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20100076 Fire Sprinkler Permit 09132010
City of Yelm Community Development Department Building Division Phone: (360) 458-8407 Fax: (360) 458-3144 Permit No.: 20100076 Issue Date: 9113/2010 (Work must be completed within 180 days) Applicant: Name: LES SCHWAS TIRE CENTER Address: 20900 COOLEY ROAD BEND OR 97701 Property Information: Site Address: R11 YFI M eVF FAST Assessor Parcel No.: Contractor Information: Name: LS CONSTRUCTION CO Address: BEND OR 97708 Contractor License No.: Phone: 541-416-5206 Owner: Les Schwab Tire Center Subdivision: Lot: Phone: Expires: 0/00/0000 Project Information: Project: NEW COMMERCIAL BUILDING Description of Work: Sq. Ft. per floor: First 12427 Second 683 Third Garage Basement Heat Type (Electric, Gas, Other): COMBO-SEE NOTES Fees: Item Contractor Fees FIRE SPRINK EMERALD FIRE $ 978.86 Applicant's Affidavit: I certify that I have read and examined the information contained within the application and know the same to be true and correct. I also certify that the proposed structure is in conformity with all applicable City of Yelm regulations including those governing zoning and land subdivision, and in addition, all covenants, easements and rest fictions of record. If appy~i g as a contractor, I further certify that I am currently registered in t11e S~e ojW~stjifi~. ~~ Signature ~~~,`(~~~~,~r~~ Date y ~,3~/ ~ Firm L~7(i( L~~. ~ !'1 `LC a~ (~ OFFICIAL USE ONLY # Sets of Prints: Final Inspection: Date: sy: ~i t~ of Y~l~ c~~f~o~ 453-340 REC#: OOO~a730 9l13!?O10 ,;:~ FM OFER: CD TERM: 001 REF#: ~~840 TRAM: x;;,0000 RUII_DING F'ERl~ITS 01000?b ~j;~, 3F~CR LES SCH4IAD TIRE CENTER 811 YELM AVE EAST FIRE SFR~ lK rj`13.3F~CR TENDERED: '.~?3.3E, CHECk; REPLIED: '~"r8,~jb- CHANGE: ----------0.00 CITY OF YELM COMMERCIAL BUILDING PERMIT APPLICATION FORM Project Address: ~O~ ~P I Yy ~iVP- t-_ Parcel #: 2 2~3 ~D 12 I (®O~ Zoning; Current Use: Proposed Use: ,..New Construction ^ Re-Model 1 Re-Roof I Tenant Improvement ^ Plumbing ^ Mechanical Fire Prevent/Suppress/Alarm ^ Other Project Description/Scope of Work: ~1'1S ~ l ~ Y 1'E ~~; ..~ ; e ~ L~ C'_SS 1C~3~ S ~~ S~'C~'1 , Project Value: ~ ~S ~ ~~ Building Area (sq. ft) Parking Garage 1 g' Floor 2"d Floor 3`~ Floor Building Height Are there any environmentally sensitive areas located on the parcel? _ completed environmental checklist must accompany permit application. If yes, a BUILDING OWNER/TENANT NAME: ADDRESS EMAIL CITY STATE ZIP TELEPHONE ARCHITECT/ENGINEER ~ LICENSE # ADDRESS EMAIL CITY STATE ZIP TELEPHONE GENERAL CONTRACTOR'" ~ TELEPHONE ~ZS- z8~-/-LfDOd ADDRESS 2 ~ ~~- ~ - '`. ` ' ~ - EMAIL CITY ~ STATE ZI FAX j-f ? ~ - Z~3~f - /~t~ CONTRACTOR'S LICENSE # EXP DATE CITY LICENSE # PLUMBING CONTRACTOR TELEPHONE ADDRESS EMAIL CITY STATE ZIP FAX CONTRACTOR'S LICENSE # EXP DATE CITY LICENSE # MECHANICAL CONTRACTOR TELEPHONE ADDRESS EMAIL CITY STATE ZIP FAX CONTRACTOR'S LICENSE # EXP DATE CITY LICENSE # Copy of City Mitigation documentation (TFC). I hereby certify that the above information is correct and that the construction on, and the occupancy and the use of the above described property will be i ccordance with the laws, rules and regulations of the State of Washington and the City of Yelm. L~ e Date Owner's Agent /Contractor's Agent /Tenant (Please circle one.) All permits are non-transferable and will expire if work authorized by such permit is not begun within 180 days of issuance, or if work is suspended or abandoned for a period 1~~1~~~~ A~~7 0 b 2~~~ 105 Yelm Avenue West (360) 45 -3 35 PO Box 479 (360) 458-3144 FAX Yelm, WA 98597 www.ci.yelm.wa.us EMERALD FIRE Fire Sprinkler Specialists 11021 Cramer Road KPN, Gig Harbor, WA 98329 Tel: (253) 857-2056 Fax: (253) 857-2312 LETTER OF TRANSMITTAL To: City of Yelm Community Development WE ARE SENDING YOU X Attached Shop Drawings ^ Prints ^ Copy of Letter ^ Change Order DATE: 8-5-10 JOB NO.: 210105 ATTENTION: Gary RE: Les Schwab Tire Center Yelm, Washington ^ Under separate cover via ^ Plans ^ Samples Letter the following items: Specifications COPIES DATE NO. DESCRIPTION 1 City Permit Application 1 Emerald Fire $35 Check for city permit 1 Building Permit Application -Sprinkler Installation 2 Fire Sprinkler Product Data 5 Fire Sprinkler Hydraulic Calculations 5 Fire Sprinkler Shop Drawings THESE ARE TRANSMITTED as checked below: For approval ^ Approved as submitted ^ Resubmit copies for approval For your use ^ Approved as noted ^ Submit copies for distribution As requested ^ Returned for corrections ^ Return corrected prints X For review and comment ^ . ^ FOR BIDS DUE [PRINTS RETURNED AFCER LOAN TO US REMARK Gary, If you have any questions, please contact our office at 253-857-2056. Thank you, CC: FILE BY: Dominika D ~ ~ ~ ~~ AUG U ~ 2010 B Y: ---------- Contractors or Tradespeople Detail Washington State Department of tabor & Industries Contractors or Tradespeople Detail Return to List ? Start a New Search > ~ Printer friendly Verify Workers' Comp Premium Status Check for Dept. of Revenue Account Page 1 of 2 About General/Specialty Contractor A business registered as a construction contractor with I.8tI to perform construction work within the scope of its specialty. A General or Specialty construction Contractor must maintain a surety bond or assignment of account and carry general liability insurance. Business and Licensing Information Name EMERALD FIRE LLC UBI No. ~ 602211955 Phone No. (2531 857-2056 Address 11021 Cramer Rd Kpn S[a[us ~ Active Suite/Apt. License No. EMERAFL980MR City GIg Harbor License Type ~ Construction Contractor State WA Effective Date 7/19/2002 Zlp 98329 Expiration Date 7/19/2012 County Pierce Suspend Date Business Type Limited Liability Company Parent Company Specialty 1 ~ General Specialty 2 ~ Unused Other Associated Licenses License Name Type Specialty Specialty Effective Expiration Status 1 2 Date Date TRINITY FIRE Construction TRINIFPIOIDK General Unused 3/12/1990 12/12/2002 Archived PROTECTION INC Contractor TRINITY FIRE Construction TRINIFP135B2 General Unused 1 /22/1987 3/10/1990 Archived PROTECTION Contractor Business Owner Information - Hide All Name Role Effective Date Expiration Date HILLSTROM, KATHY JILL Partner/Member 07/19/2002 BELL, ROSS Partner/Member 07/19/2002 https://fortress.wa.gov/lni/bbip/Result.aspx 08/27/2010 Contractors or Tradespeople Detail