0.4 L�� a E I! 174 44.5 0.4 69.9 0.5 69.9 0.6 22.4 0.2 1'h„ 1.75 1.1 2.75 1.2 2.75 1.8 0.88 0.6 Figure 201 44.5 0.5 69.9 0.5 69.9 0.8 22.4 0.3 Figure 210 2.00 1.8 3.25 2.0 3.25 2.7 0.88 0.9 2 50.8 0.8 82.6 0.9 82.6 1.2 22.4 0.4 2'/2" 2.25 2.2 3.75 3.0 3.75 5.8 0.88 0.9 --CtoE� EtoE-1 57.2 1.0 95.3 1.4 95.3 2.6 22.4 0.4 2.25 2.2 3.75 3.0 3.75 5.8 0.94 1.1 111 i I 76.1 mm 57.2 1.0 95.3 1.4 95.3 2.6 23.9 0.5 .-.-.-.{. 1111 i b._._.{3_ 3„ 2.50 3.5 4.25 4.5 4.25 7.0 0.88 1.1 63.5 1.6 108.0 2.0 108.0 3.2 22.4 0.5 CtsE2.88 5.5 4.75 8.5 4.75 11.5 108.0mm - 73.0 2.5 120.7 3.9 120.7 5.2 miumw i Figure 260 4„ 3.00 5.2 5.00 8.5 5.00 11.8 1.00 2.6 • 76.2 2.4 127.0 3.9 127.0 5.4 25.4 1.2 Figure 2193.25 7.7 5.25 11.3 5.25 10.6 133.0mm 82.6 3.5 133.4 5.1 133.4 4.8 139.7mm 3.25 7.7 5.50 11.3 5.50 15.3 0.92 4.7 82.6 3.5 139.7 5.1 139.7 6.9 23.4 2.1 3.25 8.5 5.50 13.5 5.50 17.0 1.00 5.0 Friction Resistance* 5 82.6 3.9 139.7 6.1 139.7 7.7 25.4 2.3 (Expressed as Equivalent Straight Pipe) 3.50 12.0 6.00 14.6 6.00 13.9 - Elbow Tee 159.0mm 88.9 5.4 152.4 6.6 152.4 6.3 Size 90° 45° Branch Run 165.1mm 3.50 12.0 6.50 18.5 6.50 26.0 1.00 7.5 Inches Feet Feet Feet Feet 88.9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 mm Meters Meters Meters Meters 3.50 12.0 6.50 18.5 6.50 26.0 1.00 7.5 11/4 1.9 1.0 4.8 1.9 6" 88.9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 42.4 0.6 0.3 1.5 0.6 4.25 23.0 7.75 36.5 7.75 45.0 11/2 2.3 1.2 5.8 2.3 216.3mm 108.0 10.4 196.9 16.6 196.9 20.4 48.3 0.7 0.4 1.8 0.7 4.25 23.0 7.75 36.5 7.75 45.0 1.19 12.8 2 3.2 1.6 8.0 3.2 8" 108.0 10.4 196.9 16.6 196.9 20.4 30.2 5.8 60.3 1.0 0.5 2.5 1.0 4.75 31.0 9.00 60.0 9.00 72.1 1.25 20.0 21/2 3.9 2.0 9.8 3.9 10" 120.7 14.1 228.6 27.2 228.6 32.7 31.8 9.1 73.0 1.2 0.6 3.0 1.2 12" 5.25 40.0 10.00 67.0 10.00 92.5 1.25 36.0 76.1 mm 4.1 2.1 10.3 4.1 133.4 18.1 254.0 30.4 254.0 42.0 31.8 16.3 1.2 0.6 3.1 1.2 3 4.9 2.4 12.2 4.9 t -Available with tapped plugs,contact Tyco Fire&Building Products. 88.9 1.5 0.7 3.7 1.5 108.0 6.5 3.3 16.3 6.5 2.0 1.0 5.0 2.0 4 6.5 3.3 16.3 6.5 114.3 2.0 1.0 5.0 2.0 133.0 8.0 4.0 20.0 8.0 2.4 1.2 6.1 2.4 139.7mm 8.0 4.1 20.0 8.0 2.4 1.3 6.1 2.4 5 8.2 4.1 20.5 8.2 141.3 2.5 1.3 6.3 2.5 159.0 9.5 4.8 23.8 9.5 __ 2.9 1.4 72 2.9 165.1 mm 9.5 4.8 23.8 9.5 2.9 1.4 7.2 2.9 6 9.9 5.0 24.8 9.9 168.3 3.0 1.5 7.6 3.0 216.3mm 13.1 6.6 32.8 13.1 4.0 2.0 10.0 4.0 -8 13.1 6.6 32.8 13.1 219.1 4.0 2.0 10.0 4.0 10 16.5 8.3 41.3 16.5 273.0 5.0 2.5 12.6 5.0 12 19.9 9.9 49.7 19.9 323.4 6.1 3.0 15.1 6.1 For reducing tees and branches,use the value that is corrosponding to the branch size.Example:for 8"x 8"x 2'tee,the branch value 2'is 8.0 feet. • Friction resistance for all elbows and tees except Figures 510S and 519S. Page 3 of 6 TFP1810 Figures 501 , 510, 519 and 510DE CtoE C to E-I all I 11i �, i I C1IoE CtoE I j 6 CtoE L� 114 CtoE !1 -CtoE lilliMS 1 A�i�CtoE • Figure 501 Figure 510 Figure 519 Figure 510DE Figure 501 Figure 510 Figure 519 Figure 510DE 45°Elbow 90°Elbow Tee 90°Drain Elbow Nominal C to E Appx.Wt. C to E Appx.Wt. C to E Appx.Wt. C to E A B Appx.Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. Inches Inches !,Inches Lbs. mm Kg. mm Kg. mm Kg. mm mm mm Kg. 1,/4, 1.75 0.9 2.75 1.0 2.75 1.4 - - - - 44.5 0.4 69.9 0.5 69.9 0.6 11/2' 1.75 1.1 2.75 1.2 2.75 1.8 - - - - 44.5 0.5 69.9 0.5 69.9 0.8 2„ 2.00 1.8 3.25 2.0 3.25 2.7 50.8 0.8 82.6 0.9 82.6 1.2 21/2" 2.25 2.2 3.75 3.0 3.75 5.8 3.75 2.00 2.75 2.7 57.2 1.0 95.3 1.4 95.3 2.6 95.3 50.8 69.9 1.2 3„ 2.50 3.5 4.25 4.5 4.25 7.0 4.25 2.34 2.75 3.7 63.5 1.6 108.0 2.0 108.0 3.2 108.0 59.4 69.9 1.7 4„ 3.00 5.2 5.00 8.5 5.00 11.8 5.00 2.85 2.75 7.0 76.2 2.4 127.0 3.9 127.0 5.4 127.0 72.4 69.9 3.2 5„ 3.25 8.5 5.50 13.5 5.50 17.0 5.50 3.38 2.75 13.0 82.6 3.9 139.7 6.1 139.7 7.7 139.7 85.9 69.9 5.9 6„ 3.50 12.0 6.50 18.5 6.50 26.0 6.50 3.92 2.75 13.4 88.9 5.4 165.1 8.4 165.1 11.8 165.1 99.6 69.9 6.1 8„ 4.25 23.0 7.75 36.5 7.75 45.0 7.75 4.95 2.75 26.3 108.0 10.4 196.9 16.6 196.9 20.4 196.9 125.7 69.9 11.9 Figures 501S, 510S and 519S CtoE !�CtoE---I t CtoE C to E L=- im.i 1 Ct01 1 10 -!41E i--C to E �� l • Figure 501S Figure 510S° Figure 519S° Figure 501 S Figure 510S Figure 519S Friction Resistance 501S,510S&519S 45°Elbow 90°Elbow Tee (Expressed as Equivalent Straight Pipe) Nominal C to E Appx Wt. C to E Appx.Wt. C to E Appx.Wt. Elbow Tee Size Inches Lbs. Inches Lbs. Inches Lbs. Size 90° 45° Branch Run mm Kg. mm Kg. mm Kg. Inches Feet Feet Feet Feet 2„ 2.00 1.8 2.75 1.5 2.75 2.1 mm Meters Meters Meters Meters 50.8 0.8 69.9 0.7 69.9 1.0 • 2 3.2 1.6 8.0 3.2 21/2" 2.25 2.2 3.00 2.2 3.00 3.0 60.3 1.0 0.5 2.5 1.0 57.2 1.0 76.2 1.0 76.2 1.4 21/2 3.9 2.0 9.8 3.9 76.1mm 2.25 2.2 3.00 2.3 3.00 3.1 73.0 1.2 0.6 3.0 1.2 57.2 1.0 76.2 1.0 76.2 1.4 4.1 2.1 10.3 4.1 3„ 2.50 3.5 3.38 3.0 3.38 4.1 76.1 mm 12 0.6 3.1 1.2 63.5 1.6 85.9 1.3 85.9 1.9 3 4.9 2.4 12.2 4.9 4„ 3.00 5.2 4.00 5.6 4.00 7.7 88.9 1.5 0.7 3.7 1.5 76.2 2.4 101.6 2.6 101.6 3.5 4 6.5 3.3 16.3 6.5 139.7mm 3.25 7.7 4.88 8.6 4.88 12.0 114.3 2.0 1.0 5.0 2.0 82.6 3.5 124.0 3.9 124.0 5.4 8.0 4.1 20.0 8.0 5" 3.25 8.5 4.88 8.8 4.88 12.0 139.7mm 2.4 1.3 6.1 2.4 82.6 3.9 124.0 3.9 124.0 5.4 5 8.2 4.1 20.5 8.2 165.1- 3.50 12.0 5.50 11.00 5.50 15.0 141.3 2.5 1.3 6.3 2.5 88.9 5.4 139.7 5.0 139.7 6.8 9.5 4.8 23.8 9.5 6„ 3.50 12.0 5.50 11.2 5.50 15.2 165.1 mm 2.9 1.4 7.2 2.9 88.9 5.4 139.7 5.1 139.7 6.9 6 9.9 5.0 24.8 9.9 8„ 4.25 23.0 6.88 23.4 6.88 31.2 168.3 3.0 1.5 7.6 3.0 108.0 10.4 174.8 10.6 174.8 14.2 8 13.1 6.6 32.8 13.1 *Note:Figure 510S and 519S fittings are special short radius fittings with smaller center to end dimensions 219.1 4.0 2.0 10.0 4.0 than standard grooved fittings.Depending on the size and coupling used,there may be interferences at the bolt pads which requires repositioning of the coupling orientation.The use of flange adapters is not recommended with Figures 510S and 519S fittings.Contact Tyco Fire Products for details. • I Page 4 of 6 TFP1810 Figures 250 and 350 Figures 250 and 350 Concentric Reducer-Groove x Groove Nominal E to E Appx.Wt. Nominal E to E Appx.Wt. Nominal E to E Appx.Wt. [-EtoEl Size Inches Lbs. Size Inches Lbs. Size Inches Lbs. Inches mm Kg. Inches mm Kg. Inches mm Kg. *2 x 1'/< 2.50 1.0 3.50 4.2 4.00 5.8 MN '139.7mm x 3 `6 x 5 63.5 0.5 88.9 1.9 101.6 2.6 12.2 '2 x 11/2 2.50 1.3 '139.7mm x 4 3.50 4.4 8 x 2 5.00 63.5 0.6 88.9 2.0 1270 5.5 Figure '2yzx2x 2.50 1.2 51/z 3.50 4.6 8x2Yz 5.00 12.1 9 63.5 0.5 88.9 2.1 127.0 5.5 Cast 2.50 1.5 3.50 4.6 5.00 12.0 *76.1,,,x11/2 63.5 0.7 5 x 2 88.9 2.1 8 x 3 127.0 5.5 2 63.5. 0.8 88.9 2.0 127.0 5.450 1.6 3.50 4.5 5.00 11.9 -EtoE--I 76.1mmx2 5x2Yz 8x4 3x1'/a 2.50 1.3 5 x 3 3.50 4.4 8x5 5.00 11.3 63.5 0.6 88.9 2.0 1270 5.1 ---------- 3 x 1Yz 2.50 1.3 ,5 x 4 3.50 4.5 8 x 6 5.00 10.8 __ 63.5 0.6 88.9 2.0 1270 4.9 '3x2 2.50 1.3 *165.1mmx3 4.00 5.5 6.00 21.9 10x4 Figure 350 63.5 0.6 101.6 2.5 152.4 10.0 Fabricated '3 x 21/2 3.00 1.5 •165.1 mm x 4 4.00 6.0 6.00 21.6 10 x 5 Sizes 3"to 6" 76.2 0.7 101.6 2.7 152.4 9.8 3 x 76.1 mm 3.00 2.0 4.00 5.6 10 6 6.00 21.1 76.2 0.9 *165.1,,,,,x 139.7mm x 101.6 2.5 152.4 9.6 f---E to E-13.00 2.2 4.00 6.0 6.00 19.5 4x1'/< '6x2 10x8 76.2 1.0 101.6 2.7 152.4 8.9 11_ 3.00 2.3 4.00 6.0 7.00 28.0 4x1Yz 76.2 1.0 6x2'/z 101.6 2.7 12x4 177.8 12.7 7.00 30.0 `4 x 2 3.00 2.3 *6 x 76.1 mm 4.00 6.0 12 x 6 76.2 1.0 101.6 2.7 177.8 13.6 Figure 350 3.00 2.3 4.00 6.0 7.00 28.0 Fabricated *4x21/2 76.2 1.0 6 x 3 101.6 2.7 12 x 8 177.8 12.7 Sizes 8"to 12" 3.00 3.2 4.00 5.9 7.00 33.0 *4x76.1r,m 76.2 1.5 *6x4 101.6 2.7 12 x 10 177.8 15.0 4 x 3 3.00 2.6 "6 x 139.7 4.00 6.3 mm 76.2 1.2 101.6 2.9 Note:Sizes marked with an asterisk(-1 are only available in Figure 250 Cast. Sizes without an asterisk are only available in Figure 350 Fabricated. ADA CAP® Patented Pipe Nominal Dimensions Size Outlet OAD. TakBout Center to EDnd Net. Inches NPT* Inches Inches Inches Inches Lbs. D-.--i Inches mm mm mm mm Kg 1/2 1.25 1.75 1.89 0.77 31.8 44.5 48.0 0.3 � 1.900 1.25 1.75 1.89 0.77 c 11/2 3/4 48.3 31.8 44.5 48.0 0.3 1---- Bi 1.37 2.00 2.02 0.88 l 1 34.8 50.8 51.3 g.4._ A --111 1.25 1.75 1.89 0.92 l2 31.8 44.5 48.0 0.4 2.375 1.25 1.75 1.89 0.92 2 3/< 60.3 31.8 44.5 48.0 0.4 1 1.37 2.00 2.02 1.06 34.8 50.8 51.3 0.5 /z 1.47 1.97 1.89 1.28 37.3 50.0 48.0 0.6 2'/2 3/4 2.875 1.47 1.97 1.89 1.28 73.0 373 50.0 48.0 0.6 1 1.37 2.00 2.02 1.50 34.8 50.8 51.3 0.7 * ISO-7 threaded outlets are available upon request. Page 5 of 6 TFP1810 Figures 391 , 392, 393, 312 and 313 E to E- 1 Figures 391, Figure 312 Figure 313 392 and 393 221/2°Elbow 111/4°Elbow Adapter Nipples Figure Nominal E to E Appx.Wt. C to E Appx.Wt. C to E Appx.Wt. Inches Lbs. Inches Lbs. Inches Lbs. Size mm Kg. mm Kg. mm Kg. 4.0- -EtoE� 11/4" 101.6 0.8 44.1.75 0.4 31 .18 0.4 _ 0.4 44.5 0.2 35.1 0.2 11/i' 4.00 0.9 1.75 0.5 1.38 0.5 Figure 101.6 0.4 44.5 0.2 35.1 0.2 2" 4.00 1.2 1.88 0.6 1.38 0.6 101.6 0.5 47.8 0.3 35.1 0.3 21/2" 4.00 1.9 2.00 0.7 1.50 1.1 EtoE-_,.I - 101.6 0.9 50.8 0.3 38.1 0.5 3„ 4.00 2.5 2.25 1.4 1.50 1.2 101.6 1.1 57.2 0.6 38.1 0.5 Figure 6.00 5.5 2.63 2.4 1.75 2.2 393 4° 152.4 2.5 66.8 1.1 44.5 1.0 5„ 6.00 7.4 2.88 4.1 2.00 3.3 152.4 3.4 73.2 1.9 50.8 1.5 C�` 6„ 9.5 3.13 5.6 2.00 4.6 152.4 4.3 79.5 2.5 50.8 2.1 Figure 8„ 6.00 14.2 3.88 11.1 2.00 8.7 312 152.4 6.4 98.6 5.0 50.8 3.9 C to EMI 8.00 27.0 4.38 14.0 2.13 9.1 10 203.2 12.2 11.3 6.4 54.1 4.1 C to E _- Figure 16.78.00 33.0 4.88 22.0 2.25 12, 203.2 15.0 124.0 10.0 57 2 7.6 Miliallio C to E 313 OMMEMMI Figures 327 and 341 -C to E Figure 341 Figure 327 150 lbs. Cross Flange Adapter Nominal C to E Appx.Wt. E to E Appx.Wt. Size nches Lbs. Inches Lbs. mm kg. mm kg. 11/4„ 2.75 2.0 4.00 2.8 69.6 0.9 101.6 1.3 C to E 11/2„ 2.75 2.2 4.00 3.2 II 1 69.9 2.0 101.6 1.5 5.2 2„ 3.25 2.7 4.0 82.6 1.2 101.6 2.4 Figure 327 3.75 5.0 4.00 8.0 21/2 95.3 2.3 101.6 3.6 3„ 4.25 7.1 4.00 10.2 108.0 3.2 101.6 4.6 5.00 11.9 6.00 17.2 I 1 4„ 127.0 5.4 152.4 7.8 I ' I I 11 I 5.50 17.1 6.00 21.4 5 139.7 7.8 152.4 9.7 EtoE I6.50 27.5 6.00 26.0 i j I 6" 165.1 12.5 152.4 11.8 j 8„I 7. 75 47.0 6.00 38.4 Figure 341 196.9 21.3 152.4 17.4 10" 9.00 68.0 8.00 65.0 228.6 30.8 203.2 29.5 10.00 107.0 8.00 91.0 12" 254.0 48.5 203.2 41.3 Page 6 of 6 TFP1810 Figure 321 I- ctoE-I Figure 321 Reducing Tee - Nominal C to E Appx.Wt. Nominal C to E Appx.Wt. -__________ Size Inches Lbs. Size Inches Lbs. 1 Inches mm Kg. Inches mm Kg. _ -- 3.25 2.0 6.50 26.6 /zx1/zx1/a 6x6x4 C to E 82.6 0.9 165.1 12.1 i 3.25 2.7 6.50 27.0 I 1 2x2x1/z 82.6 1.2 6x6x5 165.1 12.2 Figure 321 2Yzx2Yzx1Y< 3.75 4.2 8x8x2 7.75 36.2 95.3 1.9 196.9 16.4 2Yzx2Yzx1Yz 3.75 4.2 8x8x3 7.75 36.5 95.3 1.9 196.9 16.6 2Yzx2Yzx2 3.75 4.3 8x8x4 7.75 36.6 95.3 2.0 196.9 16.6 3x3x1'/z 4.25 5.3 8x8x5 7.75 36.8 108.0 2.4 196.9 16.7 4.25 5.5 7.75 37.0 3x3x2 108.0 2.5 8x8x6 196.9 16.8 3x3x2Yz 4.25 5.8 10x10x2 9.00 57.1 108.0 2.6 228.6 25.9 4x4x1Y< 5.00 9.8 10x10x3 9.00 57.4 127.0 4.4 228.6 26.0 4x4x1'/z 5.00 9.9 10x10x4 9.00 57.6 127.0 4.5 228.6 26.1 4x4x2 5.00 10.1 10x10x5 9.00 57.8 127.0 4.6 228.6 26.2 4x4x2'/z 5.00 10.3 10x10x6 9.00 58.0 127.0 4.7 228.6 26.3 4x4x3 5.00 10.5 10x10x8 9.00 58.4 127.0 4.8 228.6 26.5 5 x 5 x 2 5.50 14.5 12 x 12 x 3 10.00 80.2 139.7 6.6 254.0 36.4 5x5x21/2 5.50 14.8 12 x 12 x 4 10.00 80.5 139.7 6.7 254.0 36.5 5x5x3 5.50 15.2 12x12x5 10.00 80.7 139.7 6.9 254.0 36.6 5x5x4 5.50 15.8 12 x 12 x 6 10.00 80.9 139.7 7.2 254.0 36.7 6x6x2 6.50 26.5 12x12x8 10.00 91.4 165.1 11.9 254.0 41.5 6x6x21/2 6.50 26.5 12x12x10 10.00 91.8 165.1 12.0 254.0 41.6 6x6x3 6.50 26.5 165.1 12.0 4111, General Notes: It is the Designer's responsibility to select products suitable for the intended service and to ensure , ISO that pressure ratings and performance data is not exceeded.Always read and understand the installation instructions 9001 /m (IH-1000). Never remove any piping component or correct or modify any piping deficiencies without first , ARV) depressurizing and draining the system. Material and gasket selection should be verified to be compatible for the specific application. Certified Company TYCO FIRE PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19946 Printed U.S.A. CENTRAL THREADED FITTINGS 10-01 Threaded Fittings AIIII 411111111111111 a Tyco Fire Products---www.tyco-grooved.com CENTRAL 451 North Cannon Avenue, Lansdale, Pennsylvania 19446---USA Customer Service/Sales:Tel: (215)362-0700/Fax: (215)362-5385 Grooved Piping Products Technical Services: Tel: (800)381-9312/Fax: (800)791-5500 it General Technical Ordering Description Data MIMI Procedure Ordering information:When placing Figures: 811, 812, 813, 814, 815, an order, indicate the full product ® ® See Fire Protection 816, 817, 818, 820, 825, 827, name. Please specify the quantity, Submittal Sheet for 830, 719, California Tees, and pressure ran Listingfigure number and size. rating and Street Elbows and Approval information Sizes: ,/z"-21h" Availability and Service:Grooved Maximum Working Pressure: Piping Products, valves, accessories Ductile Iron threaded fittings (with 800 Series, California Tees, and other products are available the exception of California Tees and and Street Elbows: 300 psi throughout the U.S., Canada, and Street Elbows)conform to ANSI Figure 719: 250 psi internationally, though a network of B16.3. They are higher in strength Approvals: UL, and FM distribution centers. You may write and more corrosion resistant than Note:See Fire Protection directly or call 215-362-0700 for the cast iron fittings. The additional Submittal Sheet for exact distributor nearest you. strength is provided by the ductile Listing/Approval information. properties making up the fitting. This Manufacture Source: is accomplished by adding Imported magnesium while the iron is being Material: Care and poured into it final cast shape.This Ductile Iron, conforming to provides an advantage as the ANSI B16.3 (Note: Figure 719 Maintenance fittings are not as susceptible to Plugs are constructed of Cast leaks or cracking and they are also Iron) The owner is responsible for the lighter than standard cast iron. Thread: N.P.T. inspection, testing, and Caution:Installers who have not used maintenance of their fire protection ductile iron threaded fittings before system and devices in accordance should be instructed that the fittings with the applicable standards of the are stronger than the pipe and over- Installation National Fire Protection Association tightening the fitting can create leaks (e.g., NFPA 25), in addition to the and cause damage to pipe threads. In standards of any authority having general, there is about one-half turn jurisdiction. The installing contractor difference between cast iron and Apply Teflon Tape or high quality or product manufacturer should be ductile iron fittings.Apply Teflon tape pipe joint compound on the male contacted relative to any questions. or high quality pipe joint compound on pipe threads and tighten two to Any impairment must be the male pipe threads and tighten two three turns beyond hand tight. immediately corrected. to three turns beyond hand tight. If (See caution in first column) It is recommended that automatic you are using an automatic make-on sprinkler systems be inspected, machine, please exercise caution in tested, and maintained by a setting your machine to the proper qualified Inspection Service. parameters prior to tightening fittings onto the male pipe threads. No.21-3.0 , Figure 811 90°Elbow Size A B Part Weight Box TA- Inches Inches Inches Number Lbs. Qty. 1/2 11/8 9/16 86206 0.24 240 ~c~ 3/4 15/16 3/4 86205 0.40 120 ' �� 1 11/2 13/16 86200 0.64 70 B E , f � ! g l _ F_ i 11/4 13/4 1'/16 86201 0.95 40 Fi ure 815 A 1s 3 Reducing Tee 1 /2 1 /,s 1 /,s 86202 1.24 30 A D , �'�®� 2 21/4 11/2 86203 1.74 20 21/2 211/,6 19/16 86204 3.28 10 MIMI Size A B C 0 E F Part Wt. Box _B_ Inches Inches Inches Inches Inches Inches Inches Number Lbs. Qty. 3/4 x 3/4 x 1/2 13/16 13/16 11/4 5/8 5/8 71/16 86235 0.46 95 1 D_ 1 3/4 X 3/4 X 1 17/16 17/16 13/6 7/8 7/8 71/16 86755 0.68 65 Figure 812 1 x1/2 x 1 11/2 13/8 1'/2 13/16 73/16 13/16 86236 0.70 55 90°Reducing Elbow �, f 1 X 3/4 X 1/2 11/4 13/16 13/8 9/16 5/8 13/16 86756 0.63 80 EiM7 j 1 X 3/4 X 3/4 1 3/8 15/16 1 7/16 11/16 3/4 7/8 86757 0.68 65 1 x 3/4 x 1 11/2 17/16 11/2 13/16 7/8 13/16 86237 0.77 55 Size A B C D Part Weight Box 1 x 1 x 1/2 11/4 11/4 13/8 9/16 9/16 t3/16 86238 0.66 65 Inches Inches Inches Inches Inches Number Lbs. Qty. 1x 1x3/4 13/8 13/8 17/16 11/16 11/16 7/8 86239 0.73 60 3/4 x 1/2 13/16 13/16 5/8 5/8 86342 0.33 160 1 x 1 x11/4 1'1/16 111/16 19/16 1 1 7/8 86240 0.97 45 1 x 1/2 11/4 13/8 9/16 13/16 86210 0.44 110 1 x 1 x 11/2 113/16 113/16 15/8 11/8 11/8 7/8 86241 1.14 35 1 x 3/4 13/8 17/16 11/16 7/8 86211 0.53 90 11/4 x 1 X 1/2 115/16 11/4 19/16 5/8 9/16 1 86242 0.81 50 11/4 X 1/2 15/16 11/2 5/8 15/16 862122 0.64' 75 11/4 x 1 x 3/4 17/16 13/8 .15/8 3/4 11/16 11/16 86243 0.90 50 11/4 X 3/4 17/16 15/8 3/4 11/16 86213 0.75 60 11/4 X 1 x 1 19/16 11/2 111/16 7/8 13/16 1 86244 1.03 45 11/4 x 1 19/,6 111/16 7/8 1 86214 0.77 55 11/4x 1 x11/4 13/4 111/16 13/4 11/16 1 11/16 86245 1.10 40 11/2x 3/4 11/2 13/4 3/4 13/16 86221 0.95 45 11/4x 1x 11/2 17/8 113/16 113/16 13/16 11/8 11/16 86246 1.43 30 1'/2 X 1 15/e 113/16 7/8 1'/8 86215 0.99 40 1'/4x 1'/4x'/2 13/8 13/8 19/16 11/16 11/16 1 86247 0.87 45 1'/2 X 11/4 113/16 17/8 11/8 13/16 86216 1.14 35 11/4x 11/4x3/4 17/16 17/16 15/8 3/4 3/4 11/16 86248 0.96 45 2 x 3/4 15/8 115/,6 • 7/8 13/8 86217 1.39 30 11/4x11/4x1 19/16 19/16 111/16 7/8 7/8 1 86249 1.10 40 2 x 1 13/4 21/16 2 15/1e 86218 1.58 25 11/4x11/4x11/2 17/8 17/8 113/46 113/16 113/16 11/16 86250 1.50 30 2 x 1'/2 2 23/16 1'/4 17/16 86220 1.67 20 11/4x11/4X2 2'/8 2'/8 2 17/16 17/16 11/8 86251 2.00 24 2'/2 x 2 23/8 25/e 1'/4 17/8 86262 3.01 15 11/2 x 1 X 1/2 17/16 15/16 111/16 "/16 5/8 11/8 86252 0.97 40 11/2 x 1 x 3/4 11/2 13/8 13/4 3/4 77/16 13/,6 86253 1.14 40 1'/2 x 1 x 1 15/8 1'/2 113/16 7/8 13/16 1'/8 86254 1.14 30 11/2 x 1 x 11/2 115/16 113/16 1'5/,6 13/16 1'/8 13/16 86255 1.52 30 Figure 813 11/2X 11/4 x 1/2 17/,6 15/16 111/16 11/16 5/8 1'/8 86257 1.03 40 45°Elbow 11/2x 11/4X3/4 11/2 17/16 13/4 3/4 3/4 13/16 86258 1.10 40 Size A B Part Weight Box .- Inches Inches Inches Number Lbs. Qty. 11/2x 11/4x 1 15/8 19/16 113/16 7/8 7/8 1'/8 86259 1.31 30 A� /z /e 3/8 86780 0.22 250 11/2x 11/4x2 23/,6 21/8 2 17/16 17/16 11/4 86260 1.94 20 3 11/2x 11/2x1/2 P/16 Phs 1"/16 11/16 "/16 11/8 86261 1.14 35 /4 1 /,6 86781 0.33 150 BI/Noto 1 1'/e 3/16 86280 0.48 90 11/2x11/2x3/4 11/2 11/2 13/4 3/4 3/4 13/16 86262 1.23 35 A B 11/4 15/16 5/s 86281 0.73 50 11/2x11/2x1 15/8 15/8 113/16 7/8 7/8 11/8 86263 1.38 30 J_Oiliiiliii 1 1/2 1 7/16 11/16 86282 0.93 35 11/2X11/2x1'/4113/16 113/16 17/8 11/16 1'/16 13/16 86264 1.50 30 2 1'1/16 15/16 86283 1.55 18 11/2x11/2x2 23/16 23/,6 2 17/16 17/16 11/4 86265 2.00 20 2'/2 11$/16 . 