HILLSTROM, KEITH ROSS ~' Bond Information Partner/Member ~ 09/09/1951 Page 2 of 2 Bond Bond Company Name Bond Account Number Effective Date Expiration Date Cancel Date Impaired Date Bond Amount Received Date DEVELOPERS 3 SURETY & INDEM 742214C 07/01 /2006 Until $12,000.00 06/06/2006 CO Cancelled ACCREDITED 2 SURETY & CAS CO 10023420 07/01 /2004 Until 1 1 /1 7/2006 $12,000.00 07/14/2004 INC Cancelled Assignment of Savings Information No records found for the previous 6 year period '~ Insurance Information Insurance Company Policy Number Effective Expiration Cancel Impaired Amount Recelved Name Date Date Date Date Date STEADFAST 13 INS CO GL0599261300 08/O1/ZO10 08/01/2011 $1,000,000.00 07/29/2010 STEADFAST 12 INS CO GL0946999500 08/01/2009 08/01/2010 $1,000,000.00 07/30/2009 LEXINGTON 11 INS CO 41LX92716982 08/01/2008 08/01/2009 $1,000,000.00 07/31/2008 LEXINGTON 10 INS CO 41LX92716980 08/01/2007 08/01/2008 $1,000,000.00 08/02/2007 LEXINGTON 9 INS CO 41 LX92716980 08/01 /2006 O8/O1 /2007 $1 ,000,000.00 08/02/2006 LEXINGTON 8 INS CO 0801200607 08/01/2006 08/01/2007 $1,000,000.00 07/31/2006 MIRALINS 7 CO CA00000740701 08/01/2005 08/01/2006 $1,000,000.00 08/01/2005 BURLINGTON 6 INS CO HGL0006865 08/01/2005 08/01/2006 $1,000,000.00 07/28/2005 BURLINGTON 5 INS CO HGL0006865 08/01/2004 08/01/2005 51,000,000.00 08/04/2004 BURLINGTON 4 INS CO HGL0003720 08/01/2004 08/01/2005 $1,000,000.00 07/30/2004 ~' Summons; Complaint Information J No unsatisfied complaints on file within prior 6 year period `~ Warrant Information J No unsatisfied warrants on file within prior 6 year period r) Washington State Dept. of Labor and Industries. Use of this site is subject to the laws of the state of Washington. https://fortress.wa.gov/lni/bbip/Result.aspx ~liCC55 ttrasitingtnn"' 08/27/2010 LES SCHWAB TIRE CENTER 805 YELM AVE EAST, YELM, WASHINGTON FIRE SPRINKLE R PRODUCT SUBMITTAL DATA FILE CGr d EMERALD FIRE, LLC ~y~ 5 1 GIG HA OR, W ~ 329N O ~ ~ ~ ~ V L PHONE: 253-857-2056 ~ FAX: 253-857-2312 Abu ~ e 2J10 LES SCHWAB TIRE CENTER 805 YELM AVE EAST, YELM, WASHINGTON FIRE SPRINKLER PRODUCT SUBMITTAL DATA 1. Globe QR GL5626 %" 155* Brass Horizontal SW Sprinkler 2. Globe QR GL5601 %2" 155* Chrome Recessed Pendent Sprinkler 3. Globe ''/z" Chrome 2 Pc. Extended Escutcheons 4. Tyco D-1 Model TY3355 1" 155* Chrome Dry Horizontal SW Sprinkler 5. Tyco Model TY9226 ESFR-25 1" 165* K=25.20 Brass Pendent Sprinkler 6. Globe Spare Head Cabinet (12) 7. Allied Tube & Conduit Dyna-Flow Pipe (2 'h"-4") 8. Allied Tube & Conduit Schedule 10 Pipe (1 ''/z" & 6" & 8") 9. Allied Tube & Conduit Schedule 40 Pipe (1"-1 ''/z") 10. Anvil International Black Cast Iron Threaded Fittings 11. Tyco / Grinnell Grooved Fittings 12. Victaulic Firelock Rigid Coupling 13. Victaulic Flexible Coupling 14. Globe Model GLR300G 3" Grooved Butterfly Valve 15. Globe Model RCV 4" & 6" Grooved Check Valve 16. Victaulic 768 GxG 3" Dry Pipe Valve 17 Tyco Mode1513 6" Riser Manifold 18. Tolco #4A Pipe Clamp for Sway Bracing 19. Tolco #25 Surge Restrainer 20. Tolco #65 Reversible C-Type Beam Clamp 21. Tolco #69 Beam Clamp Retaining Strap 22. Tolco #100 All Thread Rod 23. Tolco #200 "Trimline" Adjustable Band Ring Hanger 24. Tolco #825 Bar Joist Sway Brace Attachment 25. Tolco #907 4-Way Longitudinal Sway Brace Attachment 26. Tolco #909 No-Thread Swivel Sway Brace Attachment 27. Tolco #1000 Fast Clamp Sway Brace Attachment 28. Splayed Seismic Bracing Wire 29. Potter 10" Electric Bell 110-Volt 30. Potter Model PS40A High/Low Pressure Switch 31. Potter Model PS l0A Pressure Switch 32. Gast Riser Mount Oilless Piston Air Compressor, 1/3HP 33. Tyco Model AMD-1 Air Maintenance Device QUICK RESPONSE AUTOMATIC SPRINKLERS GL SERIES ~OO/rL./T~ PENDENT ~+ HORIZONTAL SIDEWALL ~a-vmz~-r~~T-.w~ rd-r~-hv~a--v rTi DESCRIPTION AND OPERATION The Globe Quick Response GL Series Sprinklers are a low profile yet durable design which utilizes a 3mm frangible glass ampule as the thermosensitive element. This provides sprinkler operation approxi- mately six times faster than ordinary sprinklers. While the Quick ~~ Response Sprinkler provides an aesthetically pleasing appearance, it ~ ~'~~~, ~~~~ can be installed wherever standard spray sprinklers are specified when °~~ `~3'; ~ ~- ~ 3`,, allowed by the applicable standards. It offers the additional feature of `~'f ~~'' ~ ta` greatly increased safety to life and is available in various styles, orifices, ~~ ~~ ' ~p~ temperature ratings and finishes to meet many varying design require- ' ~, ments. Quick Response Sprinklers should be used advisedly and under ~..: the direction of approving authorities having jurisdiction. The heart of Globe's GL Series sprinkler proven actuating assembly is a hermetically sealed frangible glass ampule that contains ~ 1D a precisely measured amount of fluid. When heat is absorbed, the liquid _ within the bulb expands increasing the internal pressure. At the ~ ~ ~ -``°'~T prescribed temperature the internal pressurewithin the ampule exceeds ~,, the strength of the glass causing the glass to shatter. This results in ~, water discharge which is distributed in an approved pattern depending ~ ~ , upon the deflector style used. The sprinkler and escutcheon are not factory assembled. As- sembly is done in the field. ~.~ ~~~< TECHNICAL DATA QUICK RESPONSE PENDENT V€~A~ • See reverse side for Approvals and Specifications. ~ • Temperature Ratings - 135°F (57°C), 155°F (68°C), 175°F (79°C), 200°F (93°C), 286°F (141°C) • Water Working Pressure Rating - 175 psi (12 Bars) ~, • Factory tested hydrostatically to 500 psi (34 Bars) ;~-~'~ .~ • Maximum low temperature glass bulb rating is -67°F (-55°C) 'F~'~Q ,~` ~~~, • Frame -bronze • Deflector -brass • Screw -brass • Bulb seat -copper • Spring -nickel alloy • Seal - teflon • Bulb -glass with alcohol based solution, 3mm size QUICK RESPONSE HORIZONTAL SIDEWALL • SPRINKLER TEMPERATURE RATING/CLASSIFICATION and COLOR CODING CLASSIFICATION AVAILABLE SPRINKLER BULB N.F.P.A. MAXIMUM TEMPERATURES COLOR CEILING TEMPERATURE ORDINARY ~~/155°F ~/68°C OP°4P16€/RED 100°F 38°C tnir~nnnGnie~ ~~r° ~C vGi i n-nu~ocGni ~.~ ~,C ~IGk# a-4-1 °O ~€ ~2a 1= a-97°S 4077AIRPARKDRIVE,STANDISH,MlCHIGAN 48658 989-846.4583 FAX 989-846-9231 DECEMBER 2006 A-20 BULLETIN GL5615, REV. #6 EIRE SPRINKLER CORPORATION QUICK RESPONSE AUTOMATIC GL SERIES SPRINKLERS • PENDENT • HORIZONTAL SIDEWALL • ~11A/l/cA/T-/1A/AI !