1 86782 2.70 12 2 x 1 x 2 21/4 2 2'/4 1'/2 15/16 1'/2 86266 2.18 15 2x11/4x2 21/4 21/8 2'/4 1'/2 17/16 1'/2 86267 2.31 15 2 x1 1/2 X 1/2 11/2 17/,6 17/8 3/4 11/16 15/,6 86268 1.50 30 2 X 11/2x 3/4 15/e 11/2 1 15/16 7/8 3/4 13/8 86269 1.61 25 Figure 814 2X 11/2 x 1 13/4 15/8 2 1 7/8 15/16 86270 1.65 20 Tee - Size A B Part Weight Box 2x1'/2x1'/2 21/16 115/16 23/16 15/16 13/16 17/16 86272 2.03 20 I-A 1 Inches Inches Inches Number Lbs. Qty. 2x1'/2x2 2'/4 23/16 21/4 1'/2 17/16 11/2 86273 2.37 15 1 SEEEISEJ 1/2 11/8 9/16 86340 0.33 150 2 x 2 x 1/2 1'/2 11/2 17/8 3/4 3/4 15/16 86222 1.50 30 A B_F 3/4 15/16 3/4 86341 0.50 90 2 x2 x3/4 15/8 15/8 115/,6 7/8 7/8 13/8 86223 1.67 20 '�B 1 1'/2 13/16 86230 0.85 ▪ 60 2x 2x 1 13/4 13/4 2 1 1 15/16 86224 1.91 20 ! 1'/4 13/4 11/16 86231 1.30 • 35 2 x 2 x 11/4 1'/8 17/8 2'/8 11/8 11/8 17/16 86225 2.05 20 11/2 115/16 13/,6 86232 1.63 24 2 x 2 x11/2 2 2 23/,6 11/4 11/4 11/2 86226 2.11 15 WEEM 2 ' 2'/4 1'/2 86233 2.63 12 2 x 2 x 21/2 25/8 25/8 23/8 13/4 17/e 17/16 86227 3.67 10 2'/2 2"/,6 19/16 86234 4.55 8 21/2 x 2 x 3/4 13/4 15/e 25/,6 5/8 7/8 13/4 86274 2.22 15 -2- Figure 816 Figure 825 Reducing Coupling Extension Piece Size AB Part Weight Box Size A Part Weight Box 1 Inches Inches Inches Number Lbs. Qty. Inches Inches Number Lbs. Qty. } J 3/4x 1/2 13/4 "/16 86772 0.38 240WM 1/2x 11/2 11/2 72751 0.20 300 + A1 x1/2 1t1/16 1/2 86228 0.38 200 1/2 x 2 2 72980 0.27 250 IF 1! 1 x 3/4 13/4 2 86229 0.53 110 3/4 X 11/2 11/2 72981 0.22 250 A I 3/4 x 2 2 72982 0.31 200 C A---I-.-A- MEEMEM ' I���� Figure 817 i c- f I i Figure 827 -_ Cross 1 ' `c 1 ' Hex Bushing �� I _� Size A B C D Part Weight Box Size A Part Weight Box Inches Inches Inches Inches Inches Number Lbs. Qty. Inches Inches Number Lbs. Qty. 1 1'/2 11/2 13/16 13/16 86284 0.97 45 1 x 1/2 11/16 72726 0.22 280 11/4 13/4 13/4 11/16 11/16 86285 1.59 25 1 x 3/4 11/16 72762 0.18 280 11/2 115/16 115/16 13/16 13/16 86286 1.89 20 11/4x 1 13/16 72763 0.31 150 221/4 21/4 11/2 11/2 86287 2.93 10 11/2x 1 11/4 72757 0.53 100 11/4 x 11/4 x 1 x 1 .. 111/16 .. 19/16 1 7/8 86289 1.25 30 11/2 x 11/4 11/4 72764 0.35 100 11/2x 11/2x 1 X 1 • 113/16 • 15/8 11/16 115/16 86322 1.48 24 2 x 1 13/8 72759 0.75 80 2 x2 x 1x 1 2 13/4 11/4 11/16 86291 2.64 10 2 x 11/4 13/8 72761 0.69 80 2 x 11/2 13/8 72775 0.62 80 1' --r--'1 1 MINS Figure 818 B A N j A Figure 830 A Straight Coupling Brass Seat Union 1111111111 rrI- 1 Size A B Part Weight Box Size A B Part Weight Box Inches Inches Inches Number Wrench Lbs. Qty. Inches Inches Inches Number Lbs. Qty. 1/2 13/8 _ 5/16 72779 11/8 0.18 360 1/2 17/8 13/16 86207 0.47 110 3/4 15/B 9/16 72778 13/8 0.26 200 3/4 2 75/16 86275 0.66 80 1 13/4 3/8 72755 111/16 0.44 110 1 23/16 13/16 86276 1.08 50 11/4 2 9/16 72754 2 0.54 75 11/4 21/2 11/16 86277 1.54 35 11/2 23/16 3/4 72753 21/4 0.71 60 11/2 25/8 13/16 86278 2.03 25 2 25/8 11/8 72752 i 23/4 1.15 30 2 31/8 15/8 86279 3.15 18 21/2 3 3/4 72758 33/8 2.29 18 Figure 820 Size A Part Weight Box Figure 719 Size A Part Weight Box Cap Cast Iron Plug Inches Inches Number Lbs. Qty. Inches Inches Number Lbs. Qty. ..--------... I 1/z /B 72776 0.15 500 1/2 15/15 86292 0.10 500 q 3/4 1 72777 0.22 300 _MM 1 3/4 11/8 86293 0.18 300 j 1 13/16 72824 0.33 180 A 1 11/4 86294 0.28 200 1'/4 15/16 72756 0.54 110 �_ I 11/4 13/8 86295 0.50 110 11/2 13/8 72822 0.68 80 I 11/2 17/16 86296 0.70 80 2 11/2 72823 0.96 45 2 11/2 86297 0.90 45 21/2 13/4 72825 1.80 25 -3- I • A A^1 Street Elbows c c —lir I F ir an,„„,„„ iippll California TeesDD IIIIIIIIII III A B I T�liG1 I 3Wil�i1 Size A B C Part Weight Box Size A B C D Part Weight Box Inches Inches Inches Inches Number lbs. Qty. Inches Inches Inches Inches Inches Number lbs. Qty. 1 x 1/2 1'/2 3/4 3 42003 0.70 80 1 x 1/2 x 1 11/2 7/8 3 3/4 42000 0.95 50 1 x 1 1'/2 3/4 3 42002 0.90 60 1 x 1 x 1 1'/2 3/4 3 3/4 42001 0.95 45 ra Limited which have not been installed, IN NO EVENT SHALL TYCO FIRE maintained, modified or repaired in PRODUCTS BE LIABLE, IN Warranty accordance with applicable CONTRACT, TORT, STRICT Standards of the National Fire LIABILITY OR UNDER ANY Protection Association (NFPA), OTHER LEGAL THEORY, FOR Products manufactured by Tyco and/or the standards of any other INCIDENTAL, INDIRECT, Fire Products are warranted solely Authorities Having Jurisdiction. SPECIAL OR CONSEQUENTIAL to the original Buyer for ten (10) Materials found by Tyco Fire DAMAGES, INCLUDING BUT NOT years against defects in material Products to be defective shall be LIMITED TO LABOR CHARGES, and workmanship when paid for either repaired or replaced, at Tyco REGARDLESS OF WHETHER and properly installed and Fire Products' sole option. Tyco TYCO FIRE PRODUCTS WAS maintained under normal use and Fire Products neither assumes, nor INFORMED ABOUT THE service. This warranty will expire authorizes any person to assume POSSIBILITY OF SUCH ten (10) years from date of for it, any other obligation in DAMAGES, AND IN NO EVENT shipment by Tyco Fire Products. No connection with the sale of products SHALL TYCO FIRE PRODUCTS' warranty is given for products or or parts of products. Tyco Fire LIABILITY EXCEED AN AMOUNT components manufactured by Products shall not be responsible EQUAL TO THE SALES PRICE. companies not affiliated by for sprinkler system design errors THE FOREGOING WARRANTY IS MADE ownership with Tyco Fire Products or inaccurate or incomplete IN LIEU OFANYAND ALL OTHER or for products and components information supplied by Buyer or WARRANTIES EXPRESS OR IMPLIED. which have been subject to misuse, Buyer's representatives. INCLUDING WARRANTIES OF improper installation, corrosion, or MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. General Notes:It is the Designer's responsibility to select products suitable for the intended service and to ensure that _ roTh- 41111111*pressure ratings and performance data is not exceeded. Never remove any piping component nor correct or modify any M piping deficiencies without first depressurizing and draining the system. Material and gasket selection should be verified m . e 0 to be compatible for the specific application. 4411 il ar, Chi:I MO $MPANY t qCO/Flow Control/Tyco Fire Products -4- Printed U.S.A. 10-01 •I •l w FireLock STYLES 009H/009/009V t Q 4r21 • Read and understand all instructions before attempting to install any Victaulic piping products. ""�� • Depressurize and drain the piping system before attempting to install, remove, or adjust any Victaulic piping products. • Wear safety glasses, hardhat,and foot protection. Gasket Grade Color Code Mark Failure to follow these instructions could result in serious personal injury, improper product installation, and/or property 3. CHECK GASKET:Check the gasket to make sure it is suitable damage. for the intended service.The color code identifies the gasket grade. Refer to Victaulic publication 05.01 in the G-100 General Catalog or the 1-100 Field Installation Handbook for the color INSTRUCTIONS FOR THE INITIAL INSTALLATION code chart. NOTE: GASKETS FOR 009H COUPLINGS ARE OF STYLE 009H/009/009V COUPLINGS NOT INTERCHANGEABLE WITH GASKETS FOR 009/009V COUPLINGS. IFNOTICE _. • Victaulic Style 009H/009/009V Couplings are designed for use ONLY on wet and dry fire protection systems(temperatures greater than—40°F/-40°C). For rigid pipe connections in sys- tems operating below 0°F/-18°C,Victaulic recommends Style 005 FireLock Rigid Couplings with Grade"L"(silicone)gaskets. • Victaulic Style 009H/009/009V Couplings are provided with the Vic-PIusTM gasket system.Additional lubrication is not required for the initial installation of wet pipe systems that are installed at or continuously operating above 0°F/-18°C. Refer to Victaulic publication 05.03 in the G-100 General Catalog for the Vic-Plus • MSDS sheet. Supplemental lubrication is required for Vic-Plus gaskets only if any of the following conditions exist. If any of these conditions 1. DO NOT DISASSEMBLE THE COUPLING:Style 009H/009/009V exist, apply a thin coat of Victaulic lubricant or silicone lubricant to Couplings are installation ready.These couplings are designed the sealing lips of the gasket interior only. so that the installer does not need to remove the bolts and nuts • If the gasket has been exposed to fluids prior to installation for installation.This design facilitates installation by allowing the • If the surface of the gasket does not have a hazy appearance installer to directly install the grooved end of pipe/mating compo- • If the gasket is being installed into a dry pipe system nents into the coupling. • If the system will be subjected to air tests prior to being filled 2. CHECK PIPE/MATING COMPONENT ENDS:The outside sur- with water face of the pipe/mating component, between the groove and • If the gasket was involved in a previous installation the pipe/mating component end,must be smooth and free from indentations, projections,and roll marks to ensure a leak-tight • If the gasket sealing surface of the pipe contains raised or seal.All oil,grease,dirt,and cutting particles must be removed. undercut weld seams, or cracks or voids at the weld seams. Measurements taken across grooved pipe/mating component ends However, lubricated gaskets may not enhance sealing capabili- must not exceed the maximum allowable flare diameter. Refer to ties on all adverse pipe conditions. Pipe condition and pipe current Victaulic specifications for the maximum allowable flare preparation must conform to the requirements listed in product diameter. installation instructions. www.victaulic.com VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY.©2009 VICTAULIC COMPANY.ALL RIGHTS RESERVED.PRINTED IN THE USA. Acta L lI1C' n r , nnn,unnC.mnni, INSTALLATION INSTRUCTIONS 1—V J.71 1/V J.7/V V. V • RigidFireLock EZT'A Coupling STYLES 009H/009/009V i . F. : • • ��. <' 4.'s .....,.<. `�"�:, ,..Tr ; "z"''..,,a • Never leave a Style 009H/009/009V • For Victaulic rigid, angle-pad couplings,the nuts must be Coupling partially assembled. A par- tightened evenly by alternating sides until metal-to-metal C tially assembled Style 009H/009/009V contact occurs at the bolt pads. • Coupling poses a drop hazard. • For Victaulic rigid,angle-pad couplings, equal offsets must be • Keep hands away from the pipe/mating present at the bolt pads. component ends and the openings of the • Keep hands away from coupling openings during tightening. coupling when attempting to insert the grooved end of pipe/mating components Failure to follow these instructions could cause joint failure, into the coupling.0serious personal injury, and property damage. Failure to follow these instructions could 1111Rg, cause serious personal injury and/or n . property damage. -, '"• - - „ . 4..,,,,,, ..::::-;-:: , 4'%, _ _. s - 111 v ; 4. ASSEMBLE JOINT:Assemble the joint by inserting the grooved end of a pipe/mating component into each opening of the cou ��� piing.The ends of the grooved pipe/mating components must be f%' , inserted into the coupling until contact with the center leg of the I ti gasket occurs.A visual check is required to ensure the coupling keys align with the grooves in the pipe/mating components. . NOTE:When assembling Style 009H/009/009V Couplings onto end caps,take additional care to ensure the end cap is seated fully against WI the center leg of the gasket. DO NOT use Non-Victaulic fittings with Style 009H/009/009V Couplings. Use only FireLock No.006 End Caps _ ` containing the"EZ" marking on the inside face or No.60 End Caps containing the"QV EZ" marking on the inside face. " "rr 5. TIGHTEN NUTS:Tighten the nuts evenly by alternating sides until metal-to-metal contact occurs at the angle bolt pads. Make sure the housings'keys completely engage the grooves and the offsets are equal at the bolt pads.This is necessary to ensure a rigid joint. NOTE: It is important to tighten the nuts evenly to prevent gasket pinching. An impact wrench or standard socket wrench can be used to bring the bolt pads into metal-to-metal contact. Refer to the"Impact Wrench Usage Guidelines"section on page 4. www.victaulic.com VICTAULIC ISA REGISTERED TRADEMARK OF VICTAULIC COMPANY.©2009 VICTAULIC COMPANY.ALL RIGHTS RESERVED.PRINTED IN THE USA. iC+tauliC• r nnnnr.ne.nrr.,nnr n nrir r • INSTALLATION INSTRUCTIONS I-vvI 1/l./V ivv. V t-irecock EZTM Rigid STYLES 009H/009/009V u' INSTRUCTIONS FOR RE-INSTALLATION OF I,.,, ,. --;,„ ;-1-17-1,,, . '''..:,'''',;:,I I STYLE 009H/009/009V COUPLINGS Since the coupling housings conform to the outside diameter of the a ''r:•..1:1. - pipe/mating component during an initial installation, direct installation — " of the pipe/mating components into the coupling may not be possible • tir .4} upon re-installation. If this is the case, refer to the following steps for re- installing the coupling. 1. Make sure the system is depressurized and drained completely _ before attempting to disassemble any couplings. 2. Follow steps 2—3 on page 1. BAD .:' . z ,4f2,..!;;..,,,,...' ''''''''''':::::,,il, w- 3. FOR RE-INSTALLATION OF STYLE 009H/009/009V COUPLINGS, LUBRICATE GASKET:Apply a thin coat of Victaulic lubricant or silicone lubricant to the gasket sealing lips and exterior. NOTE: GASKETS FOR 009H COUPLINGS ARE NOT INTERCHANGEABLE WITH GASKETS FOR 009/009V COUPLINGS. s -;',-- 6. Visually inspect the bolt pads at each joint to ensure metal-to- ,�- �'Ws , metal contact is achieved. 1 " r t .1---",r41117•1 NOTICE • Visual inspection of each joint is critical. Improperly assembled joints must be corrected before the system is plHaced in service. j f./ GOOD BAD r I Pipe End ,,, 1 Center Leg ,,,_ H # of Gasket 4. INSTALL GASKET: Insert the grooved end of a pipe/mating corn- PROPERLY PROPERLY IMPROPERLY IMPROPERLY ponent into the gasket until it contacts the center leg of the gasket. ASSEMBLED ASSEMBLED ASSEMBLED ASSEMBLED JOINT JOINT JOINT JOINT POSITIVE OFFSET NEUTRAL OFFSET NEGATIVE BOLT PAD WITH BOLT PAD WITH BOLT PAD OFFSET GAP CONTACT CONTACT Drawings are exaggerated for clarity • "Negative"bolt pad offsets can occur when the nuts are not tightened evenly, which produces over-tightening of one side and under-tightening of the other side. In addition, "negative"offsets can occur if both nuts are under-tightened. www.victaulic.com VICTAULIC ISA REGISTERED TRADEMARK OF VICTAULIC COMPANY.©2009 VICTAULIC COMPANY.ALL RIGHTS RESERVED.PRINTED IN THE USA. �CtaUI7Cs FireLock Rigid STYLES 009H/009/009V 40/\ 1.11 ;, o -*110101111111111 5. JOIN PIPE/MATING COMPONENTS:Align the two grooved ends of the pipe/mating components. Insert the other pipe/mating com- ponent end into the gasket until it contacts the center leg of the 8. INSTALL REMAINING BOLT/NUT: Install the remaining bolt,and gasket. NOTE: Make sure no portion of the gasket extends into the thread the nut finger-tight onto the bolt. NOTE: Make sure the oval groove of either pipe/mating component. necks of the bolts seat properly in the bolt holes. 9. TIGHTEN NUTS: Follow steps 5 and 6 on pages 2 and 3 to com- plete the assembly. HELPFUL,INFORMATION Nut Socket Size Size Slze Actual Pipe Nominal Size Outside Diameter inches/ inches/ inches inches/mm Metric Metric a_. 11/4 4 1.660-4.500 % 42.4-114.3 M10 17 IMPACT WRENCH USAGE GUIDELINES • Nuts must be tightened evenly by alternating sides until metal- to-metal contact occurs at the bolt pads. For angled bolt-pad 6. ASSEMBLE HOUSINGS: Insert one bolt into the housings,and couplings, even offsets must be present at the bolts pads to thread the nut loosely onto the bolt to allow for the"swing-over" obtain pipe-joint rigidity. feature,as shown above. NOTE:The nut should be backed off no further than flush with the end of the bolt. • DO NOT continue to use an impact wrench after the visual installation guidelines for the coupling are achieved. Failure to follow these instructions could cause gasket pinching and coupling damage, resulting in joint failure, serious personal injury,and property damage. When using an impact wrench,the speed of assembly may require extra care to ensure nuts are tightened evenly by alternating sides until proper assembly is complete. Refer to the Victaulic assembly instructions sup- �t, plied with the product. �f Impact wrenches do not provide the installer with direct"wrench feel" or torque to judge nut tightness.Since some impact wrenches are capa- ble of high output, it is important to develop a familiarity with the impact wrench to avoid damaging or fracturing bolts or coupling bolt pads e during installation. DO NOT continue to use an impact wrench after the visual installation guidelines for the coupling are achieved. Perform trial assemblies with the impact wrench and socket or torque wrenches to help determine the capability of the impact wrench. Using 7. INSTALL HOUSINGS: Using the"swing-over"feature, install the the same method, periodically check additional nuts throughout the housings over the gasket. Make sure the housings'keys engage system installation. the grooves properly on both pipes/mating components. For safe and proper use of impact wrenches,always refer to the impact wrench manufacturer's operating instructions. In addition,verify that proper impact grade sockets are being used for coupling installation. For complete contact information,visit www.victaulic.com _ 1-009H/009/009V 4079 REV C UPDATED 08/2009 Z000009000 V1ctaulic VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY.©2009 VICTAULIC COMPANY.ALL RIGHTS RESERVED.PRINTED IN THE USA. nnni.1innnrnnnv fall1_ :=-) Deringerifil A i BACKFLOW 17+ouble Check Valve The Deringer 20(x) Double Check Valve Assembly is = 4.. designed to prevent non-health hazard pollutants from entering the potable water supply system caused by <' backpressure anchor backsiphonage conditions. Sizes: 2%", 3" 4" 6", 8" t �, a S1 Working Pressure: 10-17 Spsi 0.7-12.1 bar) . .•'` ti` �•y t Temperature Range: 33°140°F(1'-60°C) .•,,i '� 4) C ' End Connections j .., HORIZONTAL > L -IPS Groove for Steel Pipe: A WW4 C606 —_ -Flange Adapters: ANSI 1316.1 Class 125 ui WED {lt11:19* ()USG AsW.i7 1 Lead Free; 0.25%Maximum by Weight te.A.p tct w , NE,. ,P„ Apt OVFr) ,W, ; 1 Integral Shut-Off Valves Dual Actionlm Check Modules Prewired Supervisory Indoor/Outdoor Application _•Poppet Action at Low Flow Switches II •Swing Action at High Flow •Patent Pending 10 ._ I Silicone Elastomer Lr Check Discs 100%Stainless - ,./ ;''. =m . ....� Flange Adapters Steel Housing ,,., , .a .__. _ w .. Available o111 i ,�".