~1- n Crv- cl SPECIFICATIONS NOMINAL "K" FACTOR THREAD S17F LENGTH' FINISHES 2.8 (39 metric) 1/2" NPT 2 114" (5.7 cm) Factory Bronze 4.2 (59 metric) 1/2" NPT 2 1/4" (5.7 cm) Satin Chrome 2 Bright Chrome 5.6 (80 metric) 1/2" NPT 2 1/4" (5.7 cm) White Polyester s 7.8 (111 metric) 1/2" NPT 2 114" (5.7 cm) Black Polyester s 8.1 (116 metric) 3/4" NPT 2 7/16" (6.2 cm) Lead Coated 2 _,~ NOTE: METRIC CONVERSIONS ARE APPROXIMATE. APPROVALS ' HORIZONTAL SIDEWALL IS 2 9/16". ~ FINISHES AVAILABLE ON SPECIAL ORDER. 'AVAILABLE AS cULus LISTED CORROSION RESISTANT WHEN SPECIFIED ON ORDER. STYLE 51N MODEL K FACTOR 135°F 57°C 155°F 68°C 175°F 79°C 200°F 93°C 288°F 141°C cULus F.M. LPC CE NYC -DOB MEA101-92-E 6L-281-g ~-8 ~4 Y• ~4 ~ ~ ~4 - - - ~4 6L ' 2~ 4 ~ ~ ~ ~ ~ ~ - - - ~ ~C TV - c ~16FIT 616 §~ ~4 ~ ~ ~4 ~ ~ ~ X ~ ~ 668~#g ~-~'- ~ ~4 ~4 ~4 ~4 ~ ~ - - ~4 6~8 8~ ~ ~4 ~4 ~4 ~ ~ ~ ~ ~ ~ 6L-Z8A~ ~-8 ~ ~4 ~4 ~4 ~ ~4 - - - ~4 61428+ 2~ 4 ~ ~ ~ ~ ~ ~ - - - ~ - PENDENT GL5601 5.6 X X X X X X X X X X 6L-&18~ ~&'- ~4 ~4 ~ ~ X ~4 ~ - - ~ 61886 8-4 ~4 ~4 ~4 ~ ~ ~ ~ ~ ~ ?4 6L-t~2~ F 6 ~ ~4 ~ ~ ~ X ~ - - - .K„41 i: S1B~A~A~~lt 618.3 8-~ ~ ~ ~ ~ X ~ - - - - 61252 2 8 ~ ~ ~ ~ ~ ~ - - - Y - ~ HORIZONTAL ~q~g 8 4 X ~ X ~ X ~ ~ ; SIDEWALL § GL5626 5.6 X X X X X X X -- - X 61&1~r' 80~ ~ ~ ~ ~ ~ ~ - - - - 6t_b624 g-6 X ~ ?~ ~ X - - X ~ - rni n~ 6L~1~ ~ ~ ~ ~ ~ X - - ~ ~ -- s HORIZONTAL SIDEWALL cULus LISTED FOR DEFLECTOR 4" TO 12" BELOW THE CEILING, FM APPROVED 4" TO 6". 1 VERTICAL SIDEWALL SPRINKLER cULus LISTED FOR LIGHT HAZARD ONLY. PENDENT VERTICAL SIDEWALL cULus LISTED FOR 6' MIN. SPACING. UPRIGHT VERTICAL SIDEWALL cULus LISTED FOR 9' MIN. SPACING. ORDER/NG INFORMATION •1r2"NPT. SPECIFY • Quantity Model Number Style • Orifice Thread Sizes Temperature • Finishes desired • Quantity -Wrenches - P/N 325390 (112"); P/N 312366 (L.O.) :~,~ IM „• ~; \1(/ FIRE SPRINKLER CORPORATfON DECEMBER 2006 GLOBE° PRODUCT WARRANTY Globe agrees to repair or replace any of its own manufactured products found to be defective in mate- rial or workmanship for a period of one year from date of shipment. For specific details of our warranty please refer to Price List Terms and Conditions of Sale (Our Price List). 4077 AIRPARK DRIVE, STANDISH, MICHIGAN 48658 989-846-4583 1-800-248-0278 PRINTED U.S.A. FAX 989-846-9231 www.globesprinkler.com BULLETIN GL5615, REV. #6 GLOBE RECESSED AND STANDARD ESCUTCHEONS FIRE SPRIN CORPaRATIi~N 1/2" NPT or 3/4" NPT ,~," ~ 0....., ....~ (3/4"Adj. x 2 7/8" Diameter) Finish/Part No. 1/2"NPT.• Finish/Part No. 3/4"NPT.• • Chrome: 325422 • Chrome: 325423 • Brass: 325424 • Brass: 325420 • *Poly: 325426 • *Poly: 325427 (1/2"Adj. x 2 7/8"Diameter) Finish/Part No. 1/2"NPT.• • Chrome: 332071 • Brass: 332072 • *Poly: 332073 2 (3/4°Adj. x 2 7/8" Diameter) Finish/Part No. 1/2"NPT.• Finish/Part No. 3/4"NPT.' • Chrome: 329306 • Chrome: 325423 • *Poly: 329308 • Brass: 325420 • *Poly: 325427 (1/2"Adj. x 2 7/8" Diameter) Finish/Part No. 1/2"NPT.• Finish/Part No. 314"NPT.• • Chrome: 329301 • Chrome: 329311 • *Poly: 329303 • *Poly: 329313 ~;r :~~ ~.. ,: c~ n~~t ' ~~ GIOBE~ _ ~-t- k ¢BM, SMt •M~~.. Mtn p.~: ~ 7/2"Adjustable Recessed Model Numbers • cULus Approved: 2810, 4110, 4210, 4230, 4231, 4234, 4710, 5628, 5630, 5631, 8101, 8107, 8128, 8129, 8151 & 8174 • cULus 8 FM Approved: 5601, 8106 & 8156 3/4"Adjustable Recessed Model Numbers • cULus Approved: 2801, 2826, 2851, 2870, 4201, 4226, 4231, 4251, 4270, 5601, 5602, 5626, 5628, 5635, 5636, 5641, 5642, 5652, 5670, 5679, 5680, 5685, 5686, 8101, 8102, 8151, 8152 , 8106, 8107, 8109, 8127, 8128, 8129, 8135, 8141, 8157, 8159, 8171, 8174, 8179, 8185 • cULus & FM Approved: 5651 & 8156 *When ordering specify color after part number: -W=white, -B=black. 4077AIRPARKDRIVE, STANDISH,MICHIGAN 48658 OCTOBER 2007 989-846-4583 FAX 989-846-9231 BULLETIN ESCUTCH, REV.#2 B-2 RECESSED ESCUTCHEONS GLOBE RECESSED AND STANDARD ESCUTCHEONS STANDARD ESCUTCHEONS 7/2" NPT or 3/4" NPT Universal for all sprinkler models ~~ » Finish/Part No. 1/2"NPT • Chrome: 325398 • Chrome-RP: 325398-RP • Brass: 325399 • White: 325400 1 ) Finish/Part No. 7/2"NPT Finish/Part No. 3/4"NPT • Chrome: 312086 • Chrome: 312087 • Brass: 312088 • Brass: 312089 • White: 312090 • White: 312091 ~~~..~ 4 ~~ ~ , ¢:~ ~;, -~ 2 Pc. Extended (max. 2 3/4" x 3 1/2" Diameter) Finish/Part No. 7/2"NPT Finish/Part No. 3/4"NPT ~~ • Chrome: 312075 • Chrome: 312077 • Chrome-P: 312075-P • Brass: 312078 ~`~°~'~'" • Brass: 312076 • White: 312079 ~ ~' ~: • White: 312074 ~~ ~ _ ..- •White-P: 312074-P EFft .,"~ (reduces deflector to ceiling distance by 3/4") Finish/Part No. • Chrome: 312040 • Brass: 312041 • White: 312042 ~S4ci~ (reduces deflector to ceiling distance by 1 1/4") Finish/Part No. • Chrome: 312044 • Brass: 312045 *NOTE: Other Escutcheons Available Upon Request. Unless stated "-RP" (rust proof) or "-P" (plastic}, all escutcheons are coated/plated for decorative purposes only, thus not recommended for corrosive atmospheres. OCTOBER2007 BULLETIN ESCUTCH, REV.#2 FIRE SPRINKLER CORPORATION ~`L,CO Fire & Building Products Technical Services: Tel: (800) 381-9312 /Fax: (800) 791-5500 Series DS- i - 5.6 K-factor Dry Type Sprinklers Standard Response, Standard Coverage General Description The Tyco® Series DS-1, 5.6 K-factor, Standard Response, Standard Cover- age, Dry Type Sprinklers are decorative 5 mm glass bulb automatic sprinklers designed for the following typical uses: • where pendent sprinklers are re- quired on dry pipe systems that are exposed to freezing temperatures (e.g. sprinkler drops from unheated portions of buildings) • where sprinklers and/or a portion of the connecting piping may be exposed to freezing temperatures (e.g. sprinkler drops from wet sys- tems into freezers, sprinkler sprigs from wet systems into unheated attics, or horizontal piping exten- sions through a wall to protect an unheated area of a building) • where sprinklers are used on sys- tems that are seasonably drained to avoid freezing (e.g. vacation re- sort areas) standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. The Series DS-1 Dry Type Sprinklers must only be installed in fittings that meet the requirements of the Design Criteria section. Model/Sprinkler Identification Numbers TY3355 - (Horizontal Sidewall) Technical Data WARNINGS The Series DS-1 Dry Type Sprinklers described herein must be installed and maintained in compliance with this documenf, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinklersystemsand com- ponents. Improper handling and in- stallation can permanently damage 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 8 Approvals UL and C-UL Listed. FM and NYC Approved. (Refer to Table A) Maximum Working Pressure 175 psi (12,1 bar) Inlet Thread Connection 1 inch NPT (Standard Order) ISO 7-R1 Discharge Coefficient K = 5.6 GPM/psi'~2 (80,6 LPM/bar12) Temperature Ratings Refer to Table A Finishes Sprinkler: Natural Brass, Chrome Plated, White Polyester Escutcheon: White Coated or Chrome Plated, Brass Plated JANUARY, 2008 Physical Characteristics Inlet ............. ........Copper Plug ......... Copper Yoke ............ ..Stainless Steel Casing ....Galvanized Carbon Steel Insert ........... ........ Bronze Bulb Seat ........ ..Stainless Steel Bulb ............ ..........Glass Compression Screw ........Bronze Deflector ......... ........ Bronze Frame ........... ........ Bronze Guide Tube....... .. Stainless Steel Water Tube ....... ..Stainless Steel Spring ........... .. Stainless Steel Sealing Assembly .. ............. . ..........Beryllium Nickel w/Teflon' Escutcheon ....... ...Carbon Steel 'Registered Trademark of DuPont Patents U.S.A. Patent No. 5,188,185 TFP500 Page 2 of 8 TFP500 SPRINKLER FINISH TY3255 Pendent TY3255 Pendent TY3355 Hor. Sidewall w/ Standard w/ Std. Escutcheon with top of Recessed Escutcheon (Ref. Fig. 5) Deflector-to-Ceiling (Ref. Fig. 3) w/ Deep Escutcheon distance of w/Wide Flange (Ref. Fig. 6) 4 to 12 inches Recessed Escutcheon w/o Escutcheon (100 to 300 mm) (Ref. Fig. 4) (Ref. Fig. 7) w/ Std. Escutcheon (Ref. Fig. 9) w/ Deep Escutcheon TY3155 U ri ht p g (Ref. Fig. 10) w/o Escutcheon w/o Escutcheon (Ref. Fig. 8) (Ref. Fig. 11) Temperature Bulb Color Natural Chrome White Natural Chrome White Natural Chrome White Rating Code Brass Plated Polyester Brass Plated Polyester Brass Plated Polyester 6 Orange 1, 2, 3, 4 1, 2, 4 1, 2, 3, 4 1, 2, 4 1', 2', 3", 4 1`, 2`, 4 155°F/68°C Red 1, 2, 3, 4 1, 2, 4 1, 2, 3, 4 1, 2, 4 1`, 2', 3", 4 1', 2', 4 #~$`F~9°6 Yellow 1, 2, 3, 4 1, 2, 4 1, 2, 3, 4 1, 2, 4 1', 2', 3", 4 1`, 2', 4 ° Green 1, 2, 3, 4 1, 2, 4 1, 2, 3, 4 1, 2, 4 1`, 2', 3", 4 1', 2', 4 286°~f~141°S Blue N/A 1, 2, 3, 4 1, 2, 4 1', 2', 3", 4 1', 2', 4 ° Mauve N/A 1, 2, 3, 4 1, 2, 4 1', 2', 4 1', 2', 4 Notes: 1. Listed by Underwriters Laboratories, Inc (Maximum order length of 48 inches). 2. Listed by Underwriters Laboratories for use in Canada (Maximum order length of 48 inches). 3. Approved by Factory Mutual Research Corporation (Maximum order length of 48 inches) 4. Approved by the City of New York under MEA 352-01-E. ' Light and Ordinary Hazard Occupancies Only. "" Light Hazard Occupancies Only. N/A -Not Available. TABLE A SERIES DS-1, STANDARD RESPONSE -STANDARD COVERAGE, DRY TYPE SPRINKLERS LABORATORY LISTINGS AND APPROVALS PLUG WITH ~ INLET GASKETED SPRING PLATE SEAL YOKE SPRING CiiSING WATER TUBE INSERT GUIDE TUBE BULB SEAT FRAME ~~ 5 mm ' BULB VENT HOLE COMPRESSION DEFLECTOR SCREW FIGURE 1 SERIES DS-1, STANDARD RESPONSE DRY TYPE SPRINKLERS ASSEMBLY WRENCH RECESS WRENCH FLAT PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCH FLATS FIGURE 2 W-TYPE 7 SPRINKLER WRENCH TFP500 SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) FACE OF ~_ SPRINKLER ~_{; FITTING ~-~`- -'~ ~l_ _J ORDER LENGTHS: 3-1/2" to 48" (88,9 to 1219,2 mm) IN 1/4" (6,4 mm) 2-1/4" DIA. INCREMENTS (57,2 mm) FACE OF I r-I r~ CEILING ~ ~ r-.L~ 1-3/8" t 1/8" 2-7/8" DIA. (34,9 ± 3,2 mm) (73,0 mm) FIGURE 3 TY3255 PENDENT w/ STANDARD RECESSED ESCUTCHEON SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) --ti________r-- ~ { , , ~ FACE OF ;._.I , , ~ ~ SPRINKLER ~_ti; ` j ' % 1- ~.~ FITTING ~-, ~- , L_ _J ORDER LENGTHS: 112" to 46" 3-1/2" DIA. (88,9 mm) (12,7 to 1168,4 mm) 2 1/2" DIA. IN 1/4'^(6^4 mm) (63,5 mm) FACE OF CEILING 4-1/4" t 1/8" (108,0 t 3,2 mm) FIGURE 6 TY3255 PENDENT w/ DEEP ESCUTCHEON SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) ~--z________ - { '-- ~ i i ~ 1i FACE OF .{ , SPRINKLER ~_ FITTING ~i _~`- -Jr-~--~/ I L J ORDER LENGTHS: 3-1/2" to 48" {88,9 to 1219,2 mm) IN 1/4"(6,4 mm} 3" DIA. INCREMENTS (76,2 mm) FACE OF CEILING 1-3/8" t 1/8" 3-5/8" DIA. (34,9 t 3,2 mm) (92,1 mm) FIGURE 4 TY3255 PENDENT w/ WIDE FLANGE RECESSED ESCUTCHEON SPRINKLER FITTING (REFER TO DESIGN FACE OF ~ _~"` SPRINKLER ~ _ FITTING ~ ~{ - ORDER LENGTHS: 5" to 48" (127,0 to 1219,2 mm) INCREMENTS MINIMUM ~3/4" (44,5 mm) DEFLECTOR TO CEILING FIGURE 7 TY3255 PENDENT w/o ESCUTCHEON Page 3 of 8 SPRINKLER FITTING (REFER TO DESIGN FACE OF ~ _~"~ SPRINKLER ~_ . ; ~ ; FITTING ~' `- ~' ~'~ f ~_ _J ORDER LENGTHS: 2-1/2"to 48" 1-3/4" DIA. (63,5 to 1219,2 mm) (44,5 mm) INCREMENTS I I II FACE OF CEILING 2-3/16" t 1/8" 3" DIA. (55,6 t 3,2 mm) (76,2 mm) FIGURE 5 TY3255 PENDENT w/ STANDARD ESCUTCHEON TOP OF DEFLECTOR ORDER LENGTHS: 5" to 48" (127,0 to 1219,2 mm) INCREMENTS FACE OF SPRINKLER FITTING SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) FIGURE 8 TY3155 UPRIGHT w/o ESCUTCHEON Page4of8 ORDER LENGTHS: 2-1/2" to 48" (63,5 to 1219,2 mm) IN 1/4" (6,4 mm) INCREMENTS 4" t 1/8" (101,6 t 3,2 mm) FACE OF FACE OF 1-3l4" DIA. SPRINKLER MOUNTING (44,5 mm) --; --, ,__y__~ FITTING SURFACE ~ ------~, 3" DIA. (76,2 mm) r--------J 3.5° r- ~r `SPRINKLER FITTING --^~-! (REFER TO DESIGN CENTERLINE 5/16' CRITERIA SECTION) OF WATERWAY (7,9 mm) FIGURE 9 TY3355 HORIZONTAL SIDEWALL w/ STANDARD ESCUTCHEON ORDER LENGTHS: FACE OF 1/2' to 45-3/4' (12,7 to 1162,1 mm) MOUNTING IN 1/4" (6,4 mm) INCREMENTS SURFACE 4-13/16" t 1/8" (122,2 i 3,2 mm) FACE OF 2-1/2' DIA. ~--*--~ SPRINKLER (63,5 mm) ? __-_` _-~ FITTING ~, 3-1/2" DIA. (88,9 mm) r--------J -~ 3.5° ~T ~~SPRINKLER FITTING --~---~ (REFER TO DESIGN CENTERLINE 5/16' CRITERIA SECTION) OF WATERWAY (7,9 mm) FIGURE 1D TY3355 HORIZONTAL SIDEWALL w/ DEEP ESCUTCHEON ORDER LENGTHS: 5-1/2' to 48" (139,7 to 1219,2 mm) IN 1/4" (6,4 mm) INCREMENTS MINIMUM 2-1 /4" (57,2 mm) FACE OF DEFLECTOR TO SPRINKLER MOUNTING ;__~_~ FITTING SURFACE -------, L, ~'--------jr-' 3.5° 5/16" ~T ~~SPRINKLER FITTING (7,9 mm) -= -- ~ (REFER TO DESIGN CENTERLINE CRITERIA SECTION) OF WATERWAY FIGURE 11 TY3355 HORIZONTAL 51DEWALL w/o ESCUTCHEON TFP500 Operation When the Series DS-1 is in service, water is prevented from entering the assembly by the Plug & Belleville Seal- ing