�. lil �. :: _._ _. -_ ,, IPS Grooved Ends Tamper Resletent Test Cocke III /WSW .merilgiiielieriaggPeeifiCatiOng The Deringer 20(x) Double Check Valve shall utilize two independent Dual Action Check modules and two integral resiliently seated shut-off valves all of which shall be contained within a single rigid valve housing constructed entirely of 304 stainless steel. Both integral shutoff valves shall include pre-wired supervisory tamper switches contained within a weatherproof actuator housing approved for both indoor and outdoor use.Dual Action Check modules shall operate as a "poppet style" check under low flow conditions, operate as a "swing style" check under high flow conditions and utilize replaceable silicone elastotner sealing discs. Assembly test cocks shall be handle-less and operate via a tamper resistant actuator.Assembly shall have a single full access service port and cover with an"inline"replaceable elastomer seal. Assembly shall be serviceable without special tools and approved for both horizontal and vertical applications. Job Name: Contractor: Job Location: Approval: Engineer: Contractor's P.O.No: Approval: Representative:__.._ Backflow Direct,LLC • 3290 Monier Circle• Rancho Cordova•California•95742 •United States of America Phone: 916-760-4524 Website: www.backflowdirect.com ti, , t �lz (20) c, j q. (20) {DC7} 12 _.. z.. _ }. i _. fid, y 1 0 „; A., _ �: it; a. 0 100 200 300 400 500 600 700 800 Rated Flow A - UL Tested O - 15 fps `f Rate of Flow (gpm) tie!itor Gai Jrierttniran (1lam) ?:314 30;'- 4 542 6(61 7571 9055 16 - ,. ! 7? 2 14 .. 8" (20) 1. yr 6" (20x) cn J 8 ch 4 — 213 0. 0 - , (01, 0 400 800 1200 1600 2000 2400 'Specific orientation&agency flow characteristics available on website Rate of Flow(gpm) Horizonta:Orientation ltreasures 4 •m .. ` H I i \ Ht D c. -i ,. Hb i........t.____ _ . L __...-. _ -._ k. -_ - � _...... Site +41 {1 Hb L Ea D _._ W ►1Vht Sc in mm m in mm in tttm in mm in mm in mm in mm lbs PIPS" 2 Y2 65 20 7.1180 2.9 74 18.7 475 214 65 0.0 0 10.0 254 11.0 279 38 17 4 3._.. 80 20 ___7 4_. 188 -2.9 74 18,7 475 3 80 0.0 0 10.3 262 11.0 -279- 40 18 W.- 4 100 20 7.9 201 3.1 79 18.7 475 4 100 �0.2 5 11,0 279 11.0 279 42 19 � 'W� 6 150 -20x 8.7 221 ..__ 428 122 28A 721 6.._..150 1.0 25 13.5 343 13.8 351 122-56-.___�;_._ 8 200 20 10 4 264 5.4 137 30 7 780 8 200 _ 1.8- 13.8 46 15 8 401 351 141' 64 W Valve Housing: 304 Stainless Steel SOV Bearings: Teflon/Bronze Check Springs: 17-7 Stainless Steel Valve Cover: 304 Stainless Steel Non Wetted Bolts: Grade 8 Zinc Plated Check Pins: 17-7/18-8 Stainless Steel SOV Disks: EPDM/304SS Wetted Fasteners: 18-8 Stainless Steel Cheek Seats: Notyl Polymer(NSF) SOV Shafts: 304 Stainless Steel Check Disks: Silicone(NSF) 0-Rings: Bursa N(NSF) Backflow Direct,LLC • 3290 Monier Circle• Rancho Cordova•California-95742• United States of America Phone: 916-760-4524 Website: www.backflowdirect.com -tCD Fire Suppression & Building Products Technical Services 800-381-9312 I+1-401-781-8220 www.tyco-fire.com Model CV-1F Check Valves 2 to 12 Inch (DN5O to DN300) General The Model CV-1F Check Valves described herein must be installed Description and maintained in compliance with this11 document and with the applicable stan- The TYCO Model CV-1F Check Valve is dards of the National Fire Protection a compact and rugged swing-type unit Association, in addition to the stan that allows water flow in one direction dards of any authorities having juris- andprevents flow in the oppositediction. Failure to do so mayimpair the direr- p tion. A resilient elastomer seal facing performance of this device. x > on the spring-loaded clapper ensures Owners are responsible for maintain x,$ a leak-tight seal and non-sticking o er- in their fireVINVf° 9 9 p g protection system and �° ation.The Model CV-1F Check Valves devices in proper operating condition. are designed to minimize water hammer The installing contractor or manufac- caused by flow reversal. turer should be contacted with any The Model CV-1F Check Valve is questions. furnished with grooved ends and can be installed using Grinnell Grooved Technical Couplings or GRINNELL Figure 71 Installation Flange Adapters. The Model CV-1F Data Check Valves have been designed The Model CV-1F Check Valves are with a removable cover for ease of field to be installed in accordance with the maintenance. These valves can be Approvals UL, instructions: installed horizontally(with cover in the UL, C-UL, and FM following 1.The upward position) or vertically with the Sizes arrow castthe Body must flow in the upward direction. Refer to 2 to 12 Inch (DN50 to DN300) point in the direction of the flow. Figure 4. 2.Valves installed vertically must be Maximum Working Pressure positioned with the flow in the up- A Maintenance Check Valve Kit 300 psi (20,7 bar) ward direction. (TFP1555) is available to allow the maintenance procedure of back- Valve Assembly Finish 3.Valves installed horizontally must be flushing through the fire department Red, non-lead paint positioned with the Cover facing up. connection without removing the Model Refer to Figure 4. CV-1F Check Valve from the pipe line. 4.Grooved end pipe couplings used The Model CV 1F Check Valves are a with the Model CV-1F Check Valve redesign for the Central Figure 590F mant fabinstalledurersiin accordancens. with and GRINNELL Figure 590F. manufacturer's instructions. NOTICE Never remove any piping component nor correct or modify any piping defi- ciencies without first de-pressurizing and draining the system. Failure to do so may result in serious personal injury, property damage, and/or impaired device performance. Page 1 of 4 OCTOBER 2010 TFP1550 TFP1550 Page 2 of 4 • ! • B - - A - ow — OM AIM MIN '111.111M11.1.1.14 1 j .11 II 1 Ike) I II O ♦ Fl D.D. Mil D IlL 1.1b 1/2" — — NPT 1/2" NPT j f E - F -- Nominal Pipe Size Nominal Dimensions Inches(mm) Cover Approx. - Bolt Torq. Weight ANSI O.D. Lbs.-ft. Lbs. Inches Inches A B C D E F J (Nm) (kg) DN (mm) 2 2.375 6.75 4.38 2.55 2.57 3.25 4.75 1.62 18 9.0 DN50 (60,3) (171,5) (111,3) (64,8) (65,3) (82,3) (120,7) (41,5) (25) (4,5) 2-1/2 2.875 8.00 5.80 3.41 3.40 3.88 6.00 1.70 39 10.0 DN65 (73,0) (203,2) (147,3) (86,6) (86,4) (98,6) (152,4) (43,2) (54) (4,5) 76,1 - 8.00 5.80 3.41 3.40 3.88 6.00 1.70 39 10.00 DN65 (76,1) (203,2) (147,3) (86,6) (86,4) (98,6) (152,4) (43,2) (54) (4,5) 3 3.500 8.37 5.76 3.60 3.40 3.88 6.00 1.70 39 11.0 DN80 (88,9) (212,6) (146,3) (91,4) (86,4) (98,6) (152,4) (43,2) (54) (5,0) 4 4.500 9.63 6.74 4.61 3.63 4.56 7.13 1.84 50 25.0 DN100 (114,3) (244,6) (171,2) (117,1) (92,2) (115,1) (181,1) (46,7) (69) (11.3) 139.7 - 10.50 7.50 5.29 4.20 4.90 7.60 1.90 39 29.0 DN125 (139.7) (266,7) (190,5) (134,4) (106,7) (124,5) (193,0) (48,3) (54) (13.2) 5 5.563 10.50 7.50 5.29 4.20 4.90 7.60 1.90 39 29.0 DN125 (141,3) (266,7) (190,5) (134,4) (106,7) (124,5) (193,0) (48,3) (54) (13,2) 165.1 - 11.50 8.05 5.75 4.50 5.00 7.60 1.48 60 47.0 DN150 (165.1) (292,1) (204,5) (146,1) (114,3) (127,0) (193,0) (37,6) (82) (21,3) 6 6.625 11.50 8.05 5.75 4.50 5.00 7.60 1.48 60 47.0 DN150 (168,3) (292,1) (204,5) (146,1) (114,3) (127,0) (193,0) (37,6) (82) (21,3) 8 8.625 14.00 10.25 7.75 5.62 5.45 8.40 2.20 120 66.0 DN200 (219,1) (355,6) (260,4) (196,9) (142,7) (138,4) (213,4) (58,9) (164) (29,9) 10 10.750 18.00 13.00 10.21 6.38 7.50 10.50 3.00 130 109.7 DN250 (273,1) (457,2) (330,2) (259,3) (162.1) (190.5) (266,7) (76,2) (178) (49,4) 12 12.750 21.00 14.28 11.31 7.26 7.62 10.62 2.75 130 151.0 DN300 (323,9) (533,4) (362,7) (287,2) (184,4) (193,5) (269,7) (69.9) (178) (68,0) FIGURE 1 MODEL CV-1F CHECK VALVES NOMINAL DIMENSIONS TFP1550 • Page 3 of 4 8 4,16 18 17 9 :Irl�llfllfflffflfllr1 5 8 ILII 111111IIma III"h/iiI ill ■■ ■■ 2 SEE -... l� I I ) VIEW A %/%/// : 2 7 9 2 7 5 3 vi ►q ■ N 2 -8" 10" -12" "`+"` `` C����� +_ (DN50-DN200) (DN250-DN300) PallAliaw ` �\��` VIEW A n 13 '• I D iii SEE 5 ( % 13 11,16 L 1..zbvx,,,,. A.IDETAIL B 11 Mil 1 14,16 Y MI■ ,, _dug ' / di 19 1 �0.1117f. M```. 1 2"/-8" 6 5 10"-12" 6 $ (DN50-DN200) (DN250-DN300) DETAIL B Detail Part Material Qty. Detail Part Material Qty. Detail Part Material Qty. 1 Body Ductile Iron 1 6 Clapper EPDM 1 14 Locknut Stainless 1 Facing Grade"E" Steel 2 Cover Ductile Iron 1 7 Spring Stainless 1 15 Plug- Cast Iron 2 Steel 1/2"-14 NPT Cover Hinge Stainless Thread 3 Gasket Nitrile Rubber 1 8 Shaft Steel 1 16 Adhesive Sealer AR Hex Cap Steel,Zinc Retaining Stainless 4 Screw Plated AR 9 Ring Steel AR 17 Nameplate Aluminum 1 Clapper Stainless Retention Stainless 2 -8" Steel 11 Bolt Steel 1 18 Rivet Steel 2 5 (DN50-200) 1 Clapper Retaining Stainless Stainless 10"-12" Ductile Iron 13 Disc Steel 1 19 Spacer Steel (DN250-300) FIGURE 2 MODEL CV-1F CHECK VALVES ASSEMBLY FLOW RATE IN LITRES PER MINUTE(LPM) (1 GPM=3,785 LPM) 500 700 1000 2000 3000 5000 7000 10000 20000 30000 50000 5.0tiliJil°tIl Il) I 1 t t 1 It ) til 111 I IJ111, Mt 1 ll ) II1 1 l 1 I t , 1 lilt Alli Ui_ h �A 0,30 IIIIIIIIIIIIIIIIIIIIIII4.0 mm .•• ��0 2 , ;r w = in occ O= ammurair 3.0 =V�, ?V O +) 0,20 m Ali w w n%A `� c.> pJIMINIIIIMIMIIIIAIIMENWIMI/ 0< cc cc 2.0 ��FAN Z `02 00 o Lo m � a �.ii■i C. 4) c1'r �� o CC w I LI a -IIII1II,� h Z Q < O o CC _�/.111�I� 2 n§ 0,10 0) 0 CL J CC w —�IIV4 —mitimar co =v Q. Q2 0,09 w u Q a � _ _1'I� — w c.) ,� -0,08 a u_ gO 1.0 � ....�— 2V _ 0,07 a O D 0.9 �■■��-,�► �� ry 0 06 z .� z a 0.8 /li■���5 _ 2 z 0.7 li ', ._ =0,05 z 0.6 - _0,04 . /0.5 r — 100 200 300 400 600 1000 2000 3000 4000 6000 10000 15000 FLOW RATE IN GALLONS PER MINUTE(GPM) FIGURE 3 MODEL CV-IF CHECK VALVES PRESSURE LOSS DATA TFP1550 Page 4 of 4 . Care and Limited TFSBP was informed about the possi- bility of such damages, and in no Maintenance Warranty event shall TFSBP's liability exceed an amount equal to the sales price. Products manufactured by Tyco Fire The foregoing warranty is made in lieu NOTICE Suppression & Building Products of any and all other warranties, express Before closing a fire protection system (TFSBP) are warranted solely to the or implied, including warranties of main control valve for maintenance original Buyer for ten(10)years against merchantability and fitness for a partic- work on the fire protection system defects in material and workmanship ular purpose. that it controls, obtain permission to when paid for and properly installed shut down the affected fire protection and maintained under normal use This limited warranty sets forth the system from the proper authorities and and service. This warranty will expire exclusive remedy for claims based on notify all personnel who may be affect- ten (10) years from date of shipment failure of or defect in products, materi- ed by this decision. by TFSBP. No warranty is given for als or components,whether the claim is products or components manufac- made in contract,tort, strict liability or After placing a fire protection system tured by companies not affiliated by any other legal theory. in service, notify the proper authorities ownership with TFSBP or for products This warranty will apply to the full and advise those responsible for moni- and components which have been extent permitted by law.The invalidity, toring proprietary and/or central station subject to misuse, improper instal- in whole or part, of any portion of this alarms. lation, corrosion, or which have not warranty will not affect the remainder. Responsibility lies with owners for the been installed, maintained, modified inspection,testing, and maintenance of or repaired in accordance with appli- Ordering their fire protection system and devices cable Standards of the National Fire in compliance with this document, as Protection Association, and/or the stan- Procedure well as with the applicable standards of dards of any other Authorities Having the National Fire Protection Association Jurisdiction. Materials found by TFSBP Contact your local distributor for avail- (for example, NFPA 25), in addition to to be defective shall be either repaired ability.When placing an order, indicate the standards of any authority having or replaced, at TFSBP's sole option. the full product name and Part Number jurisdiction. The installing contractor TFSBP neither assumes,nor authorizes (P/N). or product manufacturer should be any person to assume for it, any other contacted relative to any questions. obligation in connection with the sale of Model CV-1F Check Valves Any impairments must be immediately products or parts of products.TFSBP Specify: size and P/N (below). corrected. shall not be responsible for sprinkler system design errors or inaccurate or 2"(DN50) P/N 59-590-0-020 Automatic sprinkler systems are recom- incomplete information supplied by 2-1/2"(DN65) P/N 59-590-0-025 mended to be inspected, tested, and76,1 mm(DN65) P/N 59-590-0-076 maintained by a qualified Inspection Buyer or Buyer's representatives. 3"(DN80) P/N 59-590-0-030 Service in accordance with local In no event shall TFSBP be liable, in 4"(DN100) P/N 59-590-0-040 requirements and/or national codes. contract, tort, strict liability or under 139,7 mm(DN125) P/N 59-590-0-139 any other legal theory, for inciden- 5"(DN125) P/N 59-590-0-050 tal, indirect, special or consequential 165,1 mm(DN150) P/N 59-590-0-165 damages, including but not limited to 6"(DN150) P/N 59-590-0-060 labor charges, regardless of whether 8"(DN200) P/N 59-590-0-080 10"(DN250) P/N 59-590-0-100 12"(DN300) P/N 59-590-0-120 OUTLET COVER f FLOW ' O II 1, 'INLET ,'r OUTLET COVER ;I_ ' IIC•7 II gyp(. - INLET FLOW VERTICAL ORIENTATION HORIZONTAL ORIENTATION FIGURE 4 MODEL CV-1F CHECK VALVES INSTALLATION Copyright© 2008-2010 Tyco Fire Suppression&Building Products.All rights reserved. tqcc., Fire & Building Products Technical Services: Tel: (800) 381-9312/ Fax: (800)791-5500 Model BFV-N Butterfly Valve Grooved End 2-1/2 Inch - 10 Inch (DN65 - DN250) General Technical Description Data I The Model BFV-N Grooved End But- Model '� terfly Valves(Ref. Figure 1)are indicat- BFV-N ing type valves designed for use in fire Sizes:ANSI Inches/DN t protection systems where a visual in- 2-1/2 (DN65), 3(DN80), dication is required as to whether the 4(DN100), 5 (DN125), valve is open or closed.They are used, 6(DN150), 8 (DN200), 10 (DN250) for example, as system, sectional, and pump water control valves. They have The 2-1/2 through 10 inch (DN65 - ' cut groove inlet and outlet connections DN250) Model BFV-N Grooved End that are suitable for use with grooved Butterfly Valves are UL and C-UL List- ) end pipe couplings that are listed and ed and FM Approved. approved for fire protection systems. In addition, the Model BFV-N Grooved For applications requiring supervision End Butterfly Valves are listed by the of the open position of the valve, the California State Fire Marshall under Gear Operators for the Model BFV-N Listing No.7770-1670:100. Butterfly Valves are provided with two sets of factory installed internal All laboratory listings and approvals are switches each having SPDT contacts. for indoor and outdoor use. Friction Loss The supervisory switches transfer their Maximum Working Pressure The approximate friction loss, based electrical contacts when there is move- • 2-1/2-8 Inch (DN65- DN200): on the Hazen Williams formula and ex ment from the valve's normal open po- 300 psi (20,7)bar pressed in equivalent length of pipe sition during the first two revolutions of with C= 120, is as follows. The data is handwheel.ringt • 10 Inch (DN250): based on friction loss information col- the175 psi (12,0 bar) lected at a typical flow rate of 15 feet WARNINGS Materials of Construction: per second. The Model BFV-N Grooved End But- Body • 6.9 feet of 2-1/2 inch Sch. 40 pipe terfly Valves described herein must be Ductile iron conforming to ASTM A-395 for the 2-1/2 inch valve. installed and maintained in compliance Body Coating • 8.7 feet of 3 inch Sch. 40 pipe for with this document, as well as with the Polyamide the 3 inch valve. applicable standards of the National Disc • 4.5 feet of 4 inch Sch. 40 pipe for Fire Protection Association, in addition Ductile iron conforming to ASTM A-395 the 4 inch valve. to the standards of any other authori Disc Seal • 6.6 feet of 5 inch Sch. 40 pipe for ties having jurisdiction. Failure to do Grade EPDM"E"encapsulated rubber the 5 inch valve. so may impair the performance of conforming to ASTM D-2000 • 11.1 feet of 6 inch Sch. 40 pipe for these devices. Upper&Lower Stem the 6 inch valve. Theowner is responsible for maintain-their re protection system and de- Type 416 Stainless Steel conforming • 10.2 feet of 8 inch Sch. 30 pipe for g to ASTM 582 the 8 inch valve. vices in proper operating condition. The installing contractor or sprinkler Lower Plug • 12.1 feet of 10 inch Sch.30 pipe for manufacturer should be contacted PVC the 10 inch valve. with any questions. Operator Gear operator with iron housing Page 1 of 4 MAY, 2008 TFP1510 Page 2 of 4 TFP151O . Nominal Nominal Installation Dimensions in Inches and(mm) Weight Pipe Valve Sizes O.D. A B C D E F G H (kg; 2-1/2" 2.88 3.85 11.71 3.25 5.43 6.00 7.81 2.50 22 DN65 (73,0) (98,0) (297,4) (83,0) (137,9) (152,4) (198,4) (63,5) 0 (10,0) 3" 3.50 3.85 12.25 3.54 5.68 6.00 7.81 2.50 23 DN80 (88,9) (98,0) (311,1) (90,0) (144,2) (152,4) (198,4) (63,5) 0 (10,4) 4" 4.50 4.56 13.95 4.35 6.58 6.00 7.81 2.50 28 DN100 (114,3) (116,0) (354,3) (110,0) (167,1) (152,4) (198,4) (63,5) 0 (12,7) 5" 5.56 5.86 14.93 4.84 7.07 6.00 7.81 2.50 31 DN125 (141,3) (149,0) (379,2) (123,0) (179,6) (152,4) (198,4) (63,5) 0 (14,1) 6" 6.63 5.86 17.31 5.93 8.35 6.00 7.81 2.50 0.67 41 DN150 (168,3) (149,0) (439,7) (151,0) (212,0) (152,4) (198,4) (63,5) (17,0) (18,6) 8" 8.63 5.26 19.20 6.87 9.29 6.00 7.81 2.50 5.86 53 DN200 (219,1) (134,0) (487,7) (174,0) (236,0) (152,4) (198,4) (63,5) (148,8) (24,1) 10" 10.75 6.29 25.11 9.17 11.50 9.00 7.68 3.00 7.41 88 DN250 (273,1) (160,0) (637,8) (233,0) (292,1) (228,6) (195,1) (76,2) (188,2) (40,0) INDICATOR y G F 1 HANDWHEEL FLAG 1/2"NPT CONDUIT III qaIL CONNECTION OPERATOR Lam- , E �"/1 BODY ill ■ D B L ■ DISC ■ I III A -I� FIGURE 1 MODEL BFV-N GROOVED END BUTTERFLY VALVE -NOMINAL DIMENSIONS- TFP151O Page 3 of 4 Installation The Model BFV-N Grooved End But- r -1 terfly Valves may be installed with flow I I—SUPERVISORY in either direction and can be posi- SWITCH tioned either horizontally or vertically. The grooved end pipe couplings used I I SWITCH SHOWN with the Model BFV-N must be listed L — _ J WITH VALVEFULL OPEN or approved for fire protection service w w and installed in accordance with the ° ° ? a manufacturers instructions. r > 0 0 The Model BFV-N Butterfly Valve may be installed with any schedule of pres- sure class of pipe or tubing that is list- END OF LINE PANEL ed or approved for fire protection. RESISTOR As applicable, refer to Figure 2 for the internal switch wiring diagram. t_ -1 Conduit and electrical connections I I— AUXILIARY are to be made in accordance withGND I SWITCH //Kill the authority having jurisdiction and/ I • or the National Electrical Code. With I I SWITCH SHOWN reference to Figure 2, the "supervi- L J WITH VALVE sory switch" is intended for connec- o FULL OPEN tion to the supervisory circuit of a fire w w o w 0) alarm control panel in accordance with c o_ cc m NFPA 72. The "auxiliary switch" is in- C7 5 tended for the unsupervised connec- L • tion to auxiliary equipment in accor- - + ^ • BELL dance with NFPA 70, National Electric Code. POWER • + NOTE For outdoor applications with inter- nal supervisory switches, it is recom- mended that wiring connections be made at a temperature above 15°F CONTACT RATING .... 