Assembly (Ref. Figure 1) in the Inlet of the Sprinkler. The glass Bulb con- tains afluid that expands when ex- posed to heat. When the rated tem- perature is reached, the fluid expands sufficiently to shatter the glass Bulb, and the Bulb Seat is released. The compressed Spring is then able to ex- pand and push the Water Tube as well as the Guide Tube outward. This ac- tion simultaneously pulls inward on the Yoke, withdrawing the Plug & Belleville Seal from the Inlet allowing the sprin- kler to activate and flow water. Design Criteria The Tyco® Series DS-1 Sprinklers are intended for use in fire sprinkler sys- tems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (e.g., UL Listing is based on NFPA 13 requirements). The 1 inch NPT Series DS-1 Sprin- klers are to be installed in the 1 inch NPT outlet or run of malleable or duc- tile iron threaded tee fittings that meet the dimensional requirements of ANSI 816.3 (Class 150) or cast iron threaded tee fittings that meet the dimension- al requirements of ANSI 816.4 (Class 125). The Series DS-1 Sprinklers may also be installed in the 1 inch NPT out- let of a Grinnell Figure 730 Mechani- cal Tee; however, the use of the Figure 730 for this arrangement is limited to wet pipe systems. Typically, the end sprinkler fitting on a branch line is plugged as shown in Figures 3 through 11. The DS-1 Sprin- klers cannot be installed into an elbow fitting. For wet pipe systems, the sprinkler drop may be installed as shown in Fig- ure 12. The configuration in Figure 12 may only be used where the sprinkler fitting and water filled pipe above the sprinkler fitting is not subject to freez- ing and where the length of the DS-1 Sprinkler has the minimum exposure length per Figure 14. For wet pipe systems, the DS-1 Sprin- klers may also be installed in the fol- lowing Tyco® CPVC fittings: (P/N 80145) 1" x 1" NPT Female Adapter or (P/N 80249) 1" x 1" x 1" NPT Sprinkler Head Adapter Tee. For dry pipe systems, only use the side outlet of maximum 2-1/2 inch size TFP500 reducing tee's when locating the DS- 1 Sprinklers directly below the branch line. Otherwise, use the configuration shown in Figure 13 to assure complete drainage of water from above the DS-1 Sprinklers and the branch line. NOTE Do not install the Series DS-1 into any other type fitting without first consult- ing the Technical Services Depart- ment. Failure to use the appropriate fitting may result in: failure of the sprin- kler to properly operate due to forma- tion of ice over the inlet Plug or bind- ing of the inlet Plug; or, insufficient engagement of the inlet pipe threads with consequent leakage. Branch, cross, and feedmain piping connected to Dry Sprinklers and sub- ject to freezing temperatures must be pitched for drainage in accordance with the minimum requirements of the National Fire Protection Association for dry pipe sprinkler systems. When Dry Sprinklers are to be used in wet pipe sprinkler systems protect- ing areas subject to freezing tempera- tures (e.g., sprinkler drops into freez- ers), consideration must be given to the appropriate length of the sprinkler that will prevent freezing of the water in the connecting pipes due to conduc- tion. When the temperature surround- ing the wet pipe sprinkler system is maintained at a minimum temperature of 40°F/4°C, the following are the mini- mum recommended lengths between the face of the sprinkler fitting and the outside surface of the protected area (i.e., length exposed to minimum am- bient of 40°F/4°C -Ref. Figure 14): • 12 inches (300 mm) when the tem- perature within the protected area is -20°F/-29°C • 18 inches (450 mm) when the tem- perature within the protected area is -40°F/-40°C • 24 inches (600 mm) when the tem- perature within the protected area is -60°F/-51°C For protected area temperatures be- tween those given above, the minimum recommended length from the face of the fitting to the outside of the protect- ed area may be determined by interpo- lating between the indicated values. The 2007 edition of NFPA 13, Sec- tion 8.4.10.2 requires that dry sprin- klers connected to wet pipe sprinkler systems protecting insulated freezer structures have the clearance space around the sprinkler barrel be sealed. The use of the Model DSB-2 Dry Sprinkler Boot described in Technical Data Sheet TFP591, and illustrated in Figures 15 and 16, will meet the intent of NFPA 13. TO WET SIDE SYSTEM OUTLET PLUGGED HEATED AREA 1 INCH DSB-2 NPT TEE INTENDED (SEE DESIGN FOR FREEZER CRITERIA STRUCTURES SECTION) F/GURE i2, SPR/NKLER FITTING IN HEATED AREA RUN OUTLET PLUGGED 1 INCH NPT TEE TO DRY (SEE DESIGN SYSTEM CRITERIA AREA SECTION) SUBJECT DSB-2 TO INTENDED FOR FREEZER FREEZING STRUCTURES FIGURE 13, SPRINKLER FITTING IN UNHEATED AREA FACE OF SPRINKLER FITTING HEATED EXPOSURE AREA LENGTH (SEE DESIGN DSB-2 CRITERIA INTENDED SECTION) FOR FREEZER STRUCTURES FIGURE 14, EXPOSURE LENGTH Page 5 of 8 STRAP TIES (ENDS ON OPPOSING SIDES OF BOOT) DSB-2 BOOT ADHESIVE 1-3/4" DIA. (44,5 mm) CLEARANCE HOLE INSULATED FREEZER STRUCTURE DS-1 SHOWN WITH STANDARD ESCUTCHEON FIGURE 15 MODEL DSB-2 SPRINKLER BOOT WITH PENDENT SERIES DS-1 DRY SPRINKLER 1-3/4` DIA. (44,5 mm) CLEARANCE INSULATED HOLE FREEZER ADHESIVE STRUCTURE DSB-2 BOOT STRAP TIES DS-1 (ENDS ON SHOWN WITH OPPOSING STANDARD SIDES OF ESCUTCHEON BOOT) FIGURE i6 MODEL DSB-2 SPRINKLER BOOT WJTH SIDEWALL SERIES DS-1 DRY SPRINKLER Page 6 of 8 Installation The Series DS-1 Dry Type Sprinklers must be installed in accordance with the following instructions: NOTES The Series DS-1 must only be installed in fittings that meet the requirements of the Design Criteria section. Refer to the Design Criteria section for other important requirements regard- ing piping design and sealing of the clearance space around the Sprinkler Casing. Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F/57°C rating to 1/8 inch (3,2 mm) for the 360°F/182°C rating. A 1 inch NPT sprinkler joint should be obtained with a minimum to maximum torque of 20 to 30 ft. lbs. (26,8 to 40,2 Nm). Higher levels of torque may dis- tort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for in- sufficient adjustment in an Escutcheon Plate by under- or over-tightening the Sprinkler. Readjust the position of the sprinkler fitting to suit. Step 1. Pendent sprinklers must be installed only in the pendent position, and upright sprinklers must be in- stalled only in the upright position. The deflector of a pendent or upright sprin- kler is to be parallel to the ceiling. Horizontal sidewall sprinklers are to be installed in the horizontal position with their centerline of waterway perpen- dicular to the back wall and parallel to the ceiling. The word "TOP" on the De- flector is to face towards the ceiling. Step 2. With pipe thread sealant ap- plied to the inlet threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Wrench tighten the sprinkler by wrenching on the Casing with a pipe wrench whenever the casing is readily accessible. Otherwise, use a W-Type 7 Sprinkler Wrench (Ref. Figure 2). The wrench recess of the W-Type 7 is to be applied to the sprinkler wrench flats (Ref. Figure 2). Step 4. After the ceiling/wall has been installed/finished, slide on the outer- piece of the Escutcheon until it comes in contact with the ceiling/wall. Do not lift the ceiling panel out of its normal position. In the case of the outer piece of the Deep Escutcheon, hold the outer piece in contact with the mounting surface (ceiling), and then rotate the inner piece approximately 1/4 turn with respect to the outer piece, to hold the Deep Escutcheon firmly together. Care and Maintenance The Tyco®Series DS-1 Dry Type Sprin- klers must be maintained and ser- viced in accordance with the following instructions: NOTES Absence of the outer piece of an es- cutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Before closing a fire protection sys- tem main control valve for mainte- nance work on the fire protection sys- tem that it controls, permission fo shut down the affected fire protection sys- tems must be obtained from the prop- er authorities and al! personnel who may be affected by this action must be notified. A Uent Hole is provided in the Bulb Seat (Ref. Figure 1) to indicate if the Dry Sprinkler is remaining dry. Evi- dence of leakage from the Uent Hole is an indication that there may be weep- age past the Inlet seal and that the sprinkler needs to be removed for de- termining the cause of leakage (e.g. an improper installation or an ice plug). The fire protection system control valve must be closed and the system drained before removing the sprinkler. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be com- pletely cleaned by wiping the sprin- klerwith acloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age -before, during, and after instal- lation. Sprinklers damaged by drop- ping, striking, wrench twist/slippage, or the like, must be replaced. Also, re- place any sprinkler that has a cracked bulb or that has lost liquid from its bulb (Ref. Installation Section). TFP500 The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Associ- ation (e.g., NFPA 25), in addition to the standards of any other authorities hav- ing jurisdiction. The installing contrac- tor orsprinkler manufacturer should be contacted relative to any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national codes. TFP500 Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran- ty is given for products or components manufactured by companies not af- filiated by ownership with TFBP or for products and components which have 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 anv and all other warranties. ex- of mercnantaonr[y ana ntness 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. Ordering Procedure Dry Sprinklers: Contact your local distributor for availability, and please specify the following: 1. Sprinkler. • Model/SIN. • Standard Response, Standard Coverage, Dry Type Sprinkler • Deflector Style. • 5.6 K-factor. • Order Length. Dry Type Sprinklers are furnished based upon Order Length as measured per Figures 3 through i1, as applicable. After the mea- surement is taken, round it to fhe nearest 7/4 inch increment. • Inlet Connection (t Inch NPT or ISO 7-R1) • Temperature Rating. • Sprinkler Finish. • Escutcheon Style and Finish, as applicable. • Part Number from Table B. (Part numbers are for 1 inch NPT stan- dard order sprinklers. Orders for all other sprinkler assemblies must be accompanied by a complete description.) 2. W-Type 7 Sprinkler Wrench. Refer to the Price List for complete listing of Part Numbers. Model DSf3-2: Specify: Model DSB-2 Dry Sprinkler Boot, P/N 63-000-0-002. ` Includes one Boot, two Strap Ties, and 1/3 oz. of Adhesive (quantity of adhesive is sufficient for installing one Boot) Page 7 of 8 Page 8 of 8 P/ N 60 - XXX - X - XXX SPRINKLER ESCUTCHEON MODEVSIN FINISH FINISH (2) 96 Pendent w/ Standard TY3255 Escutcheon (1" NPT) (Fig. 5) 93 Pendentw/Deep TY3255 Escutcheon (1" NPT) (Fig. 6) 97 Pendent w/ Std. Recessed TY3255 Escutcheon (1" NPT) (Fig. 3) 92 Pendent w/o Escutcheon TY3255 (1" NPT) (Fig. 7) 94 Sidewall w/ Standard TY3355 Escutcheon (1" NPT) (Fig. 9) 53 Sidewall w/ Deep TY3355 Escutcheon (1" NPT) (Fig. 10) 54 Sidewall w/o TY3355 Escutcheon (1" NPT) (Fig. 11) 98 Upright w/o Escutcheon TY3155 (1" NPT) (Fig. 8) 1 NATURAL BRASS WHITE 4 WHITE POLYESTER WHITE 9 CHROME PLATED CHROME 0 CHROME PLATED WHITE 3 WHITE (RAL9010)" WHITE (RAL9010)' 2 NATURAL BRASS BRASS PLATED TEMPERATURE RATING (3) 0 135F/57C 1 155F/68C 2 175F/79C 3 200F/93C 4 286F/141C 5 360F/182C NOTES TFP500 ORDER LENGTH (1) (EXAMPLES) 055 5.50" 082 8.25" 180 18.00" 187 18.75" 372 37.25" 480 48.00" (1). Dry Type Sprinklers are furnished based upon "Order Length" as measured per Figures 3 through 11, as applicable, and for each individual sprinkler where it is to be installed. After the measurement is taken, round it to the nearest 1/4 inch increment. (2). Escutcheon Finish applies to sprinklers provided with escutcheons. (3). 