1/2A 125 VDC C (-9°C),in order to insure sufficient flex- 1 •2 1 15.1.1A/12HP @®125,250 VAC ibility of the wire lead insulation. 5A @ 125 VAC"L" Care and FIGURE 2 MODEL BFV-N BUTTERFLY VALVE Maintenance -INTERNAL SWITCH WIRING DIAGRAM- The owner is responsible for the in- spection,testing, and maintenance of their fire protection system and devic- NOTE es in accordance with the applicable Before closing a fire protection system standards of the National Fire Pro- control valve for maintenance or in- tection Association (e.g., NFPA25), in spection work on either the valve or fire addition to the standards of any au- protection system which it controls, thority having jurisdiction.The install- permission to shut down the affected ing contractor or product manufac- fire protection systems must be ob- turer should be contacted relative to tained from the proper authorities and any questions. Any impairment must all personnel who may be affected by be immediately corrected. this decision must be notified. It is recommended that automatic sprinkler systems be inspected, test- ed, and maintained by a qualified in- spection service. Page 4 of 4 TFP1510 Limited Ordering Warranty Procedure Products manufactured by Tyco Fire Grooved End Butterfly Valves: & Building Products (TFBP) are war- Specify: (specify inch size) Model ranted solely to the original Buyer for BFV-N Grooved End Butterfly Valve ten (10)years against defects in mate- with internal supervisory switches, rial and workmanship when paid for P/N (specify). and properly installed and maintained Valve Size Valve Part Number under normal use and service. This 2-1/2 59-300-F-025N warranty will expire ten (10)years from 3 59-300-F-030N date of shipment by TFBP. No warran- a 59-300-F-040N ty is given for products or components 5 59-300-F-050N manufactured by companies not af- 6 59-300-F-060N filiated by ownership with TFBP or for 8 59-300-F-080N products and components which have 10 59-300-F-100N been subject to misuse, improper in- stallation, corrosion, or which have not been installed,maintained,modified or repaired in accordance with applicable Standards of the National Fire Protec- tion Association, and/or the standards of any other Authorities Having Juris- diction. Materials found by TFBP to be defective shall be either repaired or re- placed, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob- ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect,special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties,ex- press or implied, including warranties of merchantability and fitness for apar- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. ©2008 TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale,Pennsylvania 19446 FIG. 171N International Brass Ball Valves /,NVVVV Star- Fire Products Division of Anvil"International ,r1ANYI4 Submittal Sheet The 171N Threaded Ball Valves are UL listed and FM Approved for use in fire protection systems. Valves have a rugged, dependable design, meeting rigid specification for residential, commercial and , industrial applications. The two piece 171N full port design is available in sizes 1/4" through 4". All valves conform to MSS-SP-110, MSS-SP-25 and Federal Specification WW-V-35B Type II, Class -"S A Style 3. The valves are available in triple stem seal, hard chrome plated ball, blow-out proof stem, adjustable packing gland, a bubble tight shut off and a floating ball for an economical solution. C14;> ) APPROVED For Listing/Approval details contact your AnvilStar"Representative. MATERIAL SPECIFICATIONS BODY: Brass,ASTM B124,Alloy C37700 FRICTION WASHER: PTFE RETAINER: Brass,ASTM B124,Alloy C37700 STEM 0-RING: NBR 75 Shore A BALL: Brass,ASTM 6124,Alloy C37700 Chrome Plated HANDLE: Steel,Zinc Plated to 2",Aluminum to 4" STEM: Brass,ASTM 8124,Alloy C37700 Nickel Plated HANDLE COVER: Yellow PVC Coated to 2",Yellow Enamel to 4" SEAT RING: PTFE HANDLE NUT: Steel,Zinc Plated PACKING: PTFE AVAILABLE OPTIONS* PACKING NUT: Steel,Zinc LEVER HANDLE: 1/4"-4" PACKING GLAND: Brass,ASTM B124,Alloy C37700 Nickel Plated PROJECT INFORMATION: APPROVAL STAMP: Project: Date: Phone: Architect/Engineer: Contractor: Address: Notes 1: Notes 2: PAGE 1 OF 2 Gruvlok & Mueller Valves & Indicator Posts For the latest UL/ULC Listed and FM Approved pressure ratings, versus pipe schedule, /- REV.03.03.06-006 go to www.anvilstar.com or contact your local AnvilStar representative oll,rlANVIL FIG. 171N International Brass Ball Valves AmiiStar- Fire Products Division of Anvil'International 0 ,i /MIWIL Submittal Sheet c { FIGURE 171N FULL PORT - DIMENSIONS Nominal Port A ( D (v Approx. uC. Size Dia. Wt.Ea. ill NPS/mm in./mm in./mm in./mm in./mm lbs/kg nAr OPORT D 7+ .39 2.02 3.85 75 6 .30 E. y 8 10 51 98 44 .14 ti I 3/e" .39 2.02 3.85 1.75 7 .28 i) 10 Si. 98 44 13 f i/ .59 2.44 3.85 1.88 19 .41 mom 15 15 62 98 48 .19 A 3/4" .78 2.71 4.80 2.28 35 .67 20 20 69 122 , 58 .31 1" .96 3.07 4.80 2.44 50 1.0 25 24 78 122 62 50 11/+" 1.25 3.42 6.02 3.01 104 2.0 32 32 87 153 79 .92 11 " 1.57 3.89 6.02 3.34 268 3.1 40 40 99 753 85 1.4 2" 1.96 4.33 6.37 3.79 309 4.2 50 50 110 162 96 1.9 21/2" 2.56 5.59 8.07 5.02 629 8.0 65 65 142 205 128 3 3" 3.15 6.45 8.07 5.45 1018 12.0 80 80 164 205 138 5.9 4" 3.94 1.60 10.23 6.34 1622 22 106 100 193 260 161 10 PRESSURE VS. TEMPERATURE NOTES 3.Rate of Flow Calculations for liquids: _ �P BAR P 00 q o L /,V L ! goo To determine the flow rate of a liquid ll S as passing through a valve,use the following 40- 600 formula: Where:(GG1tPM\ 1 )=flow of liquid in gallons per 500 LCj I 3D 1 400 Cv=flow coefficient co I AP=pressure drop(PSI) cc20- 300 Si.=specific gravity of liquid 200 10- 100 0- 0 -20 0 50 100 150 200 250 300 350 400 450 500'F I -28 0 50 100 150 200 250 'C TEMPERATURE PAGE 2 OF 2 Gruvlok & Mueller Valves & Indicator Posts For the latest UL/ULC Listed and FM Approved pressure ratings,versus pipe schedule, REV.03.03.06-007 go to www.anvilstar.com or contact your local AnvilStar representative � V�L tIIsI:P Worldwide Fire Protection Contacts www.tyco-fire.com Products Series TY-FRB, 5.6 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General NOTICE „ , , The TYCO Series TY-FRB Sprinklers Description described herein must be installed and maintained in compliance with this doc- o , ., The TYCO Series TY-FRB, 5.6 K-factor, ument, as well as with the applicable Upright (TY313) and Pendent (TY323) standards of the National Fire Protec 4` _, Sprinklers described in this data sheet tion Association,in addition to the stan- ` " are quick response,standard coverage, dards of any other authorities having decorative 3 mm glass bulb-type spray jurisdiction. Failure to do so may impair sprinklers designed for use in light or the performance of these devices. ordinary hazard,commercial occupan -:..--,-.:----r ': cies such as banks, hotels, and shop- The owner is responsible for maintain- ping aintain ping malls. ing their fire protection system and "' devices in proper operating condition. The recessed version of the Series TY- The installing contractor or sprinkler FRB Pendent Sprinkler,where applica- manufacturer should be contacted with _- ble, is intended for use in areas with a any questions. finished ceiling.This recessed pendent sprinkler uses one of the following: Sprinkler • A two-piece Style 15 Recessed �" �, Escutcheon with recessed adjust- , ment up to 5/8 inch (15,9 mm) rom Identification ` 11 the flush pendent position. Number (SIN) • A two-piece Style 20 Recessed Escutcheon with recessed adjust- TY313 Upright 5.6K, 1/2"NPT ment up to 1/2 inch (12,7 mm) from TY323 Pendent 5.6K, 1/2"NPT the flush pendent position. _ gip" The adjustment provided by the Technical Recessed Escutcheon reduces the Temperature Rating accuracy to which the fixed pipe drops Data 135°F(57°C) to the sprinklers must be cut. 155°F(68°C) Intermediate level versions of Series Approvals 175°F(79°C) UL and C-UL Listed 200°F(93°C) TY-FRB Sprinklers are described in FM, LPCB, and VdS Approved 286°F(141°C) Technical Data Sheet TFP357. Sprin- pP kler guards and shields are described CE Certified Finishes in Technical Data Sheet TFP780. Sprinklers with Polyester Finish are UL Sprinkler: Refer to Table A and C-UL Listed as Corrosion-Resis- Recessed Escutcheon: White Coated, tant Sprinklers. Chrome Plated, or Brass Plated Maximum Working Pressure Physical Characteristics 175 psi (12.1 bar) Frame Bronze 250 psi (17.2 bar)* Button Brass/Copper *The maximum working pressure of 250 psi Sealing Assembly Stainless IMPORTANT (17.2 bar)only applies to the listing by Un- Steel w/TEFLON Always refer to Technical Data derwriters Laboratories,Inc.(UL). Bulb Glass Sheet TFP700 for the "INSTALLER Discharge Coefficient Compression Screw Bronze WARNING"that provides cautions K=5.6 GPM/psitt2(80,6 LPM/barti2) Deflector Bronze with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently dam- age a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 FEBRUARY 2014 TFP172 TFP172 • Page 2 of 4 Components: *Temperature rating is ** Pipe thread connections per ISO 7-1 1 - Frame 4 - Bulb indicated on Deflector. can be provided on special request. 2 - Button 5 - Compression STYLE 15 or 20 3 - Sealing Screw ESCUTCHEON PLATE 1/2" 7/16"(11,1 mm) RECESSED Assembly 6 - Deflector* DEFLECTOR* SEATING SURFACE NPT** NOMINAL MAKE-IN ESCUTCHEON 6* I tirl ii9rT�, ffrrLIT-01, 5 �=' MIIM-7-- / 7/16" ■ R (11,1 mm) -- } u• c 4 I NOMINAL 2"W. I JD �� 2 WV I (50,8 mm) FrtERIII P': 2" N) 0/ 1-3/8" 3 w, r (50,8 mm) (34,9 mm) �_� WRENCH / I FLATS 1 4 1 . 1/2" NPT** DEFLECTOR* — 2-7/8" (73,0 mm)DIA. CROSS SECTION UPRIGHT PENDENT RECESSED PENDENT FIGURE 1 SERIES TY-FRB UPRIGHT(TY313)AND PENDENT(TY323)SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT, QUICK RESPONSE G- Operation Installation The glass bulb contains a fluid which The TYCO Series TY-FRB,5.6 K-factor, WRENCH RECESS expands when exposed to heat. When Upright (TY313) and Pendent (TY323) (USE ONLY the rated temperature is reached, the Sprinklers must be installed in accor- END"A") fluid expands sufficiently to shatter the dance with this section. ^� glass bulb, allowing the sprinkler to activate and water to flow. General Instructions FIGURE 2 Do not install any bulb-type sprinkler if W-TYPE 6 the bulb is cracked or there is a loss SPRINKLER WRENCH Design of liquid from the bulb.With the sprin- kler held horizontally, a small air WRENCH bub- Criteria ble should be present. The diameter of the air bubble is approximately 1/16 RECESS The TYCO Series TY-FRB, 5.6 K-factor, inch (1,6 mm)for the 135°F(57°C) and Upright (TY313) and Pendent (TY323) 3/32 inch(2,4 mm)for the 286°F(141°C) ��1 Sprinklers are intended for fire protec- temperature ratings. /ice tion systems designed in accordance A leak tight 1/2 inch NPT sprinkler joint with the standard installation rules rec- ognized by the applicable Listing or should be obtained by applying a min- Approval agency (such as, UL Listing imum to maximum torque of 7 to 14 �' is based on the requirements of NFPA ft.-lbs. (9,5 to 19,0 Nm). Higher levels fir, 13, and FM Approval is based on the of torque can distort the sprinkler Inlet PUSH WRENCH requirements of FM's Loss Prevention with consequent leakage or impairment Data Sheets). Only the Style 15 or Style of the sprinkler. IN TO ENSURE 20 Recessed Escutcheon is to be used Do not attempt to compensate for ENGAGEMENT for recessed pendent installations. insufficient adjustment in the Escutch- WITH SPRINKLER WRENCHING AREA eon Plate by under-or over-tightening FIGURE 3 the sprinkler. Re-adjust the position of the sprinkler fitting to suit. W-TYPE 7 RECESSED SPRINKLER WRENCH Upright and Pendent Sprinklers The Series TY-FRB Upright and Pen- dent Sprinklers must be installed in accordance with the following instructions. Step 1.Install Pendent sprinklers in the pendent position. Install upright sprin- klers in the upright position. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. • TFP172 Page 3 of 4 Step 3. Tighten the sprinkler into the 2-7/8° DIA. sprinkler fitting using only the W-Type - (73,0 mm) 6 Sprinkler Wrench (Figure 2).With ref- erence to Figure 1, apply the W-Type 6 2-1/4" DIA. Sprinkler Wrench to the wrench flats. FACE OF — (57,2 mm) Torque sprinklers 7 to 14 ft.-lbs. (9,5 to SPRINKLER 19,0 Nm). FITTING 5/8" (15,9 mm) Recessed Pendent Sprinklers l \ no FLUSH The Series TY-FRB Recessed Pendent 3/8±5/16" MW-1 1 I Sprinklers must be installed in accor- (9,5±7,9 mm) 7 �' 1, '% dance with the following instructions. f / � i Step A.After installing the Style 15 or MOUNTING -� 1/8" Style 20 Mounting Plate over the sprin- SURFACE (3,2 mm) kier threads, and with pipe-thread ---_--- sealant applied to the pipe threads, CLOSURE SERIES MOUNTING 1-3/8"(34,9 mm) hand-tighten the sprinkler into the TY-FRB PLATE sprinkler fitting. 3/4" (19,1 mm) FIGURE 4 Step B.Tighten the sprinkler into the SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY(TY323) sprinkler fitting using only the W-Type WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 7 Recessed Sprinkler Wrench (Figure RECESSED ESCUTCHEON 3). With reference to Figure 1,apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque 2-7/8" DIA. _ sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 (73,0 mm) Nm). FACE OF • Step C.After ceiling installation and fin- SPRINKLER 2-1/4" DIA. ishing, slide on the Style 15 or Style 20 FITTING (57,2 mm) Closure over the Series TY-FRB Sprin- 5/16±1/4" 12,7 kler and push the Closure over the (7,9±6,4 mm) 1/2"( mm) Mounting Plate until its flange comes inNo+ FLUSH contact with the ceiling. —.1 7;Care and f / T MOUNTING i 1/8" i Maintenance SURFACE — (3,2 mm) The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) CLOSURE SERIES MOUNTING 1-3/8"(34,9 mm) Sprinklers must be maintained and ser- TY-FRB PLATE 7/8"(22,2 mm) viced in accordance with this section. FIGURE 5 Before closing a fire protection system SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY(TY323) main control valve for maintenance WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 work on the fire protection system RECESSED ESCUTCHEON that it controls, obtain permission to shut down the affected fire protection Modified sprinklers must be replaced. standards of any other authorities hav- systems from the proper authorities Sprinklers that have been exposed to ing jurisdiction. Contact the installing and notify all personnel who may be corrosive products of combustion, but contractor or sprinkler manufacturer affected by this action. have not operated, should be replaced regarding any questions. Absence of the outer piece of an if they cannot be completely cleaned Automatic sprinkler systems are rec- escutcheon, which is used to cover by wiping the sprinkler with a cloth or ommended to be inspected, tested, a clearance hole, can delay sprinkler by brushing it with a soft bristle brush. and maintained by a qualified Inspec- operation in a fire situation. Care must be exercised to avoid dam- tion Service in accordance with local The owner must assure that the sprin- age to the sprinklers before,during,and requirements and/or national codes. klers are not used for hanging any after installation. Sprinklers damaged objects and that the sprinklers are only by dropping, striking, wrench twist/ cleaned by means of gently dusting slippage, or the like, must be replaced. with a feather duster; otherwise, non- Also, replace any sprinkler that has a operation in the event of a fire or inad- cracked bulb or that has lost liquid from vertent operation may result. its bulb. (Ref. Installation Section.) Sprinklers which are found to be leak- The owner is responsible for the ing or exhibiting visible signs of corro inspection,testing, and maintenance of sion must be replaced. their fire protection system and devices in compliance with this document, as Automatic sprinklers must never be well as with the applicable standards painted, plated, coated, or other- of the National Fire Protection Associa- wise altered after leaving the factory. tion (e.g., NFPA 25), in addition to the TFP172 • Page 4 of 4 P/N* 77 - XXX - X - XXX SPRINKLER TEMPERATURE FINISH RATINGS SIN 1 NATURAL BRASS 135 135°F(57°C) 370 5.6K UPRIGHT(1/2"NPT) TY313 g PURE WHITE(RAL9010)" POLYESTER 155 155°F(68°C) 371 5.6K PENDENT(1/2"NPT) TY323 q SIGNAL WHITE(RAL9003) 175 175°F(79°C) POLYESTER `Use suffix"I"for ISO 7-1 connection; 9 CHROME PLATED 200 200°F(93°C) for example,77-370-4-175-I **Eastern Hemisphere sales only 286 286°F(141°C) TABLE A SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS PART NUMBER SELECTION Limited Ordering Warranty Procedure For warranty terms and conditions,visit Contact your local distributor for avail- www.tyco-fire.com. ability.When placing an order, indicate the full product name and Part Num- ber(P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Series TY-FRB Upright or Pen- dent (specify) Sprinkler, SIN (specify), K=5.6, Quick Response, (specify)tem- perature rating, (specify) finish, P/N (specify, refer to Table A). Recessed Escutcheon Specify:Style 15 Recessed Escutcheon with(specify*)finish, P/N (specify*) Specify: Style 20 Recessed Escutch- eon with(specify*)finish, P/N(specify*) *Refer to Technical Data Sheet TFP770 Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2014 Tyco Fire Products,LP. All rights reserved. 