286F/141C and 360/182C temperature ratings apply to non-recessed sprinkler assemblies. " Eastern Hemisphere sales only. TABLE B PART NUMBER SELECTION SERIES DS-1, STANDARD RESPONSE, STANDARD COVERAGE, DRY TYPE SPRINKLERS (Use Prefrx "I" for ISO 7-R1 Connection, e.g., 1-60-961-1-180) ® 2007-2008 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale Pennsylvania 19446 t CO Fire Suppression y & Building Products Technical Services: Tel: (800) 381-9312 /Fax: (800) 791-5500 Email: techserv~tycofp.com Model ESFR-25 Early Suppression, Fast Response Pendent Sprinklers 25.2 K-factor General Description The Tyco® Model ESFR-25 Pendent Sprinklers are "Early Suppression, Fast Response Sprinklers" having a nominal K-factor of 25.2. (Refer to Fig- ure 1.) They are suppression-mode sprinklers that are especially advanta- geous as a means of eliminating the use of in-rack sprinklers when pro- tecting high-piled storage. The Model ESFR-25 is typically used for the following commodities and storage arrangements: • Most encapsulated or non-encap- sulated common materials including cartoned, unexpanded plastics • Uncartoned (exposed) expanded plastics in accordance with NFPA 13 and FM Global standards • Some storage arrangements of rubber tires, roll paper, flammable liquids, aerosols, and automotive components For specific criteria, refer to the tables in this data sheet as well as the appli- cable design standard. The ESFR-25 provides the system designer with hydraulic and sprinkler placement options not presently available to the traditional ESFR sprinklers having a nominal K-factor of 14.0. In particular, the Model ESFR-25 has been designed to IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation ofsprinklersystemsavd com- ponents. Improper handling and installation can permanently dam- age a sprinklersystem orits compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it fo operate prematurely. Page 1 of 8 operate at substantially lower-end head pressures, as compared to ESFR sprinklers having a nominal K-factor of 14.0. This feature offers flexibility when sizing system piping, as well as possibly reducing or eliminating the need for a system fire pump. Also, the Model ESFR-25 permits use of a maximum deflector-to-ceiling dis- tance of 18 inches (460 mm) versus 14 inches (360 mm). Additionally, a stor- agearrangement of 40 ft. (12,2 m) with a ceiling height of 45 ft. (13,7 m) does not require in-rack sprinklers as do other ESFR sprinklers having a nomi- nal K-factor of 14.0. Applications for the Tyco® ESFR Sprin- klers are expanding beyond currently recognized installation standards. For information on research fire tests (with flammable liquids and aerosols, for ex- ample) that may be acceptable to an Authority Having Jurisdiction, contact the Technical Services department. The Model ESFR-25 Sprinklers de- scribed herein must be instaNed and maintained in compliance with this document, as well as with the appli- cable standards of the National Fire Protection Association, in addition to the standards of any authorities having jurisdiction (for example, FM Global). Failure to do so may impair the perfor- mance of these devices. Owners are responsible for maintain- ing their ire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. In ail cases, the appropriate NFPA or FM installation standard must be ref- erenced to ensure applicability and to obtain complete installation guide- lines. The genera! guidelines in this data sheet are not intended to provide complete installation criteria. OCTOBER 2009 Model/Sprinkler Identification Numbers (SIN) TY9226 -Pendent K=25.2 TY9226 is a re-designation for C9226, G8441, and S8010. TFP312 TFP312 Page 2 of 8 1 ~ 1"NPT Components: 8 ~ 1-13/16" 1 -Frame ~ 9/16" (46,0 mm) (14,3 mm) 2 -Deflector 9 ~ ~ ~ NOMINAL 3 -Compression MAKE-IN Screw 4 -Hook g 5 -Strut 3-13/16" 6 -Link Assembly 5 (96,8 mm) THERMAL 7 -Button SENSING 8 -Sealing Assembly ELEMENT 9 -Ejection Spring 4 WRENCH FLATS 3 .' 2 TEMPERATURE RATING 2" (50,8 mm) -~{ FIGURE 1 MODEL ESFR-25, K=25.2 EARLY SUPPRESSION, FAST RESPONSE PENDENT SPRINKLER Technical Data Approvals UL and C-UL Listed FM and VdS Approved LPCB Approved (094b/01 and 0071/01) NYC under MEA 356-01-E Patents U.S.A. Patent Numbers: 5,829,532 6,059,044 6,336,509 6,502,643 6,868,917 7,165,624 Additional Patents pending In addition to this data sheet, the fol- lowing data sheets describe other Tyco® ESFR Sprinklers: • TFP315 -Model ESFR-17 (TY7226), K=16.8 Pendent Sprinkler • TFP316 -Model ESFR-17 (TY7126), K=16.8 Upright Sprinkler • TFP318 -Model ESFR-1 (TY6226), K=14.0 Pendent Sprinkler Maximum Working Pressure 175 psi (12,1 bar) Pipe Thread Connections 1 inch NPT ISO 7-R1 Discharge Coefficient K = 25.2 GPM/psi~/2 (362,9 LPM/bars/2) Temperature Ratings 165°F/74°C 214°F/101°C Finish Natural Brass Physical Characteristics Frame .............. .......... Brass Deflector ............ .........Bronze Compression Screw... ... Stainless Steel Hook ............... ..........Monet Strut ............... .......... Monet Link Assembly ....... ....Solder, Nickel Button .............. .......... Brass Sealing Assembly..... .. Beryllium Nickel with Teflon' Ejection Spring ....... ......... Inconel Design Criteria The following general guidelines pro- vided for the Tyco® Model ESFR-25 Sprinklers can be used for a quick reference. The National Fire Protection Association (NFPA) and FM Global (FM) provide installation standards that must be used to properly design an automatic sprinkler system utilizing Early Suppression, Fast Response (ESFR) Sprinklers. The guidelines provided by NFPA and FM may differ. Consequently, the appropriate standard must be used for a given installation. !n all cases, the appropriate NFPA or FM installation standard must be referenced fo ensure applicability and to obtain complete installation guidelines. The following genera! guidelines are not intended to provide comp/eie installation criteria. System Type Wet pipe system Roof Construction Unobstructed or obstructed construc- tion; for example, smooth ceiling, bar joists, beam and girder, and so forth. Where the depths of the solid struc- tural members (beams and stem, for example) exceed 12 inches (302 mm), install ESFR Sprinklers in each chan- nel formed by the structural members. Ceiling Slope Maximum 2-inch rise for 12-inch run (16.7%) Building Heights, Storage Heights, and Commodity Refer to Table A. Maximum Coverage Area 100 ft2 (9,3 m2) In some cases, the installation stan- dards permit a greater coverage area. Minimum Coverage Area 64 ft2 (5,8 m2) per NFPA 13/FM 2-2 " Registered trademark of DuPont TFP312 Page 3 of S TABLE 1 COMMODITY SELECTION AND DESIGN CRITERIA OVERVIEW FOR ESFR-25 PENDENT SPRINKLERS Storage Type NFPA FM Open Frame (that is, no solid shelves) Refer to Table 2 and Single, Double, Multiple-Row, or Portable Rack Storage Refer to Table 2 and NFPA 13. FM 2-2 and 8-9 for details. of Class I-IV and Group A or B Plastics Solid Pile or Palletized Storage of Refer to Table 3 and NFPA 13. Refer to Table 3 and FM 2-2 and 8-9 for details Class 1-IV and