'NCO is trademark of The DuPont Corporation. Fire Protection Products tLICLP Worldwide Contacts www.tyco-fire.com Series RFII — 5.6 K-factor "Royal Flush II" Concealed Pendent Sprinklers Quick & Standard Response, Standard Coverage General stallation or finish. The tip of the Pro- tective Cap can be used to mark the Description center of the ceiling hole into plaster p board or ceiling tiles by gently push- ?14 -4 The TYCO Series RFII 5.6 K-factor, ing the ceiling product against the Pro- tective Ca When ceilinginstallation "Royal Flush II" Concealed Pendent p Nd __ is complete, the Protective Capis re- Sprinklers Quick Response (3 mm movedandthe Cover Plate/ etainer bulb) and Standard Response (5-mm Assemblyis installed. bulb), are decorative sprinklers featur- ing a flat cover plate designed to con- As an option, the Series RFII Standard ceal the sprinkler.These sprinklers are Response(5-mm bulb)"Royal Flush II" optimal for architecturally sensitive ar- Concealed Pendent Sprinklers can be eas such as hotel lobbies, office build- fitted with a silicone Air and Dust Seal. 3 mm ings,churches, and restaurants. (Refer to Figure 5.) The Air and Dust • TY3531 ( Bulb) is UL Listed, Seal is intended for sensitive areas C-UL Listed, VdS Approved (Certif- Each sprinkler includes a Cover Plate/ icate No. G4090007), and NYC Ap- Retainer Assembly and a Sprinkler/ where it is desirable to prevent air and roved MEA 353-01-E) as Quick Support Assembly. The separa- dust from the area above the ceiling to p ( ) pp Cup y p ass throughResponse. ble, two-piece assembly design pro- p the cover plate. vides the following benefits: • TY3531 (3-mm Bulb) is FM and NOTICE LPCB Approved (Ref. No. 094a/10) • Allows installation of the sprinklers The Series RFII Concealed Pendent Approved as Standard Response. and pressure testing of the fire pro FactoryMutual and LPCB do not tection system prior to installation Sprinklers described herein must be approvany concealed sprinklers of a suspended ceiling lica- installed and maintained in compli- p g ora pp for quick response. tion of the finish coating to a fixed ance with this document and with the ceilin applicable standards of the National • TY3551 (5-mm Bulb) is UL Listed, g Fire Protection Association, in addi- C-UL Listed, FM Approved, LPCB • Permits the removal of suspended tion to the standards of any authori- Approved (Ref. No. 094a/9), and ceiling panels for access to building ties having jurisdiction. Failure to do so NYC Approved (MEA 353-01-E) as service equipment without having may impair the performance of these Standard Response. to first shut down the fire protection devices. system and remove sprinklers. Approvals for Air and Dust Seal The owner is responsible for maintain- • Provides for 1/2 inch (12,7 mm) of ing their fire protection system and de- UL and C-UL Listed for use with the vertical adjustment to allow a mea- vices in proper operating condition. RFII Standard Response Concealed sure of flexibility in determining the The installing contractor or sprinkler Sprinkler(TY3551). length of fixed piping to cut for the manufacturer should be contacted Maximum Working Pressure sprinkler drops. with any questions. The Series RFII Sprinklers are shipped Maximum 250 psi (17,3 bar) by UL, CUL, and NYC p with a Disposable Protective Cap.The Sprinkler Protective Cap is temporarily removed Maximum 175 psi (12,1 bar) by FM, during installation and replaced to help Identification VdS, and LPCB protect the sprinkler during ceiling in- Temperature Rating Number (SIN) 155°F(68°C)Sprinkler with IMPORTANT TY3531 — 3 mm bulb 139°F(59°C) Plate Always refer to Technical Data Sheet TFP700 for the "INSTALLER TY3551 — 5 mm bulb 200°F(93°C)Sprinkler with WARNING" that provides cautions 165°F(74°C) Plate with respect to handling and instal- Technical Discharge Coefficient lation of sprinkler systems and com- ponents. Improper handling and in- Data stallation can permanently damage Adjustment a sprinkler system or its components Sprinkler Approvals 1/2 inch (12,7 mm) and cause the sprinkler to fail to Approvals apply only to the service operate in a fire situation or cause it conditions indicated in the Design Cri Finishes to operate prematurely. teria section. See the Ordering Procedure section. Page 1 of 4 MARCH 2013 TFP181 TFP181 • Page 2 of 4 Physical Characteristics 1/2" NPT * r SEALING Frame Bronze ASSEMBLY Support Cup Chrome Plated Steel Guide Pins Stainless Steel FRAME �\ Deflector Bronze �� ( / CAP Compression ression Screw Brass I Bulb Glass m Cap Bronze or Copper SUPPORT Sealing Assembly Beryllium CUP WITH I BULB Nickel w/TEFLON ROLL FORMED Cover Plate Brass THREADS Retainer Brass Ejection Spring Stainless Steel I COMPRESSION Design �( SCREW GUIDE r (1{� Criteria PINS(2) i '� ' The TYCO Series RFII 5.6 K-factor, t' „ DEFLECTOR "Royal Flush II" Concealed Pendent �� (DROPPED Sprinklers are intended for fire protec- DEFLECTOR i i i i i POSITION) tion systems designed in accordance with the standard installation rules rec- ognized by the applicable Listing or SPRINKLER/SUPPORT CUP Approval agency;for example, UL List- ASSEMBLY ing is based on NFPA 13 and VdS Ap- I I proval is based on the CEA 4001. THREAD INTO P j RETAINER SUPPORT ) ( WITH THREAD For more information on LPCB and CUP UNTIL lN D O DIMPLES VdS Approvals, contact Tyco Fire Pro- MOUNTING tection Products at the following office: SURFACE IS EJECTION Enschede, Netherlands FLUSH WITH SPRING Telephone: 31-53-428-4444 CEILING Fax:31-53-428-3377 The Series RFII Concealed Pendenti Sprinklers are only listed and approved !ter , with the Series RFII Concealed Cover / Plates having a factory applied finish. SOLDER J COVER TABS(3) COVER PLATE/RETAINER PLATE NOTICE ASSEMBLY Do not use the Series RFII in applica- FIGURE 1 tions where the air pressure above MODEL RFII CONCEALED SPRINKLER the ceiling is greater than that be- ASSEMBLY low. Down drafts through the Sprin- kler/Support Cup Assembly can delay Installation Do not attempt to compensate for in- sprinkler operation in a fire situation. sufficient adjustment in the Sprinkler The TYCO Series RFII 5.6 K-factor, by under- or over-tightening the Sprin- "Royal Flush II" Concealed Pendent kler/Support Cup Assembly. Re-adjust Operation Sprinklers must be installed in accor- the position of the sprinkler fitting to When exposed to heat from a fire, the dance with this section. suit. Cover Plate, normally soldered to the General Instructions Step 1. Install the sprinkler only in the Retainer at three points, falls away topendent position with the center-line expose the Sprinkler/Support Cup Do not install any bulb-type sprinkler if of the sprinkler perpendicular to the Assembly. the bulb is cracked or there is a loss mounting surface. of liquid from the bulb. With the sprin- Step 2. Remove the Protective Cap. The Deflector — supported by the kler held horizontally, a small air bub- Guide Pins — then drops down to its ble should be present. The diameter Step 3. With pipe thread sealant ap- operational position. of the air bubble is approximately 1/16 plied to the pipe threads, hand-tighten inch (1,6 mm)for the 155°F (68°C) and the sprinkler into the sprinkler fitting. The glass bulb contains a fluid that ex 3/32 inch (2,4 mm)for the 200°F(93°C) Step 4. Wrench-tighten the sprinkler pands when exposed to heat. When temperature ratings. using only the RFII Sprinkler Wrench. the rated temperature is reached, the (Refer to Figure 3.) Apply the RFII fluid expands sufficiently to shatter the A leak-tight 1/2 inch NPT sprinkler joint Sprinkler Wrench to the Sprinkler as glass bulb, activating the sprinkler and should be obtained by applying a min- shown in Figure 3. allowing water to flow. imum to maximum torque of 7 to 14 Step 5. Replace the Protective Cap ft.-lbs. (9,5 to 19,0 Nm). Higher levels by pushing it upwards until it bottoms of torque can distort the sprinkler In- out against the Support Cup. (Refer let with consequent leakage or impair- to Figure 4.)The Protective Cap helps ment of the sprinkler. prevent damage to the Deflector and TFP181 Page 3 of 4 FACE OF CLEARANCE HOLE CLEARANCE SPRINKLER DIAMETER - HOLE FITTING I DIMENSION C 1 c J SPRINKLER 1 =�` SUPPORT CUP 1 { ASSEMBLY I i „., II �� 1/2” (12,7 mm) THREADED �, ,■IP'S ADJUSTMENT ( I D FACE ( IMI_-. OF CEILING, RETAINING RING \ o •7/ MOUNTING / i SURFACE alit\ / I I I / FIGURE 4 DISPOSABLE PROTECTIVE CAP N\ t14....—.........21— ma_ — i i i i Arms during ceiling installation and/or I I finish. You can also use the Protective -i_� T t-r-_7 Cap to locate the center of the clear- 3/16"to 11/16" MANUFACTURER DEFLECTOR COVER PLATE ance hole by gently pushing the ceiling (4,8 to 17,5 mm) PRESET GAP IN DROPPED RETAINER material up against the center point of REFERENCE 3/32" (2,4 mm) POSITION ASSEMBLY the Protective Cap.. , COVER PLATE COVER PLATE NOTICE -PROFILE DEPTH - DIAMETER As long as the Protective Cap remains DIMENSION B DIMENSION A in place, the system is considered A:3-1/4 inches(82,6 mm) C:2-3/8 to 2-5/8 inches(60,3 to 66,7 mm) "Out of Service". Step 6.After the ceiling has been com- B:3/16 inches(4,8 mm) D:1-3/4 to 2-1/4 inches(44,5 to 57,2 mm) pleted with the 2-1/2 inch(63,5 mm)di- ameter clearance hole and in prepa- FIGURE 2 ration for installing the Cover Plate/ SERIES CONCEALED SPRINKLER INSTALLATION DIMENSIONS Retainer Assembly, remove and dis- card the Protective Cap.Verify that the Deflector moves up and down freely. --- If the Sprinkler is damaged and the Ij=t FRAME ;"j�j` Deflector does not move up and down / ;/ freely, replace the entire Sprinkler. ARM \/ 1i Do not attempt to modify or repair a IIL damaged sprinkler. SUPPORT - IC. �" Step 7. When installing an Air and CUP Dust Seal, refer to Figure 5; otherwise, _ ' 1 proceed to Step 8. To attach the Air „■ r and Dust Seal, verify the angle of the „■'• �=----- outside edge of the seal is oriented ac- cortramicy ding to cording to Figure 5. Start the edge of -------• O the Retainer in the grooved slot of the 7/8"(23 mm) Air and Dust Seal and continue around SQUARE the retainer until the entire Air and Dust // Seal is engaged. / Step 8. Screw on the Cover Plate/ ALIGN //J Retainer Assembly until the Retainer ARROWS WITH ((// i \ (shown in Figure 2) or the Air and Dust FRAME ARMS \_ Seal (shown in Figure 5) contacts the - r ceiling. Do not continue to screw on \ I i the Cover Plate/Retainer Assembly ACCEPTS \ \,_rte so that it lifts a ceiling panel out of its 0 1/2"SOCKET \ normal position. If you cannot engage DRIVE the Cover Plate/Retainer Assembly FIGURE 3 with the Support Cup or you cannot RFII SPRINKLER WRENCH engage the Cover Plate/Retainer As- sembly sufficiently to contact the ceil- ing, you must reposition the Sprinkler Fitting. TFP181 Page 4 of 4 Care and SUPPORT --------- SPRINKLER FACE OF ORIENT CUP CEILING -� SEAL Maintenance Ij—i�_ % 'T VEL AS SHOWN The TYCO Series RFII 5.6 K-fac- , pOLgTE j� tor, "Royal Flush II" Concealed Pen—;lIIIIII �� RETAINER dent Sprinklers must be maintained �� ASSEMBLY and serviced in accordance with this lio section. _ / )Before closing a fire protection system - ' ; /main control valve for maintenance ,►� ��� AIR work on the fire protection system that /� ■'• �,, �� AND DUST it controls, obtain permission to shut '.�—_ _=—• LIP OF COVER SEAL down the affected fire protection sys- RETAINER PLATE tem from the proper authorities and FIGURE 5 notify all personnel who may be affect- OPTIONAL AIR AND DUST SEAL FOR SERIES RFII(TY3551) ed by this action. Absence of the Cover Plate/Retainer If you must remove a sprinkler, do not Ordering Assembly can delay sprinkler opera- reinstall it or a replacement without re- tion in a fire situation. installing the Cover Plate/Retainer As- Procedure When properly installed, there is a sembly. If a Cover Plate/Retainer As- nominal 3/32 inch (2,4 mm)air gap be- sembly becomes dislodged during Contact your local distributor for tween the lip of the Cover Plate and the service, replace it immediately. availability. When placing an order, ceiling, as shown in Figure 2. The owner is responsible for the in- indicate the full product name. spection, testing, and maintenance of This air gap is necessary'for proper their fire protection system and devic- Sprinkler/Support Cup Assembly operation of the sprinkler. If the ceil- es in compliance with this document, Specify: Series RFII (specify SIN), ing requires repainting after sprinkler as well as with the applicable stan- K=5.6, "Royal Flush II" Pendent Sprin- installation, ensure that the new paint dards of the National Fire Protection klers (specify) temperature rating and does not seal off any of the air gap. Association(e.g., NFPA 25), in addition (specify)finish, P/N (specify). Do not pull the Cover Plate relative to to the standards of any other authori- the Enclosure.Separation may result. ties having jurisdiction. Contact the in- 155°F(68°C) 200°F(93°C) Sprinklers which are found to be leak- stalling contractor or sprinkler manu- TY3531 51-792-1-155 51-792-1-200 p facturer regarding any questions. TY3551 51-790-1-155 51-790-1-200 ing or exhibiting visible signs of corro- sion must be replaced. Automatic sprinkler systems should be Separately Ordered Cover Plate/ inspected,tested, and maintained by a Retainer Assembly: Automatic sprinklers must never be qualified Inspection Service in accor- painted, plated, coated, or other- dance with local requirements and/or Specify: (temperature rating from be- wise altered after leaving the factory. national code. low) Series RFII Concealed Cover Modified sprinklers must be replaced. Plate with (finish), P/N (specify). Sprinklers that have been exposed to 139°F(59°C)(a) 165°F(74°C)(b) corrosive products of combustion, but Grey White have not operated, should be replaced (RAL9002) 56-792-0-135 56-792-0-165 if they cannot be completely cleaned Brass 56-792-1-135 56-792-1-165 by wiping the sprinkler with a cloth or Pure White(c) by brushing it with a soft bristle brush. (RAL9010) 56-792-3-135 56-792-3-165 Signal White Care must be exercised to avoid dam- (RAL9003) 56-792-4-135 56-792-4-165 age to the sprinklers - before, during, Jet Black and after installation. Sprinklers dam- (RAL9005) 56-792-6-135 59-792-6-165 aged by dropping, striking, wrench Brushed twist/slippage, or the like, must be re- Chrome 56-792-8-135 56-792-8-165 placed.Also, replace any sprinkler that Chrome 56-792-9-135 56-792-9-165 has a cracked bulb or that has lost Custom 56-792-X-135 56-792-X-165 liquid from its bulb. (Ref. Installation (a) For use with 155°F(68°C)sprinklers. Section.) (b) For use with 200°F(93°C)sprinklers. Exercise care to avoid damage to (c) Eastern Hemisphere sales only. sprinklers before, during, and after in- Sprinkler Wrench stallation. Replace sprinklers damaged Specify: RFII Sprinkler Wrench, by dropping, striking, wrench twisting, P/N 56-000-1-075. wrench slipping, or the like. Also, re- place any sprinkler that has a cracked Air and Dust Seal bulb or that has lost liquid from its Specify:Air and Dust Seal, bulb. (Refer to the Installation section.) P/N 56-908-1-001. GLOBAL HEADQUARTERS 11400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2013 Tyco Fire Products,LP. All rights reserved. two TEFLON is trademark of The DuPont Corporation. tyro Worldwide www.tyco-fire.com Fire Protection Contacts Products Series TY-FRB — 5.6 K-factor Horizontal and Vertical Sidewall Sprinklers Quick Response, Standard Coverage General tained when exposed to corrosive at- mospheres. Although corrosion resis- - „ Description taut coated sprinklers have passed the p standard corrosion tests of the appli- ' 9 The Series TY-FRB, 5.6 K-factor, Hor- cable approval agencies,the testing is not representative of all possible cor- izontal and Vertical Sidewall Sprin- klers described in this data sheet rosive atmospheres. Consequently, it R P ' are quick response -standard cover- is recommended that the end user be age, decorative 3 mm glass bulb type consulted with respect to the suitabil- ' spray sprinklers designed for use in ity of these coatings for any given cor f> light and ordinary hazard, commer rosive environment.The effects of am- cial occupancies such as banks, ho- bient temperature, concentration of tels, shopping malls, etc.They are de- chemicals, and gas/chemical velocity, w signed for installation along a wall or should be considered, as a minimum, the side of a beam and just beneath a along with the corrosive nature of the smooth ceiling. Sidewall sprinklers are chemical to which the sprinklers will commonly used instead of pendent or be exposed. upright sprinklers due to aesthetics or building construction considerations, NOTICE -T.-- where piping across the ceiling is not The Series TY-FRB Sprinklers de- desirable. scribed herein must be installed and - The recessed version of the Series maintained in compliance with this TY-FRB Horizontal Sidewall Sprin- document, as well as with the appli- cable standards of the National Fire kler is intended for use in areas with a finished wall. It uses a two-piece Protection Association, in addition to 't, Style 10 Recessed Escutcheon with the standards of any other authorities A 1/2 inch (12,7 mm)of recessed adjust- having jurisdiction. Failure to do so `- A ment or up to 3/4 inch(19,1 mm)of to- tal adjustment from the flush sidewall devices. may impair the performance of these .-* position, or a two-piece Style 20 Re- The owner is responsible for main- 1 cessed Escutcheon with 1/4 inch (6,4 taining their fire protection system mm) of recessed adjustment or up to and devices in proper operating con- 1/2 inch (12,7 mm) of total adjustment dition. Contact the installing contrac- from the flush sidewall position. The tor or sprinkler manufacturer with any adjustment provided by the Recessed questions. Technical Escutcheon reduces the accuracy to which the fixed pipe nipples to the Sprinkler Data sprinklers must be cut. Corrosion resistant coatings, where Identification Approvals applicable, are utilized to extend the UL and C-UL Listed. life of copper alloy sprinklers beyond Numbers FM, LPCB, and NYC Approved. that which would otherwise be ob- (Refer to Table A for complete approv- TY3331 Horizontal al information including corrosion re- IMPORTANT TY3431 Vertical sistant status.) Always refer to Technical Data Maximum Working Pressure Sheet TFP700 for the "INSTALLER Refer to Table B. WARNING" that provides cau- Discharge Coefficient tions with respect to handling K=5.6 GPM/psi-1/2(80,6 LPM/bar1/2) and installation of sprinkler sys- tems and components. Improp- er handling and installation can Refer to Table A. permanently damage a sprin- Finishes kler system or its components Sprinkler: Refer to Table C. and cause the sprinkler to fail Recessed Escutcheon: Signal or Pure to operate in a fire situation or cause White,Jet Black, Chrome Plated, or it to operate prematurely. Brass Plated. Page 1 of 6 FEBRUARY 2014 TFP176 TFP176 • Page 2 of 6 DEFLECTOR Installation 1 - Frame 2 - Button HAT �` 5 WAWA& The Series TY-FRB, 5.6 K-factor, Hori- 3 - Sealing —.Ale zontal and Vertical Sidewall Sprinklers Assembly I must be installed in accordance with 4 - Bulb Pr; �� ,�� this section. 5 - Compression General Instructions Screw 6 Deflector* / Do not install any bulb type sprin- 6* 4 2 3 1 kler if the bulb is cracked or there is a loss of liquid from the bulb. With the 9/18^ WRENCH 1/2"** sprinkler held horizontally, a small air (14,3 mm) FLATS NPT bubble should be present. The diam- 1 eter of the air bubble is approximately ,�� / 1/16 inch(1,6 mm)for the 135°F(57°C) ` _ / I��� to 3/32 inch (2,4 mm) for the 286°F _O- 116 WI (141°C)temperature ratings. �11 A leak tight 1/2 inch NPT sprinkler joint 1� should be obtained with a torque of 7 1-13/16" 7/16„ to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher (46,0 mm) (11 1 mm) levels of torque may distort the sprin NOMINAL kler and cause leakage or impairment CENTERLINE of the sprinkler. OF SPRINKLER MAKE IN WATERWAY Do not attempt to make-up for insuf- 1-1/2" ficient adjustment in the escutcheon x(38,1 mm)~ plate by under-or over-tightening the *Temperature rating sprinkler. Readjust the position of the is indicated on 2-3/16" _ sprinkler fitting to suit. Deflector. (55,6 mm) ESCUTCHEON Series TY-FRB Horizontal and STYLE ' — PLATE SEATING Vertical Sidewall Sprinkler ** Pipe thread 10 or 20 connections per RECESSED SURFACE Installation ISO 7-1 can be ESCUTCHEON The Series TY-FRB Horizontal and provided on -IAAtli Vertical Sidewall Sprinklers must be special request. installed in accordance with the fol- 1fol- lowing instructions. 2-7/8 0 mm" DIA. rfai-i�IIIIIIIIIIII Step 1. Horizontal sidewall sprinklers are to be installed in the horizontal po- ill V I NI sition with their centerline of waterway perpendicular to the back wall and parallel to the ceiling.The word "TOP" on the Deflector is to face towards the ceiling. ' Vertical sidewall sprinklers are to be FIGURE 1 installed in the pendent or upright po- 5.6 K-FACTOR QUICK RESPONSE sition with the arrow on the Deflector SERIES TY-FRB HORIZONTAL SIDEWALL(TY3331)SPRINKLERS pointing away from the wall. Characteristics Step 2. With pipe thread sealant ap- Physicalaye Bronze Design plied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Button Brass/Copper Criteria Sealing Assembly Beryllium Nickel w/ Step 3. Tighten the sprinkler into the TEFLON sprinkler fitting using only the W-Type Bulb Glass The Series TY-FRB, 5.6 K-factor, Hori- 6 Sprinkler Wrench (Ref. Figure 5), Compression Screw Bronze zontal and Vertical Sidewall Sprinklers With reference to Figure 1 or 2,the W- HSW Deflector Bronze are intended for fire protection sys- Type 6 Sprinkler Wrench is to be ap- VSW Deflector Copper tems designed in accordance with the plied to the wrench flats. standard installation rules recognized Operation by the applicable Listing or Approval agency (e.g., UL Listing is based on The glass bulb contains a fluid which the requirements of NFPA 13, and FM expands when exposed to heat.When Approval is based on the requirements the rated temperature is reached, the of FM's Loss Prevention Data Sheets). fluid expands sufficiently to shatter Only the Style 10 or 20 Recessed Es- the glass bulb, allowing the sprinkler cutcheon, as applicable, is to be used to activate and water to flow. for recessed horizontal installations. TFP176 Page 3 of 6 Series TY-FRB Recessed *Temperature ** Pipe thread 1 - Frame 4 - Bulb 7 - Ejection Horizontal Sidewall Sprinkler rating is connections 2 - Button 5 - Compression Spring Installation indicated on per ISO 7-1 can 3 - Sealing Screw The Series TY-FRB Recessed Hori- Deflector. be provided on Assembly 6 - Deflector* zontal Sidewall Sprinklers must be special request. installed in accordance with this A section. ARROW MUST Step A. Recessed horizontal sidewall POINT AWAY �� sprinklers are to be installed in the ESCUTCHEON 7/1 mm) FROMPFAND BE horizontal position with their center- NOMINAL1,1 PERPENDICULAR O line of waterwayPLATE SEATING TO THE BACK perpendicular to the SURFACE 1/2"** MAKE-IN WALL SURFACE4 back wall and parallel to the ceiling. NPT The word "TOP" on the Deflector is to 6* face towards the ceiling. I s ��i�z •���`� Step B.After installing the Style 10 or M FLOW,.....___________5 20 Mounting Plate over the sprinkler �— } threads, hand tighten the sprinkler into 2-3/16" /l 2 3/16" I 4 the sprinkler fitting. (55,6 mm) 1 (55,6 mm) Step C. Tighten the sprinkler into the 1-1/2" tr\ � )�r * 2 sprinkler fitting using only the W-Type (38,1 mm) WRENCH � 7 Recessed Sprinkler Wrench (Ref. FLATS 7 0 3 Figure 6). With reference to Figure ���s __ ' 1, the W-Type 7 Recessed Sprinkler 1 Wrench is to be applied to the sprin- SHOWN SHOWN CROSS kler wrench flats. PENDENT UPRIGHT SECTION Step D. After the ceiling has been in- FIGURE 2 stalled or the finish coat has been ap- 5.6 K-FACTOR QUICK RESPONSE plied, slide on the Style 10 or 20 Clo SERIES TY-FRB VERTICAL SIDEWALL(TY3431)SPRINKLERS sure over the Series TY-FRB Sprinkler and push the Closure over the Mount- ing Plate until its flange comes in con- if they cannot be completely cleaned The owner is responsible for the in- tact with the ceiling. by wiping the sprinkler with a cloth or spection, testing, and maintenance by brushing it with a soft bristle brush. of their fire protection system and de- Care and Care must be exercised to avoid dam- vices in compliance with this docu- age to the sprinklers before, during, ment, as well as with the applicable Maintenance and after installation. Sprinklers dam- standards of the National Fire Pro- aged by dropping, striking, wrench addion Association (e.g., NFPA 25), in The Series TY-FRB, 5.6 K-factor, Hori- twist/slippage, or the like, must be addition to the standards of any oth- zontal and Vertical Sidewall Sprinklers replaced. Also, replace any sprinkler er authorities having jurisdiction. The must be maintained and serviced in that has a cracked bulb or that has installing contractor or sprinkler man- accordance with this section. lost liquid from its bulb. (Ref. Installa- ufacturer should be contacted relative tion Section to any questions. Before closing a fire protection sys- )• tem main control valve for mainte- The owner must assure that the sprin- It is recommended that automatic nance work on the fire protection sys- klers are not used for hanging any ob- sprinkler systems be inspected, test- tem that it controls, permission to shut jects and that the sprinklers are only ed, and maintained by a qualified In- down the tern must beected fire obtained from then os- cleaned by means of gently dusting localecti n requirements and/orrvice in ance national prop- with a feather duster; otherwise, non- codes. er authorities and all personnel who operation in the event of a fire or inad- may be affected by this action must vertent operation may result. be notified. Frequent visual inspections are rec- Absence of an escutcheon, which is ommended to be initially performed used to cover a clearance hole, may for corrosion resistant coated sprin- delay the time to sprinkler operation in klers, after the installation has been a fire situation. completed,to verify the integrity of the Sprinklers that are found to be leaking corrosion resistant coating. Thereaf- or exhibiting visible signs of corrosion ter, annual inspections per NFPA 25 must be replaced. should suffice; however, instead of in- Automatic must never be specting from the floor level, a random tomasprinklerscoated or other- sampling of close-up visual inspec- painted, plated, tions should be made, so as to better wise altered after leaving the factory. determine the exact sprinkler condi- Modified sprinklers must be replaced. tion and the long term integrity of the Sprinklers that have been exposed to corrosion resistant coating, as it may corrosive products of combustion, but be affected by the corrosive condi- have not operated,should be replaced tions present. TFP176 • Page 4 of 6 5/8±1/4" G l y (15,9±6,4 mm) MOUNTING FACE OF WRENCH RECESS SURFACE SPRINKLER (END"A" USED FOR FITTING 1/2" NPT MODELS) FIGURE 5 CLOSURE - W-TYPE 6 SPRINKLER WRENCH ,411=.---- SERIES = 2-7/8" DIA. I� (73,0 mm) TYFIRB !■:�,��II (57 2"mm) WRENCH RECESS MOUNTING 11. M PLATE 'i .lI yl 1/8" IIINft IIII (3,2 mm) 1-1/4"(31,8 mm) 3/4" (19,1 mm) PUSH WRENCH IN TO ENSURE 3/4"(19,1 mm) 1/4"(6,4 mm) ENGAGEMENT FIGURE 3 WITH SPRINKLER SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WRENCHING AREA WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT FIGURE 6 STYLE 10 RECESSED ESCUTCHEON W-TYPE 7 RECESSED SPRINKLER WRENCH 1/2±1/8" y (12,7±3,2 mm) MOUNTING FACE OF SURFACE --- SPRINKLER FITTING A CLOSURE , A ,,,..-_,..m2-7/8" DIA. SERIES I'. (73,0 mm) TY FRB I a.. . III 2-1/4" DIA. {% (57,2 mm) `I MOUNTING Ir 7 PLATE ;I /1 y 1/8" (3,2 mm) 1-1/4"(31,8 mm) 1/2"(12,7 mm) 1"(25,4 mm) 1/4"(6,4 mm) FIGURE 4 SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON • TFP176 Page 5 of 6 SPRINKLER FINISH(See Note 11) K TYPE TEMP. BULB NATURAL CHROME LIQUID BRASS PLATED POLYESTER*** LEAD COATED 135°F(57°C) Orange HORIZ. 155°F(68°C) Red SIDEWALL 175°F(79°C) Yellow 1,2,3,4,9, 10 1,2,3,9 1,2,3,9 (TY3331) 200°F(93°C) Green 286°F(141°C) Blue 5.6 RECESSED 135°F(57°C) Orange 1/2" HORIZ. 155°F(68°C) Red NPT SIDEWALL 175°F(79°C) Yellow 1,2,4,9, 10 1,2,9 N/A (TY3331)* Figure 3 200°F(93°C) Green RECESSED 135°F(57°C) Orange HORIZ. 155°F(68°C) Red SIDEWALL 1,2,3,4,9 N/A (TY3331)** 175°F(79°C) Yellow Figure 4 200°F(93°C) Green VERTICAL 135°F(57°C) Orange SIDEWALL 155°F(68°C) Red 5.6 (TY3431) 1/2" Installed 175°F(79°C) Yellow 5,6,7,8,9 5,6,7,9 NPT Pendent or 200°F(93°C) Green Upright 286°F(141°C) Blue NOTES: 1. Listed by Underwriters Laboratories,Inc.(UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 2. Listed by Underwriters Laboratories Inc.for use in Canada(C-UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 3. Approved by Factory Mutual Research Corporation(FM)as Quick Response Sprinklers for use in Light Hazard Occupancies at a 4 to 12 inch(100 to 300 mm)top of deflector to ceiling distance. 4. Approved by the Loss Prevention Certification Board(LPCB Ref.No.007a/04)at a 4 to 6 inch(100 to 150 mm)top of deflector to ceiling distance.The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. 5. Listed by Underwriters Laboratories,Inc.as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. 6. Listed by Underwriters Laboratories for use in Canada(C-UL)as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. 7. Approved by Factory Mutual Research Corporation(FM)as Quick Response Sprinklers for use in Light Hazard Occupancies. 8. Approved by the Loss Prevention Certification Board(LPCB Ref.No.094a/06&007a/04)as Quick Response Sprinklers. 9. Approved by the City of New York under MEA 354-01-E. 10. Approved by the Loss Prevention Certification Board(LPCB Ref.No.094a/06)at a 4 to 6 inch(100 to 150 mm)top of deflector to ceiling distance.The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. 11. Where Polyester Coated and Lead Coated Sprinklers are noted to be UL and C-UL Listed,the sprinklers are UL and C-UL Listed as Corrosion Resis- tant Sprinklers.Where Lead Coated Sprinklers are noted to be FM Approved,the sprinklers are FM Approved as Corrosion Resistant Sprinklers. *Installed with Style 10(1/2"NPT)3/4"Total Adjustment Recessed Escutcheon. **Installed with Style 20(1/2"NPT)1/2"Total Adjustment Recessed Escutcheon. ***Frame and deflector only. TABLE A LABORATORY LISTINGS AND APPROVALS TFP176 • Page 6 of 6 SPRINKLER FINISH K TYPE NATURAL BRASS CHROME PLATED POLYESTER LEAD COATED HORIZONTAL SIDEWALL 250 PSI(17,2 BAR) (TY3331) Or 175PSI(12,1 BAR) 5.6 RECESSED HORIZ. 1/2" SIDEWALL(TY3331) (SEE NOTE 1) NPT VERTICAL SIDEWALL 175 PSI(12,1 BAR) (TY3431) NOTES: 1. The maximum working pressure of 250 psi(17,2 bar)only applies to the Listing by Underwriters Laboratories,Inc.(UL);the Listing by Underwriters Laboratories,Inc.for use in Canada(C-UL);and,the Approval by the City of New York. TABLE B MAXIMUM WORKING PRESSURE P/N 57 - XXX - X - XXX I I SIN SPRINKLER TEMPERATURE FINISH RATINGS 378 HORIZONTAL SIDEWALL TY3331 1 NATURAL BRASS 135 135°F(57°C) PURE WHITE(RAL9010)' 155 155°F(68°C) 375 VERTICAL SIDEWALL TY3431 3 POLYESTER 4 SIGNAL WHITE(RAL9003) 175 175°F(79°C) POLYESTER 5 JET BLACK(RAL9005)" 200 200°F(93°C) POLYESTER 7 LEAD COATED 286 286°F(141°C) 9 CHROME PLATED *Eastern Hemisphere sales only. "Available in 155°F(68°C)or 200°F (93°C)temperature rating only. TABLE C PART NUMBER SELECTION SERIES TY-FRB HORIZONTAL AND VERTICAL SIDEWALL SPRINKLERS Ordering Sprinkler Assemblies with NPT Recessed Escutcheon Thread Connections: Specify: Style(10 or 20)Recessed Es- Procedure Specify: Series TY-FRB (specify SIN), cutcheon with (specify*) finish, P/N (specify K-factor), (specify) Horizontal (specify*). Contact your local distributor for avail- Sidewall or Vertical Sidewall Sprinkler, Refer to Technical Data Sheet TFP770 ability. When placing an order, indi- Standard Response, Standard Cov- cate the full product name and Part erage, (specify) temperature rating, Sprinkler Wrench Number(P/N). (specify) finish or coating, P/N (spec- Specify: W-Type 6 Sprinkler Wrench, ify from Table C) P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS I 1400 Pennbrook Parkway,Lansdale,PA 19446 I Telephone+1-215-362-0700 Copyright©2013 Tyco Fire Products,LP. All rights reserved. *yc© TEFLON is trademark of The DuPont Corporation. Fire Protection Products tqCt3 Fire Suppression & BuildingProducts Technical Services 800-381-9312 I+1-401-781-8220 www.tyco-fire.com Model G1, G4 Sprinkler Guards and Model Gi/S1, G4/S3 Guards with Shields for Series TY-B, TY-FRB, TY-L, and TY-FRL Sprinklers General Owners are responsible for maintaining their fire protection system and devices Description in proper operating condition. The p in- stalling contractor or sprinkler manu- ;0011, TYCO Model G1 and G4 Sprinkler facturer should be contacted with any Guards are designed for use with questions. E specific types of Series TY-B,TY-FRB, TY-L, and TY-FRL Sprinklers that may Technical be located in areas that make them susceptible to mechanical or physical Data damage.Table A provides compatibility details. Approvals UL and C-UL Listed Model G1/S1 and G4/S3 Sprinkler FM Approved Guards with Shields (Figure 2), in Refer to Table A. addition to providing protection from mechanical or physical damage, Finishes , ' protects the sprinkler from water Red Painted and Zinc Chromate spray of higher elevation sprinklers(for .z - example, rack storage sprinkler instal- Physical Characteristics lations). When the Model G1/S1 and Welded assembly fabricated from G4/S3 are used with the Series TY- carbon steel B, TY-FRB, TY-L, and TY-FRL Sprin- x � klers shown in Table A,the assemblies Design G form Upright Intermediate Level Sprin- 9 ',' klers intended for use in fire sprinkler Criteria systems designed in accordance with V the standard installation rules recog- In accordance with the requirements nized by the applicable Listing agency of the NFPA, sprinkler guards shall be 4 (that is, UL Listing is based on NFPA listed. Guards are only listed for use requirements). with specified sprinklers;therefore,the • Model G1 and G4 Guards are a re- Model G1, G4, G1/S1, and G4/S3 must designation for the Gem F938 and only be used with the Series TY-B, F937 respectively. TY-FRB,TY-L, and TY-FRL Sprinklers li • Model G1/S1 and G4/S3 Guards are a shown in Table A. re-designation for the Gem F938/Q-76 and F937/Q-75 respectively. NOTICE Model G1 and G4 Sprinkler Guards and Model G1/S1 and G4/S3 Sprinkler Guards with Shields described herein must be installed and maintained in compliance with this document and with the applicable standards of .. the National Fire Protection Asso- ciation, in addition to the standards of any Authorities Having Jurisdiction. Failure to do so may impair the perfor- mance of these devices. Page 1 of 6 MAY 2011 TFP780 TFP780 Page 2 of 6 Sprinkler Sprinkler Sprinkler Mounting Guard Model Guard with Series TFP SIN GEM SIN STAR SIN Type K-Factor Location Approvals Shield Model Approvals TY1151 G7530 - Upright 2.8 Thread Relief 01(1) N/A TY1251 G7531 - Pendent 2.8 Thread Relief 01(1) N/A TY3151 G7570 - Upright 5.6 Thread Relief 01(1,2),G4(2( G1/S1(1,2) TY3251 G7571 - Pendent 5.6 Thread Relief 01(1,2),G4(2) N/A TY4851 G7560 - Upright 8.0(1/2"NPT) Thread Relief G1(1,2) N/A TY-B TY4951 G7561 - Pendent 8.0(1/2"NPT) Thread Relief 01(1,2) N/A TY4151 G7590 - Upright 8.0(3/4"NPT) Thread Relief G1(1,2) G1/S1(1,2) TY4251 G7591 - Pendent 8.0(3/4"NPT) Thread Relief Gi(1,2) N/A TY3351 G7578 - HSW 5.6 Thread Relief G4(1,2) N/A TY3451 G7575 - VSW 5.6 Thread Relief G4(1) N/A TY1131 G7330 - Upright 2.8 Thread Relief G1(1) N/A TY1231 G7331 - Pendent 2.8 Thread Relief G1(1) N/A TY3131 G7370 - Upright 5.6 Thread Relief 01(1,2),G4(2) G1/S1(1) TY3231 G7371 - Pendent 5.6 Thread Relief 01(1,2),G4(2) N/A TY-FRB TY4131 G7390 - Upright 8.0(3/4"NPT) Thread Relief G1(1.2) G1/S1(1) TY4231 G7391 - Pendent 8.0(3/4"NPT) Thread Relief G1(1) N/A TY3331 G7378 - HSW 5.6 Thread Relief G4(1) N/A TY3431 G7375 - VSW 5.6 Thread Relief G4(1) N/A TY3111 G3111 S1800 Upright 5.6 Wrench Area 01(2),G4(1) G4/S3(1) TY3211 G3112 S1801 Pendent 5.6 Wrench Area G1(2),G4(1) N/A TY3311 G3113 S1803 HSW 5.6 Wrench Area - N/A TY-L TY4811 - S1805 Upright 8.0(1/2"NPT) Wrench Area G4(1,2) G4/S3(1) TY4911 - S1806 Pendent 8.0(1/2"NPT) Wrench Area G4(1) N/A TY4111 G3101 S1810 Upright 8.0(3/4"NPT) Wrench Area G4(1,2) G4/S3(1) TY4211 G3102 S1811 Pendent 8.0(3/4"NPT) Wrench Area G4(1) N/A TY1121 G8973 S1879 Upright 2.8 Wrench Area G4(1) N/A TY1221 G8971 S1880 Pendent 2.8 Wrench Area G4(1) N/A TY3121 G8974 S1864 Upright 5.6 Wrench Area G4(1,2) G4/S3(1) TY-FRL TY3221 G7375 S1865 Pendent 5.6 Wrench Area G4(1) N/A TY3321 G8972 S1878 HSW 5.6 Wrench Area G4(1) N/A TY4121 G8946 S1866 Upright 8.0(3/4"NPT) Wrench Area G4(1,2) G4/S3(1) TY4221 G8174 S1867 Pendent 8.0(3/4"NPT) Wrench Area G4(1) N/A APPROVALS&NOTES 1. Listed by Underwriters Laboratories Inc. 2. Approved by Factory Mutual Research Corporation. N/A Not Applicable for noted sprinkler. - No SIN,Listing or Approval TABLE A LABORATORY LISTINGS AND APPROVALS — SNOISN314110 — S0731HSHlIM Sa ivno d37)INIddS CS/170 aNb'lS/L0 73O0141 Z 3dl1JId 1:131>iNIadS 1-Al S31a3S H11M NMOHS 831NNIadS 8-Al S3I1:13S H11M NMOHS O13IHS£S 130001 HuIM 013IHS I•S 13OOW HlIM OLIVno VO 1300W OHVno 691300W 31Vld 3SV8 A8 030VON3 iiiii� V3 EIV HON3UM 31t/ld 3SV8 .yiA (03JVJN3) (WW 0`£L) H31).1NIadS A8 03JVJN3 d110 VI0 08/L-Z 331138 0V3al H Oavn� 3_01d (03JVJN3) a31>iNIEHS 3SV8 d110 (ww 0`£L) aV8N.71111: / 0aVnJ via ..8/L Z 1 35V8 I � I V1, ' aV8 M3aOS _=, / HlIM IC�1 N tis (ww 6'22) 0131HS£S Z/G £ M38 0S �'� (ww£`09) HUM 0131HS LS :� - WS ,.8/£-Z (wwLOZ l) (w9'100 VIO „ti/£-t' 'VIO ..ti — SNOISN3W/a — Saeivn d37)INIddS bJ cNb'tO 73QOW I 3UI1Jld a31>iN1adS lad Al S31a3S H11M NMOHS 831>NNIadS 8ad-A1.S31a3S H11M NMOHS Dawn°vo 130OW Okivno LTJ 13001AI aV8 ` 1[11 ( ) aVe — (030VJN3) jiit 9l/L-£ (03JVJN3) aaeno )d110 (wwLOavno � J (w„9w L9`89 ) 3SV8 31V1d VI0 .8/L-Z 3SV8 (ww 0`£L) — 31V1d 3SV8 31V1d 3SV8 - 'VIO ,.8/L-Z - m1.1.11 Ae 030V9N3 A8 039VON3 d3113a OV3IH1 431138 0V381-11 1:131>NN1adS a31NN1adS 9lo£abed 08Ldd1 TFP780 Page 4 of 6 WITH SPRINKLER PROPERLY INSTALLED, �� �� CAREFULLY SPREAD BASE PLATES APART AND FIT Illimilll INSTALLATION ONTO SPRINKLER AT APPROPRIATE MOUNTING TOOL SECOND LOCATION PER TABLE A AND FIGURES 1 or 2 MODEL G4 GUARD till "� CLIP CLIP FULLY WITH MODEL S3 SHIELDENGAGED &SERIES TY-L UPRIGHT lit ,�,'BASESPRINKLER SHOWN �(r� �� 1` PLATES ;�— ( y FIRST �= \ -_� `Ift � FIRST CLIP FULLY �- �Illy? CLIP FULLYENGAGED „ ��ENGAGED CLIP BAR INSTALLATION SLOT /� OVW, TOOL ADJACENT `4'i - wroll BAR L . CLIP MODEL G1 GUARD& SERIES TY-FRB PENDENT •- A PLIER SPRINKLER SHOWN MAY BE INSTALLATION TOOL USED SWIVEL CLIPS OVER ADJACENT (SHIPPED WITH WITH INSTALLATION TOOL APPLIED OVER BARS AND SLIDE TOWARD BASE GUARDS) ADJACENT BARS,PRESS SECOND CLIP PLATES UNTIL SNUG TOWARD BASE PLATES UNTIL FULLY ENGAGED FIGURE 3 INSTALLATION PROCEDURE Installation NOTICE TYCO Models G1,G4,G1/S1,and G4/S3 The Clips must seat against the Base to Guards must be installed in accordance fully seatedand in order to with the following instructions. complete the installation. The Model G1, G4, G1/S1, and G4/S3 Guards may 1. Install the sprinkler in accordance be located in any position relative to the with the applicable technical data sprinkler frame arms. sheet. 2. Mount the Model G1, G4, G1/S1, or G4/S3 Guard on the sprinkler. 3. With the Clips loose, spread the two halves of the Sprinkler Guard enough to pass by the sprinkler deflector from the side. 4. Spread the two halves of the Sprinkler Guard enough to pass over the sprinkler "thread relief” or "wrenching area", as applicable, portion of the sprinkler. Refer to Table A, as well as Figures 1 and 2. 5. With the Sprinkler Guard positioned on the"thread relief"or"wrenching area" portion of the sprinkler, as applicable, engage the Clips and then slide the Clips until they seat against the Base, completing the installation as shown in Figures 1 and 2. To help assist with the sliding of the Clips,use the Guard Installation Tool as shown in Figure 3. Additionally, pliers can be used to facilitate the final seating of the Clips. TFP780 Page 5 of 6 Care and Limited Ordering Maintenance Warranty Procedure TYCO Models G1, G4, G1/S1, and G4/ Products manufactured by Tyco Fire Contact your local distributor for S3 Guards do not requireu- Suppression & Building Products q any regu- availability. When placing an order, larly scheduled maintenance; how- (TFSBP) are warranted solely to the indicate the full product name and Part ever, proper installation of the Sprin- original Buyer for ten (10)years against Number(P/N). kler Guards should be verified during defects in material and workmanship the annual visual inspection of the when paid for and properly installed Model G1 Sprinkler Guard sprinklers. and maintained under normal use and Specify: Model G1 Sprinkler Guard service. This warranty will expire ten with (finish), and P/N (below). NOTICE (10) years from date of shipment by TFSBP. No warranty is given for prod- Red Painted P/N 56-938-1-001 Before closing a fire protection system ucts or components manufactured by Zinc Chromate P/N 56-938-9-001 main control valve for maintenance work companies not affiliated by ownership Model G4 Sprinkler Guard on the fire protection system that it con- with TFSBP or for products and com- Specify: Model G4 Sprinkler Guard trols, obtain permission to shut down ponents which have been subject to with (finish)and P/N (below). the affected fire protection system misuse, improper installation, corro- from the proper authorities and notify sion, or which have not been installed, Red Painted P/N 56-937-1-001 all personnel who may be affected by maintained, modified or repaired in ac- Zinc Chromate . P/N 56-937-9-001 this action. cordance with applicable Standards of Model G1/S1 Guard with Shield the National Fire Protection Associa- Specify: Model G1/S1 Sprinkler Guard Responsibility lies with sprinkler own- tion, and/or the standards of any other with Shield , (finish)and P/N (below). ers for the inspection, testing, and Authorities Having Jurisdiction. Mate- maintenance of their fire protection rials found by TFSBP to be defective Red Painted P/N 56-938-1-066 system and devices in compliance with shall be either repaired or replaced, at Zinc Chromate P/N 56-938-9-066 ' this document, as well as with the op- TFSBP's sole option. TFSBP neither Model G4/S3 Guard with Shield plicable standards of the National Fire assumes, nor authorizes any person Specify: Model G4/S3 Sprinkler Guard Protection Association (for example, to assume for it,any other obligation in with Shield, (finish)and P/N (below). NFPA 25), in addition to the standards connection with the sale of products or of any other authorities having jurisdic- parts of products.TFSBP shall not be Red Painted P/N 56-937-1-066 tion. Contact the installing contractor or responsible for sprinkler system design Zinc Chromate P/N 56-937-9-066 sprinkler manufacturer regarding any errors or inaccurate or incomplete in- Additional*Guard Installation questions. formation supplied by Buyer or Buyer's Tools Automatic sprinkler systems are recom- representatives. Specify: Guard Installation Tool for mended to be inspected, tested, and In no event shall TFSBP be liable, in Model G1 and G4 Sprinkler Guards, maintained by a qualified Inspection contract, tort, strict liability or under P/N (56-000-8-597). Service in accordance with local re- any other legal theory, for incidental, R The Guard Installation Tool is included with quirements and/or national codes. indirect,special or consequential dam- orders in original carton quantities. ages, including but not limited to labor Owners must assure that the sprinklers charges, regardless of whether TFSBP are not used for hanging of any was informed about the possibility of objects and that the sprinklers are such damages, and in no event shall only cleaned by means of gently TFSBP's liability exceed an amount dusting with a feather-duster. Other- equal to the sales price. wise, non-operation in the event of a fire or inadvertent operation may The foregoing warranty is made in lieu result. of any and all other warranties,express or implied, including warranties of mer- chantability and fitness for a particular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on fail- ure of or defect in products, materials or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. TFP780 - Page 6 of 6 Copyright©2003,2011 Tyco Fire Suppression&Building Products.All rights reserved. tqco I Fire & Building Products Technical Services: Tel: (800)381-9312/Fax: (800)791-5500 Model 513 (13) Riser Manifold 1-1/2 thru 6 Inch (DN4O thru DN 150) For NFPA 13 Sprinkler Systems General Technical Description Data The Figure 513 (13) Riser Manifolds Approvals �--- �• described in this technical data sheet The Figure 513 (13) Riser Manifolds provide the necessary waterflow with a cover tamper switch for the wa- alarm, pressure gauge, alarm test ori- terflow alarm switch are UL Listed, fice, drain, and sight glass equipment ULC Listed, and FM Approved. • in a single assembly for use in NFPA 13 sprinkler systems as follows: The Figure 513 (13) Riser Manifolds , without a cover tamper switch for the NFPA 13* waterflow alarm switch are UL Listed 4 11* • 1 1/2 Inch (DN40) and FM Approved. Male Thread x Female Thread Maximum Working Pressure • • 1-1/2 thru 6 Inch(DN40 thru DN150) 175 psi (12,1 bar) Groove x Groove Test Orifice 5.6K(80K) *Although the Riser Manifold described in Assembly this data sheet is intended for NFPA 13 nections and/or listed mechanical sprinkler systems, it may be used for NFPA The manifold body of the Figure 513 is grooved connections, as applicable 13D or 13R residential sprinkler systems, ductile iron, whereas the manifold where a test orifice of 5.6K(80K)is accept- body of the Figure 13 is cast iron. The Step 2. Connect the drain line, and able. two assemblies are completely inter- then close the drain valve. changeable in function, application, Step 3. Refer to Figure 3 for wiring The variety of sizes and grooved end and end-to-end laying length. guidance. All wiring must be per- connections allow cost effective and Finish formed in accordance with the Author- easy transition to check valves,control Red painted. ity Having Jurisdiction and/or the Na- valves, and system piping. The Riser tional Electrical Code. Manifolds may be installed in either the Refer to Figure 4 for optional . horizontal (flow switch on top) or verti- Installation Step vrelief 4ale. cal (flow going up) for both single sprinkler rises and floor control in high The Riser Manifolds may be installed Step 5. Place the system in service by rises. in either the horizontal (flow switch on filling the system with water.When fill- top) or vertical (flow going up). The ing the system, partially open the con- WARNING inlet of the Riser Manifold may be di- trol valve to slowly fill the system. Fill- The Riser Manifolds described herein rectly connected to a shut-off control ing the system slowly will help avoid must be installed and maintained in valve. damaging the waterflow alarm switch. compliance with this document, as After the system is fully pressurized, well as with the applicable standards NOTES completely open the control valve. of the National Fire Protection Asso- Where applicable pipe thread sealant ciation, in addition to the standards of is to be applied sparingly. Use of a Step 6. Secure all supply valves any other authorities having jurisdic- non-hardening pipe thread sealant is open. tion. Failure to do so may impair the recommended. performance of these devices. Never remove any piping component The owner is responsible for maintain- nor correct or modify any piping defi- ing their fire protection system and de- ciencies without first depressurizing vices in proper operating condition. and draining the system. The installing contractor or sprinkler Step 1. Install the manifold body with manufacturer should be contacted the flow arrow pointing in the down- with any questions. stream position using threaded con- Page 1 of 6 APRIL, 2006 TFP962 Page 2 of 6 TFP962 NO. DESCRIPTION QTY. P/N 1 1-1/2"Manifold Body, NOTES: Male x Female NPT 1 N/A Groove x Groove 1 N/A 1. Approximate weight,11.2 lbs.(5,1 kg). 2 Waterflow Alarm Switch: 2. ULC Listed Manifolds are equipped with VSR-SF with Paddle, Cover Tamper Switches installed internal UL/FM 1 971-096-00 to the WaterflowAlarm Switches. VSR-SF with Paddle and 3. CH:Common Hardware Cover Tamper Switch, ULC/FM 1 976-519-02 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 3 -0 � et n c 10"(254,0 mm) '—I D Q II X140 14-1/4" Male x Female NPT, T N.L_ "q P (362,0 mm) Groove x Groove Manifolds QO c 11-1/8"(282,6 mm)" Inspector's Test =�- o &Drain ValveDrain Valve Male x Male NPT O Manifolds (Normally set � (Normally to"Drain") It r 1f Closed) O 1 / � n I / , 2 _ 5-3/16" 3-1/2" 3/4" 1" (131,8 mm) (88,9 mm) (19,1 mm) NPT 6-1/8" _ (155,6 mm) 12-5/8" _ (320,7 mm) FIGURE 1 1-1/2 INCH(DN40) RISER MANIFOLD ASSEMBLY AND DIMENSIONS TFP962 Page 3 of 6 2 INCH(DN50)MANIFOLD 4 INCH(DN100)MANIFOLD 6 INCH(DN150)MANIFOLD NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 2"Manifold Body, 1 4"Manifold Body, 1 6"Manifold Body, Groove x Groove 1 N/A Groove x Groove 1 N/A Groove x Groove 1 N/A 2 WaterflowAlarm Switch: 2 WaterfowAlarm Switch: 2 WaterflowAlarm Switch: VSC with Paddle, VSC with Paddle, VSC with Paddle, UUFM 1 976-357-01 UUFM 1 976-357-04 UUFM 1 976-357-05 VSC with Paddle and VSC with Paddle and VSC with Paddle and Cover Tamper Switch, Cover Tamper Switch, Cover Tamper Switch, ULC/FM 1 976-520-01 ULC/FM 1 976-520-04 ULC/FM 1 976-520-05 3 300 psi/2000 kPa 3 300 psi/2000 kPa 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 Water Pressure Gauge .. 1 2341 Water Pressure Gauge .. 1 2341 2-1/2 INCH(DN65)MANIFOLD Manifold Nominal Installation Dimensions in Inches and(mm) Drain Size Weight NO. DESCRIPTION QTY. P/N Size A B C D E F G H lbs.(kg) 2 Inch 16-3/4 13 9/16 5-3/8 6-3/8 13-1/16 3-1/213,5 1 2-1/2"Manifold Body, (DN50) (425,5) (330,2) (14,3) (136,5) (161,9) (331,8) (88,9) 1"NPT (6,1) Groove x Groove 1 N/A 2-1/2 Inch 17-3/16 13 1 5-3/4 6-7/8 13-3/4 3-1/2 16.8 2 Waterflow Alarm Switch: (DN65) (436,6) (330,2) (25,4) 1-1/4"NPT VSC with Paddle, (146,1) (174,6) (349,3) (88,9) (7,6) UUFM 1 976-357-02 3 Inch 17-3/16 13 1 6 7-1/8 14-1/4 3-1/2 VSC with Paddle and (DN80) (436,6) (330,2) (25,4) (152,4) (181,0) (362,0) (88,9) 1-1/4"NPT (8,5) Cover Tamper Switch, 4 Inch 20-1/2 13 4-5/16 7-9/16 9-1/16 16-5/8 4-1/2 2"NPT 32.7 ULC/FM 1 976-520-02 (DN100) (520,7) (330,2) (109,5) ,(192,1) (230,2) (422,3) (114,3) (14,8) 3 300 psi/2000 kPa 6 Inch 20-1/2 13 4-5/16 8-1/2 10 18-1/2 6-5/82"NPT 41.6 Water Pressure Gauge .. 1 2341 (DN150) (520,7) (330,2) (109,5) (215,9) (254,0) (469,9) (168,3) (18,9) 3 INCH(DN80)MANIFOLD NO. DESCRIPTION QTY. P/N 1 3"Manifold Body, 1 3 / Groove x Groove 1 N/A 2 Waterflow Alarm Switch: VSC with Paddle, di. UUFM 1 976-357-03 1 I VSC with Paddle and Drain Valve <I d1171.1111 Cover Tamper Switch, (Normally ,I ,- 1:,,l in Ir ULC/FM 1 976-520-03 Closed) 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 r• NOTES: A 1 =IIt 2 1. ULC Listed Manifolds are equipped with II'I�O i I, t o Cover Tamper Switches installed internal B F 111 c to the Waterfow Alarm Switches. - ..g 2. CH:Common Hardware ■m7 Nom I■ `a __ Test C D &Drain Valve G (Normally set - E - to"Drain") H - F - FIGURE 2 2 thru 6 INCH(DN50 thru DN150) RISER MANIFOLD ASSEMBLY AND DIMENSIONS Page 4 of 6 TFP962 SWITCH TERMINAL CONNECTIONS UNINSULATED CLAMPING SEVERED LOOPED SECTION CAUTION: PLATE STRIPPED SINGLE An uninsulated section of a TERMINAL ENDS CONDUCTOR single conductor is not \ SEPARATE CONDUCTORS 1111 permitted to be looped around CLAMPING `, the terminal and serve as two PLATE separate connections.The TERMINAL wire must be severed to serve ' INCOMING 44rir \` as two separate connections, therebc proidinsupervision of the connection in the event that the wire becomes dislodged from the terminal. 71> OUTGOING IMPROPER CONNECTION METHOD PROPER CONNECTION METHOD WATERFLOW SWITCH TYPICAL ELECTRICA CONNECTIONS CONTACTS SPDT(Form C) LOCAL END OF LINE 41) RESISTOR CONTACT RATING .... 5A @ 125 VAC SIGNAL 2.5A @ 30 VDC DEVICE NC NO �G NC Ep NO• �G NC 1f// M COM COM CONTROL POWER PANEL NO FLOW NON-SUPERVISED STYLE B/CLASS B CONDITION CIRCUIT SUPERVISED CIRCUIT (SEE NOTE) NOTE: For supervised circuits,see"Switch Terminal Connections"above.The Waterflow Alarm Switch has two switches,one can be used to operate a central station,proprietary or remove signaling unit,while the other contact is used to operate a local audible or visual annunciator. COVER TAMPER SWITCH(ULC ASSEMBLIES ONLY) CONTACTS SPDT(Form C) CONTACT RATING .... 3A @ 250 VAC 5A @ 125 VAC 1 mA @ 5 VDC min. NO I\ • NC COM CONTACTS SHOWN WITH COVER IN PLACE FIGURE 3 WIRING GUIDANCE • ' TFP962 Page 5 of 6 1-1/2"(DN40)Manifold Only: NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N To install optional Pressure Relief Trim on 1 3/8"Copper Tubing, 2 Pressure Relief Valve, a 1-1/2"(DN40)Manifold,a 1/2"NPT outlet 2"(DN50)Manifolds .... 1 971-124-01 175 psi,Nonadjustable .. 1 198-066-00 must be provided by the installer on the 2-1/2"(DN65)and 3 90°Compression Fitting system outlet piping,and a connection back 3"(DN80)Manifolds .... 1 971-124-02 Fitting 2 CH to the manifold drain trim must be fabricated 4"(DN100)and 4 1"x 1/2"Reducing Hex with installer supplied 3/8"copper tubing. 6"(DN150)Manifolds ... 1 971-124-03 Bushing 1 CH Discard unused trim components. CH:Common Hardware 3 1/2"NPT Installer Outlet Provided 1 3 4 / System Outlet ��� Piping MN SIIIMMINg Q1Installer1r .I._ / .I Fabricated3/8"Copper I�I��I, , �� Tubing2"(DN50),2-1/2"(DN65), < > 3"(DN80),4"(DN100),or 111 I) CI IN 6"(DN150)Manifold <I P- 3 jIIitI Manifold lip', _ Drain Trim _1. I■ip. ■ '. Manifold O FIGURE 4 OPTIONAL PRESSURE RELIEF VALVE Riser Manifold component in the field. Alarm/Flow Test Procedure Care and Only the pressure gauge, waterflow Maintenance alarm switch, or relief valve can be Step 1. Place the test&drain Valve in replaced. If any other problems are the"test" position. encountered the entire riser manifold Step2. Fullyopen the drain valve. The following inspection procedure must be replaced. p Make certain that drainage water will must be performed as indicated, in ad- dition to any specific requirements of The alarm/flow test procedure will re- not cause any damage or injury. the NFPA, and any impairment must suit in operation of the associated Step 3. Verify operation of associated be immediately corrected. alarms. Consequently, notification alarms. must be given to the owner and the fire The owner is responsible for the in- department, central station, or other Step 4. Close the drain valve. spection, testing, and maintenance of signal station to which the alarms are their fire protection system and de- connected, and notification must be Step 5. Place the test&drain Valve in vices in compliance with this docu- given to the building occupants. the"drain" position. ment, as well as with the applicable Step 6. Verify that the residual (flow- standards of the National Fire Protec- Before closing a fire protection system ing) pressure indicated by the pres tion Association (e.g., NFPA 25), in control valve for inspection or mainte sure gauge is no less that originally addition to the standards of anynance work on the fire protection sys- recorded for the system when it was authority having jurisdiction. The in- tem that it controls,permission to shut first installed. stalling contractor or product manufac down the effected fire protection sys- turer should be contacted relative to tem must first be obtained from the Step 7. Close the drain valve. any questions. proper authorities and all personnel Step 8.Verify that the static(not flow- who may be affected by this action in pressure indicated bythe res It is recommended that automatic must be notified. sureggauge is no less tht originally sprinkler systems be inspected, After placinga fireprotection system recorded for the system when giit was tested, and maintained by a qualified y y Inspection Service in accordance with in service, notify the proper authorities first installed. local requirements and/or national and advise those responsible formoni- codes. toring proprietary and/or central sta- tion alarms. NOTES No attempt is to be made to repair any Page 6 of 6 TFP962 Limited Ordering Warranty Information Products manufactured by Tyco Fire& Riser Manifold: Building Products (TFBP) are war- Specify; Size (specify), Figure 513, ranted solely to the original Buyer for (specify connection type inlet x outlet) ten(10)years against defects in mate- Riser Manifold (specify - without or rial and workmanship when paid for with) a cover tamper switch for the and properly installed and maintained waterflow alarm switch, P/N (specify). under normal use and service. This warranty will expire ten (10) years NOTES from date of shipment by TFBP. No Orders for Figure 513 may be filled warranty is given for products or com- with a Figure 13. The two assemblies ponents manufactured by companies are completely interchangeable in not affiliated by ownership with TFBP function, application, and end-to-end or for products and components which laying length. have been subject to misuse,improper If a ULC Listing is required, the Riser installation, corrosion, or which have Manifold must be ordered with a cover not been installed, maintained, modi tamper switch for the watertlow alarm fied or repaired in accordance with ap- switch. plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities UL/ULC/FM Assemblies Having Jurisdiction. Materials found With Cover Tamper Switch by TFBP to be defective shall be either 1-1/2 Inch(DN40) repaired or replaced, at TFBP's sole MT x FT P/N 4086 1-1/2 Inch(DN40) option. TFBP neither assumes, nor MT x MT P/N 4087 authorizes any person to assume for it, 2 Inch(DN50) any other obligation in connection with G x G P/N 4090 the sale of products or parts of prod- 2-1/2 Inch(DN65) P/N 4091 ucts.TFBP shall not be responsible for 3 Inch(GN80) sprinkler system design errors or inac- G x G P/N 4092 curate or incomplete information sup- 4 Inch(DN100) plied by Buyer or Buyer's repre- G x G P/N 4095 sentatives. 6 Inch(DN150) G x G P/N 4096 In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, UL/FM Assemblies Without cover Tamper Switch indirect,special or consequential dam- 1- /2 Inch (DN40) ages, including but not limited to labor MT x FT P/N 4055 charges, regardless of whether TFBP 1-1/2 Inch (DN40) was informed about the possibility of MT x MT P/N 4056 such damages, and in no event shall 2 Inch G x(GN50) P/N 4060 TFBP's liability exceed an amount 2-1/2 Inch(DN65) equal to the sales price. G x G P/N 4061 3 Inch(DN80) The foregoing warranty is made in lieu G x G P/N 4062 of any and all other warranties. ex- 4 Inch(DN100) press or implied. including warranties G x G P/N 4065 of merchantability and fitness for a par- 6 Inch(DN150) ticular purpose. G x G P/N 4066 This limited warranty sets forth the ex- clusive remedy for claims based on Optional Pressure Relief Valve: failure of or defect in products, materi- Specify: Operational Pressure Relief als or components, whether the claim Valve and Trim for use with (specify is made in contract, tort, strict liability size) Figure 513 or 13 Series Riser or any other legal theory. Manifold, P/N (specify). This warranty will apply to the full ex- tent permitted by law.The invalidity, in 1-1/2"or 2" P/N 4063 whole or part, ofany portion of this 4or 3" P/N 4072 4""oor r 6" P/N 4073 warranty will not affect the remainder. Replacement Parts: Specify: (description)for use with Fig- ure 513 or 13 Riser Manifold, P/N(Ref. Figure 1 or 2, as applicable). TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue, Lansdale, Pennsylvania 19446 Gauges Gauges For use with wet or dry systems. Gauges have a bronze burbon tube movement in a stainless steel ` ri _ "' " case. (unless otherwise noted) : ,- Y-.4,.f; ; * .- ;' n 3-1/2" diameter. • _` . k h� ,. '""A-At r r. -, UL and FM approved. (unless otherwise noted) w41' , ' t 3 rA x�tr k a,,, .a .:f'411: 1:;„.,1 4_.,:..1!i:::;,,,,.I.vI4,,,,,,,l'i'Iy,,:',..it:'`e..i,:4,;;..,,,',...T';II::11,,t.1 , T '"' tr...`*e ; 4. 44. A 0,4 v Part No. Description Box Qty Box Crate Case Weight Qty Weight GAAWSS350 AIR/WATER 0 - 300 PSI 60 42# 480 535# W/STAINLESS STEEL CASE GAASS250 AIR W/RETARD 250 PSI 60 40# 480 530# 3-1/2" DIA, W/STAINLESS STEEL CASE GAWP200 2" RESIDENTIAL GAUGE 300 PSI 150 45# 1200 580# (NOT U.L. OR F.M. APPROVED) W/ BLACK STEEL CASE GAUGE KITS — AIR OR AIR/WATER GAKITAWSS350 AIR W/ /WATERSTAINLESS GAUGESTEEL OCA- 300 PSI 10 14# NA NA , 1/4" X 4" NIPPLE, 1/4" 3-WAY VALVE, 1/4" PLUG, 1/2" X 1/4" HEXHEAD REDUCING BUSHING GAKITAOSS250 AIR GAUGE 0 - 250 PSI 10 14# NA NA W/STAINLESS STEEL CASE, 1/4" X 4" NIPPLE, 1/4" 3-WAY VALVE, 1/4" PLUG, 1/2" X 1/4" HEXHEAD REDUCING BUSHING www.breccocorp.com Email: sales@breccocorp.com PAGE: GA-1 800Z-Hd boleIe0 :z SOWN :l SalON :alea Ien!wgnS :mIaewad :aaau!6ug panoidde ION ❑ :aolaealuo3 palou se panoaddy❑ :ssaippy panoaddy r :Inlaid dWy1S 1y1101iddtl NOI1VWliO3NI 13] O Id /4 H.056)o ainleiadwai wnw!xeW■ 9%. 9/ 9%l IA WI 3 %I- 9L'0 09L 096 9Z1. % % % % 9L/1. 9%s u/sZ 91Al 170 00Z 005 09 V B , \, :,,, wonog dol anle� 3ZIS V H 9 3 3 a 3 lu6iaM anbaol mans azls ■speol xew log poo (S8l-NI) 3nb o1 • (NI) SNOISN3WIa • (S91) IHDI3M • (S81) avoi :£6 '91d „G M3a0S US Iy U. •• U%-- 1nN-Mr iii. 04 9NIlStlO I I } — a INi >�<< ysiu�}pue dwep Jo I aweu'iagwnu ainSy.'az!s 03SOdX3 38 poi Xjpads:Supapao Bow aoa ao _� s ssau>a!y� atl3aHl llnl en H 3NOlSV3l1V 1---3--I 31 „lit L 01 do yo!M /� 0 H� aSueg of Su!yaell.e ion)eoiy..iapM • poi papealy ay.Jo luawlsnfpe papuaaxa sz!wiad 3u4sea Xpoq aye Jo Su!ddel.mid_ • -Su!.sej Xpo(a ay.1.su!eSe Mains las ay.Su!ualyS!. L .- - ion pap!noid s!InN we(y'aSueu ayl IsureSe paualyS!.mans las palu!od-dna e Xq aaeld u! painaaS • suo!l!sod weaq wolloq io weaq dol.ay.iayl!a ua siagwaw leinnnils 4o saSueg leluoz!ioy of payaelle aq hw Xyl • :sawn;eaj 180Z aSed uo salgel aas)69-ds-SSW iad sanlen anbiol Mains las papuawwoaai Mollod:uoi;epe;sul pasn aq(DI poi Jo az!s i(q pau!wialap Si dwep Jo azis:anis ol.MOH •.,,.a-_--. •panoiddy Ind pue pals!1 Din'in 1EZ'2 6L adXl)SS-dS SSW pup 69-dS SSW /ISNV'(£Z odic')3-LLL-H MM '(a'8 61.ad/Ci)vZ6LL-`d-v uo!}eay!aadS leiapad pm salldwoj:slenoaddy „e/, L paaaxa 1 1.ou scop asuel}io 1S!oi40 SS UlD!tJ ay.aiayM pue aSuei ay Jo aspa aye wag Jas}Jo aq of pai!nbai s! poi iasuey leal.ian ay.aiayM sadeys leinpnils jo asuel;woiloq io dol ay.o..}uawyaelle ioJ JO'suo!pniasuoa ads 1.Is!of ieq 11 !M suop.epelsu!J.00i iapun asn io4 papuawwoaa�!:a3inaag paz!uenleD O pue u!eld ❑:ysiwu y, lnwlaol pue MaiaS las lu!od dna pals pauapiey'dwep uoi! al!nna/algealleW:leiaa;eyy „y,pue„a/£:a8ueb azig (leanly aptm) duuelD adlii.-D Ies1aA!un £6 •$t3 iniwl(i) SdINV13 Wn38 • E D� CADDY® Swivel Loop Hanger 115* CADDY Features • Adjustable Band Hanger with NFPA Rod Sizes • Size Range: 2-1/2"through 8" • Surface Finish: Electro-zinc plated • Manufactured to use the minimum rod = size permitted by NFPA for fire sprinkler ,, piping • Conforms with Federal Specification WW-H-171 (Type 10), Manufacturers '4 Standardization Society (MSS) SP-58 and SP-69 (Type 10) • Features a retained insert nut to ensure that the loop hanger and insert nut stay together Applications Recommended for the suspension of stationary non-insulated pipe lines More Information Part Number Nominal Pipe Size RS A g Max Rec Load (lbs) 1150250EG 2-1/2" 3/8" 5-9/16" 1" 525 1150300EG 3" 3/8" 6-9/16" 1" 525 1150350EG 3-1/2" 3/8" 7-1/16" 1" 585 1150400EG 4" 3/8" 7-9/16" 1" 650 1150500EG 5" 1/2" 9-3/16" 1-1/4" 1000 1150600EG 6" 1/2" 11-5/16" 1-1/4" 1000 1150800EG 8" 1/2" 12-7/8" 1-1/4" 1000 * Please note that the dimensional and technical information listed applies only to the redesigned Model 115 Swivel Loop Hanger,which will begin shipping on June 26, 2006. RS -- = — O# 8 e .11"'"----1 fit < A lf �� 3t Copyright©2007 ERICO International Corporation. misinry Installation Systems Product Submitted: Threaded Rod ,V,$,i,t,tt1.,at%ti'4lA'tA4'I4yyl*S0IAWiiVe 1 A'i tVk lii"il_0%OAi+At>6's OA et NY 0 "4* r.f.`IP t• let* a Nelwoo a (*APO( r*f+,* Size Range: 1/4"-3/4" in 6' and 10' lengths Material: AISI 1008 - 1010 or ASTM A36 Steel Finish: Plain Oil or Zinc Plated Ordering/Technical Information: Tube Weight Wt. (lbs) Diam. Pitch Major Max allow Item No. Description Qty Lb/ft per pkg. In. Diameter Diameter Material tensile In. In. load (lb)** 00257963 1/4"-6'THREADED ROD- 50 .12 35.70 1/4-20 .2164-.2108 .2489-.2367 AISI 1008- 240 ZINC 1010 00257964 3/8"-6'THREADED ROD- 25 .30 42.60 3/8-16 .3331-.3266 .3737-.3595 AISI 1008- 610 ZINC 1010 00257965 1/2"-6'THREADED ROD- 12 .50 38.80 1/2-13 .4485-.4411 .4985-.4822 AISI 1008- 1130 ZINC 1010 00257966 5/8"-6'THREADED ROD- 8 .84 39.80 5/8-11 .5644-.5561 .6234-.6052 AISI 1008- 1810 ZINC1010 00257967 3/4"-6'THREADED ROD- 5 1.20 36.20 3/4-10 .6832-.6744 .7482-.7288 ASTM A36 2710 ZINC 00257968 1/4"-6'THREADED ROD- 50 .12 35.70 1/4-20 .2164-.2108 .2489-.2367 AISI 1008- 240 PLAIN 1010 00257969 3/8"-6'THREADED ROD- 25 .30 42.60 3/8-16 .3331-.3266 .3737-.3595 AISI 1008- 610 PLAIN 1010 00257970 1/2"-6'THREADED ROD- 12 .50 38.80 1/2-13 .4485-.4411 .4985-.4822 AISI 1008- 1130 PLAIN 1010 00309386 1/4"-10'THREADED ROD- 50 .12 59.50 1/4-20 .2164-.2108 .2489-.2367 AISI 1008- 240 ZINC 1010 00309387 3/8"-10'THREADED ROD- 25 .30 71.30 3/8-16 .3331-.3266 .3737-.3595 AISI 1008- 610 ZINC 1010 00309388 t/2"-10'THREADED ROD- 12 .50 61.40 1/2-13 .4485-.4411 .4985-.4822 AISI 1008- 1130 ZINC 1010 00309389 5/8"-10'THREADED ROD- 8 .84 66.50 5/8-11 .5644-.5561 .6234-.6052 AISI 1008- 1810 ZINC 1010 - 00309390 3/4"-10'THREADED ROD- 5 1.20 60.00 3/4-10 .6832-.6744 .7482-.7288 ASTM A36 2710 ZINC 00309391 1/4"-10'THREADED ROD- 50 .12 59.50 1/4-20 .2164-.2108 .2489-.2367 AISI 1008- 240 PLAIN 1010 00309392 3/8"-10'THREADED ROD- 25 .30 71.30 3/8-16 .3331-.3266 .3737-.3595 AISI 1008- 610 PLAIN 1010 00309393 1/2"-10'THREADED ROD- 12 .50 61.40 1/2-13 .4485-.4411 .4985-.4822 AISI 1008- 1130 PLAIN 1010 00309394 5/8"-10'THREADED ROD- 8 .84 66.50 5/8-11 .5644-.5561 .6234-.6052 AISI 1008- 1810 PLAIN 1010 00309395 3/4"-10'THREADED ROD- 5 1.20 60.00 3/4-10 .6832-.6744 .7482-.7288 ASTM A36 2710 PLAIN ** Per MSS SP-58, the maximum allowable tensile loads are based on an allowable tensile stress of 12,000 psi reduced by 25% resulting in 9,000 psi. The 12,000 psi allows for the interchangeability of the referenced rod materials. The 25% reduction is to allow for normal installation and service conditions. Hiiti. Outperform. Outlast. Hilt,Inc.(US)1-800-879-8000 www.us.hilti.com•Servicio al Cliente en espanol 1-800-879-5000•Hilt(Canada)Corporation 1-800-363-4458 www.ca.hifti.com fico Fire & Buildingr Products Technical Services: Tel: (800) 381-9312/ Fax: (800)791-5500 Identification Signs For Sprinkler Systems and Devices NFPA 13 Signing Requirements GeneralWARNINGS Care and The Identification Signs described Description herein must be installed and main Maintenance p tained in compliance with this docu ment, as well as with the applicable Identification Signs (Ref. Figure 1) are The following inspection procedure designed to provide information to the standards of the National Fire Pro must be performed as indicated,in ad- end user about the sprinkler system tection Association, in addition to the dition to any specific requirements of and its components. They are avail- standards of any other authorities hav the NFPA, and any impairments must able with a variety of wording combi- ing jurisdiction. Failure to do so may be immediately corrected. nations to meet the signing require impair the performance of these ments of NFPA 13. devices. The owner is responsible for the in- The owner is responsible for maintain- The testing, and maintenance of The five basic types of Identification their fire protection system and devic- Signs are as follows: ing their fire protection system and de es in compliance with this document, vices in proper operating condition. as well as with the applicable stan- Type A- Control Valve Sign The installing contractor or sprinkler dpp Type B- Multi-Purpose Text Signs manufacturer should be contacted Associationsof the National 25),Fire in Protectionddi (See Below) with any questions. (e.g., NFPA in addition to the standards of any authority hav- Type D-Fire Alarm Sign ing jurisdiction. The installing contrac- Type E- Hydraulic Calculation Sign Technical tor or product manufacturer should be contacted relative to any questions. Type B- Identification Signs are avail- Data It is recommended that automatic sprin- able with the following text options: kler systems be inspected, tested, and AIR CONTROL Material&Finish maintained by a qualified Inspection 18 gauge aluminum with mylar facing. Service in accordance with local re- AIR LINE ALARM TEST quirements and/or national codes. Width x Height After placingfireprotection system ANTIFREEZE SYSTEM a y AUXILIARY DRAIN Inches (mm) in service, notify the proper authorities CONTROL VALVE Type A 9 x 7 (229 x 178) and advise those responsible for mon- itoring proprietary and/or central sta- DRAIN Type B 6 x 2 (152 x 51) tion alarms. DRAIN VALVE Type C 73A x 11/4 (197 x 32) INSPECTION PROCEDURE INSPECTORS TEST MAIN CONTROL Type D 9 x 7 (229 x 178) Annual visual inspections are recom- MAIN DRAIN Type E 5 x 7 (127 x 178) mended to ensure that Identification Signs are properly located. Installation The Identification Signs are provid- ed with 1/8 Inch (3,2 mm) diameter or larger holes(or slots)in the corners for easy attachment using standard hard- ware chain, wire, plastic lock ties, or light gauge metal strap(not included). Page 1 of 4 AUGUST, 2007 TFP1615 Page 2 of 4 TFP1615 • THIS VALVE CONTROLS SUPPLY AUTOMATIC SPRINKLERS SPRINKLER TO • FIRE - ALARM • • • MUST OPEN MAES WHEN BELL RINGS TO BE HANDLED ONLY SY AUTHORIZED PERSON OR BY EMPLOYEE CARING FOR SPRINKLER SYSTEM CALL IN CASE OF FIRE DO NOT SHUT VALVE UNTIL FIRE IS ENTIRELY OUT FIRE D E P'T OR POLICE WHEN VALVE IS SHUT FOR EMERGENCY-REPAIRS•OR FIRE- NOTIFY: REQUEST DIRECTIONS••RESTORE PROTECTION QUICKLY SIGN- TYPE A, P/N 2300A SIGN- TYPE D RECTANGULAR 6-1/2"X 8-1/2", P/N 2316 OR ROUND 7-1/4"DIAMETER, P/N 2329 • • • HYDRAULIC-SYSTEM S AUXILIARY DRAIN This Building is Protected by a • • Hydraulically Designed Automatic Sprinkler System SIGN- TYPE B, AVAILABLE WITH THE Location 1111111.1111111111.111 FOLLOWING TEXT OPTIONS "AIR CONTROL" P/N 2328 No. of Sprinklers "AIR LINE" P/N 2302 "ALARM TEST" P/N 2304A Basis of Design "ANTIFREEZE SYSTEM" P/N 2306 1, DENSITY {gpI{l/SQ,FT, "AUXILIARY DRAIN" P/N 2307 "CONTROL VALVE" P/N 2310 2. DESIGNED AREA OF DISCHARGE SQ.FT. "DRAIN" P/N 2311 "DRAIN VALVE" P/N 2327 System Demand "INSPECTORS TEST" P/N 2313 11111111E2"MAIN COCONTROL" P/N 2319 1 WATER FLOW RATE "MAIN DRAIN" P/N 2320 2 RESIDUAL PRESSURE AT THE PSI BASE OF THE RISER • • SIGN- TYPE E, P/N 2317 FIGURE 1 IDENTIFICATION SIGNS TFP1615 Page 3 of 4 Limited Ordering Warranty Procedure Products manufactured by Tyco Fire Orders must include the description & Building Products (TFBP) are war- and Part Number (P/N). Contact your ranted solely to the original Buyer for local distributor for availability. ten (10)years against defects in mate- rial and workmanship when paid for Hardware for hanging is not sup- and properly installed and maintained plied with the Sign. It must be ordered under normal use and service. This separately. warranty will expire ten (10)years from Identification Signs, date of shipment by TFBP. No warran- (Types A, C, D,or E) ty is given for products or components Specify:Type(A, C, D, or E) manufactured by companies not af- Identification Sign, P/N(specify). filiated by ownership with TFBP or for Identification Signs products and components which have (Type B) been subject to misuse, improper in- Specify: Type B Identification Sign in- stallation, corrosion, or which have not scribed (specify,e.g. AIR CONTROL"), been installed, maintained,modified or P/N(specify). repaired in accordance with applicable Standards of the National Fire Protec- Type A P/N 2300A tion Association, and/or the standards Type D(Round) P/N 2329 of any other Authorities Having Juris- Type D(Rectangle) P/N 2316 diction. Materials found by TFBP to be Type E P/N 2317 defective shall be either repaired or re- placed, at TFBP's sole option. TFBP Type B neither assumes, nor authorizes any AIR CONTROL" P/N 2328 person to assume for it, any other ob "AIR LINE" P/N 2302 ligation in connection with the sale of "ALARM TEST" P/N 2304A products or parts of products. TFBP "ANTIFREEZE SYSTEM" P/N 2306 shall not be responsible for sprinkler "AUXILIARY DRAIN" P/N 2307 system design errors or inaccurate or "CONTROL VALVE" P/N 2310 incomplete information supplied by "DRAIN" P/N 2311 Buyer or Buyer's representatives. "DRAIN VALVE" P/N 2327 In no event shall TFBP be liable, in "INSPECTORS TEST"" P/N 2313 contract, tort, strict liability or under "MAIN CONTROL" P/N 2319 any other legal theory, for incidental, "MAIN DRAIN" P/N 2320 indirect,special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex- press or implied, including warranties of merchantability and fitness for a particular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Page 4 of 4 TFP1615 • TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale Pennsylvania 19446 UL/cUL SYSTEM NO. C-AJ-1150 METAL PIPE THROUGH CONCRETE FLOORIWALL OR BLOCK WALL F-RATING = 3-HR. T-RATING = 0-HR. L-RATING AT AMBIENT= LESS THAN 1 CFMISQ. FT. L-RATING AT 400° F = 4 CFMISQ. FT. W-RATING = CLASS I (SEE NOTE NO. 4 BELOW) TOP VIEW SECTION A-A T � . _ 4 _4 © II d . ° d' c 0 A A ��.. 0 d. n a d .4 d 4 - 1. CONCRETE FLOOR OR WALL ASSEMBLY (3-HR. FIRE-RATING): A. ANY LIGHTWEIGHT OR NORMAL WEIGHT CONCRETE FLOOR OR WALL (MINIMUM 4-112" THICK). B. ANY UL/cUL CLASSIFIED CONCRETE BLOCK WALL. 2. PENETRATING ITEM TO BE ONE OF THE FOLLOWING: A. MAXIMUM 6" NOMINAL DIAMETER STEEL PIPE (SCHEDULE 40 OR HEAVIER). B. MAXIMUM 6" NOMINAL DIAMETER CAST IRON PIPE. C. MAXIMUM 6" NOMINAL DIAMETER STEEL CONDUIT. D. MAXIMUM 4" NOMINAL DIAMETER EMT. 3. MINIMUM 4" THICKNESS MINERAL WOOL (MINIMUM 4 PCF DENSITY) TIGHTLY PACKED AND RECESSED TO ACCOMMODATE FIRESTOP SEALANT. 4. MINIMUM 1/4" DEPTH HILTI FS-ONE INTUMESCENT FIRESTOP SEALANT, CP 601S ELASTOMERIC FIRESTOP SEALANT, CP 604 SELF-LEVELING FIRESTOP SEALANT, OR CP 606 FLEXIBLE FIRESTOP SEALANT. 5. MINIMUM 1/2" BEAD HILTI FS-ONE INTUMESCENT FIRESTOP SEALANT, CP 601S ELASTOMERIC FIRESTOP SEALANT, OR CP 606 FLEXIBLE FIRESTOP SEALANT APPLIED AT POINT OF CONTACT. (NOT REQUIRED WHEN CP 604 SELF-LEVELING FIRESTOP SEALANT IS USED, ITEM NO. 4). NOTES : 1. MAXIMUM DIAMETER OF OPENING = 8". 2. ANNULAR SPACE = MINIMUM 0", MAXIMUM 1-3/8". 3. MINIMUM 1/4" DEPTH HILTI FS-ONE INTUMESCENT FIRESTOP SEALANT, CP 601S ELASTOMERIC FIRESTOP SEALANT, OR CP 606 FLEXIBLE FIRESTOP SEALANT IS REQUIRED ON BOTH SIDES OF A WALL ASSEMBLY. 4. W-RATING APPLIES ONLY WHEN CP 601S ELASTOMERIC FIRESTOP SEALANT OR CP 604 SELF-LEVELING FIRESTOP SEALANT IS USED. Sheet 1 of 1 Drawing No. I H' HILTI, Inc. Scale 11164"=1" CAJ Tulsa, Oklahoma USA(918)252-6000 FIRESTOP SYSTEMS Date Oct.18,2004 1150r Saving Lives through Innovation and Education UL/cUL SYSTEM NO. W-L-1054 METAL PIPE THROUGH 1-HR. OR 2-HR. GYPSUM WALL ASSEMBLY F-RATING = 1-HR. OR 2-HR. T-RATING = 0-HR. L-RATING AT AMBIENT = LESS THAN 1 CFMISQ. FT. L-RATING AT 400°F = 4 CFMISQ. FT. FRONT VIEW SECTION A-A O A © 'lllord 1111111Y 0 A 1. GYPSUM WALL ASSEMBLY (UL/ULC CLASSIFIED U300 OR U400 SERIES) (1-HR. OR 2-HR. FIRE-RATING) (2-HR. SHOWN). 2. (NOT SHOWN). WOOD STUDS TO CONSIST OF NOMINAL 2" x 4" LUMBER. STEEL STUDS TO BE MINIMUM 2-1/2" WIDE. 3. PENETRATING ITEM TO BE ONE OF THE FOLLOWING : A. MAXIMUM 30" DIAMETER STEEL PIPE (SCHEDULE 10 OR HEAVIER). B. MAXIMUM 30" DIAMETER CAST IRON PIPE. C. MAXIMUM 6" NOMINAL DIAMETER COPPER PIPE. D. MAXIMUM 6" NOMINAL DIAMETER STEEL CONDUIT. E. MAXIMUM 4" NOMINAL DIAMETER EMT. 4. MINIMUM 5/8" DEPTH HILTI FS-ONE INTUMESCENT FIRESTOP SEALANT. 5. MINIMUM 112" BEAD HILTI FS-ONE INTUMESCENT FIRESTOP SEALANT AT POINT OF CONTACT. NOTES : 1. MAXIMUM DIAMETER OF OPENING : A. 32-1/4" FOR STEEL STUD WALLS. B. 14-1/2" FOR WOOD STUD WALLS. 2. ANNULAR SPACE = MINIMUM 0", MAXIMUM 2-1/4". 3. PIPE MAY BE INSTALLED WITH CONTINUOUS POINT OF CONTACT. 4. PIPE MAY BE INSTALLED AT AN ANGLE NOT GREATER THAN 45° FROM PERPENDICULAR. Sheet 1 of 1 Drawing No. 1 H ® HILTI, Inc. Scale 7132"=1" WL L— Tulsa, Oklahoma USA(918)252-6000 FIRESTOP SYSTEMS Date Nov.6,2002 1054q Saving Lives through Innovation and Education