Group A or B Plastics . Idle Pallet Storage Refer to Table 4 and NFPA 13. FM 2e2 and 8a 91 for details. Rubber Tire Storage Refer to Table 5 and NFPA 13. Refer to Table 5 and FM 2-2 and 8-9 for details. Rolled Paper Storage 13 8-21 (Refer to the standard.) Flammable Liquid Storage 30 N/A (Refer to the standard.) Aerosol Storage 30B 7-31 (Refer to the standard.) Automotive Components in Portable Racks 13 N/A (Control mode only; refer to the standard.) Notes: N/A =Non-Applicable Refer to Tables 2 through 5 in the Design Criteria section. Maximum Spacing 12 feet (3,7 m) for building heights up to 30 feet(9,1 m) 10 feet (3,1 m) for building heights greater than 30 feet (9,1 m} Minimum Spacing 8 feet {2,4 m} Minimum Clearance to Commodity 36 inches (914 mm) NFPA 13 Deflector-to-Ceiling Distance 6 to 18 inches (152 to 457 mm} FM 2-2 Consult FM and/or FM Guidelines for allowable deflector-to-ceiling distanc- es as well as thermal sensing element- to-ceiling criteria. Operation The fusible link assembly is comprised of two link halves that are joined to- gether by a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate, activating the sprinkler and flowing water. TFP312 Page 4 of 8 TABLE 2 NFPA AND FM DESIGN CRITERIA FOR RACK STORAGE OF ESFR-25 PENDENT SPR/NKLERS Minimum Residual Pressure, Maximum Maximum psi (bar) Commodity Building Height, Storage Height, Ft. (m) Ft. (m) NFPA FM The number of design sprinklers at listed pressure is 12 unless specified otherwise ~. 45 (13,7) 40 (12,2) 40 (2,8) 50 (3,4) 40 (12,2} 35 (10 7) 25 (1,7) 40 (2 8) Class I Class II , , , , Class III, and Class IV 35 (10,7) 30 (9,1) 20 (1,4) 30 (2,1) Encapsulated or Unencapsulated 32 (9,7) 25 (7,6) 20(1,4) 30 (2,1) 30 (9,1) 25 (7,6) 15 (1,0) 20 (1,4) 45 (13,7} 40 (12,2) 40 (2,8) 50 {3,4) 40 (12,2) 35 (10,7) 25 (1,7) 40 (2,8} Cartoned Unexpanded Plastics 35 (10,7) 30 (9,1) 20 (1,4} 30 (2,1) 32 (9,7) 25 (7,6) 20(1,4) 30 (2,1) 30 (9,1) 25 (7,6) 15 (1,0) 20 (1,4} 45 (13,7) 40 (12,2) N/A 63 (4,3) w/IRS 40 (12,2) 35 (10,7) 50 (3,4) 60 (4,1) Uncartoned (Exposed) Unexpanded Plastics 35 (10,7) 30 (9,1) 50 (3,4) 50 (3,4) 32 (9,7) 25 (7,6) 50 (3,4) 50 (3,4) 30 (9,1) 25 (7,6) 50 (3,4) 35 (2.4) 45 (13,5) 40 (12,0) N/A Scheme 8-9A, Note 5 40 (12,0) 35 (10,5) N/A 60 (4,1) Note 8 Cartoned Expanded Plastics 35 (10,5) 30 (9,0) N/A 60 (4,1} Note 8 32 (9,7) 25 (7,6) N/A 60 (4,1) Note 8 30 (9,1) 25 (7,6) N/A 20 (1,4) Note 8 45 (13,5) 40 (12,0) N/A Scheme 8-9A, Note 5 40 (12,0) 35 (10,5) N/A 20 ~ 75 (5,2) Note 8 Uncartoned (Exposed) 35 (10,5) 30 (9,0) N/A 20 ~ 75 (5,2) Expanded Plastics Note 8 30 (9,1) 25 (7,6) N/A 30 (2,1) Note 8 25 (7,6) 20 (6,1) N/A 30 (2,1) Note 8 Abbreviations: N/A =Non-Applicable; IRS = In-Rack Sprinklers References: NFPA 13, 2007 Edition, Chapter 16, Tables 16.2.3.1 and 16.3.3.1; Chapter 17, Tables 17.2.3.1 and 17.3.3.1 FM Global, June 2009, Property Loss Prevention Data Sheet 8-9, Table 2.3.7.5(a) Notes: The following notes replicate information cited in the Notes 5 and 8 to Table 2.3.7.5(a) of FM Data Sheet 8-9: Note 5: Refer to Section 2.3.7.2 for details concerning Fire Protection Scheme 8-9A. Note 8: The indicated design only applies to the Tyco® Model TY9226 K25.2 (K360) sprinkler. The design for all other FM Approved K25.2 (K360) sprinklers must be based on the design requirements indicated for the K22.4 (K320) sprinkler based on the same storage and building heights. TFP312 Page 5 of 8 TABLE 3 NFPA AND FM DESIGN CRITERIA FOR PALLET/ZED AND SOLID PILED STORAGE OF ESFR-25 PENDENT SPRINKLERS Minimum Residual Pressure, Maximum Maximum psi (bar) Commodity Building Height, Storage Height, NFPA FM Ft. (m) Ft. (m) The number of design sprinklers at listed pressure is 12 unless specified otherwise. 45 (13,7) 40 (12,2) 40 (2,8) 50 (3,4) 45 (13,7) 35 (10,7) 40 (2,8) 50 (3,4) Class I, Class II, 40 (12,2) 35 (10,7) 25 (1,7) 40 (2,8) Class III, and Class IV Encapsulated or Unencapsulated 35 (10,7} 30 (9,1) 20 (1,4) 30 (2,1} 32 (9,7) 25 (7,6) 20 (1,4) 30 (2,1) 30 (9,1) 25 (7,6} 15 {1,0} 20 (1,4) 45 (13,7) 40 {12,2) 40 (2,8) 50 (3,4) 45 (13,7) 35 (10,7) 40 (2,8) 50 (3,4) Cartoned 40 (12,2) 35 (10,7) 25 (1,7) 40 (2,8) Unexpanded Plastics 35 (10,7) 30 (9,1) 20 (1,4) 30 (2,1) 32 (9,7) 25 (7,6) 20 (1,4) 30 (2,1) 30 (9,1) 25 (7,6) 15 (1,0) 20 (1,4) 45 (13,7) 40 (12,2) N/A 63 (4,3) 40 (12,2) 35 {10>7) 50 (3,4) 50 (3,5) Uncartoned {Exposed) ti d Pl U d 35 (10,7) 30 (9,1) 50 (3,4) 50 (3,5) cs nexpan e as 32 (9,7) 25 (7,6) 50 (3,4) 50 (3,5) 30 (9,1) 25 (7,6) 50 (3,4) 35 (2,4) 45 (13,7) 40 (12,2) N/A Scheme 8-9A, Note 5 40 (12,2) 35 (10,7) N/A 60 (4,1) Note 8 Cartoned 35 (10,7) 30 (9,1 } N/A 60 (4,1) t 8 N Expanded Plastics o e 32 (9,7) 25 (7,6) N/A 60 (4,1) Note 8 30 (9,1} 25 (7,6) N/A 20 (1,4) Note 8 45 (13,7) 40 (12,2) N/A Scheme 8-9A, Note 5 40 (12,2) 35 (10,7) N/A 20 Note 85 2) 40 (12,2) 25 (7,6) 60 (4,1) 60 (4,1) Note 8 Uncartoned (Exposed) 35 (10 7) 30 (9,1) N/A 20 ®75 (5,2) N 8 Expanded Plastics , ote 35 (10,7) 25 (7,6) 60 (4,1} 60 (4,1) Note 8 30 (9,1) 25 {7,6) 60 (4,1} 30 (2,1) Note 8 25 (7,6} 20 (6,1) 60 (4,1) 20 (1,4) Abbreviations: N/A =Non-Applicable References: NFPA 13, 2007 Edition, Chapter 14, Table 14.4.1; also, Chapter 15, Table 15.4.1 FM Global, June 2009, Property Loss Prevention Data Sheet 8-9, Table 2.3.7.5{b} Notes: The following notes replicate information cited in the Notes 5 and 8 to Table 2.3.7.5(b} of FM Data Sheet 8-9: Note 5: Refer to Section 2.3.7.2 for details concerning Fire Protection Scheme 8-9A. Note 8: The indicated design only applies to the Tyco® Model TY9226 K25.2 (K360) sprinkler. The design for all other FM Approved K25.2 (K360) sprinklers must be based on the design requirements indicated for the K22.4 (K320) sprinkler based on the same storage and building heights. TFP312 Page 6 of 8 TABLE 4 NFPA AND FM DESIGN CRITERIA FOR IDLE PALLET STORAGE OF ESFR-25 PENDENT SPRINKLERS Maximum Maximum Minimum Residual Pressure, psi (bar) Commodity Buffding Height, Ft. (m) Storage Height, Ft. (m) NFPA FM The number of design sprinklers at listed pressure is 12 unless specified otherwise. 45 (13,7) 40 (12,2) N/A 63 (4,3} Wood on Floor 40 (12,2) 35 (10,7) 25 (1,7} 50 (3,4} 35 (10,7} 30 {9,1) 20 (1,4) 50 (3,4) 30 (9,1) 25 (7,6) 15 (1,0) 35 (2,4) 45 (13,7) 40 (12,2) N/A 63 (4,3) Pl ti Fl 40 (12,2) 35 (10,7) N/A 50 (3,4) as c on oor 35 (10,7) 30 (9,1) N/A 50 (3,4} 30 (9,1) 25 (7,6) N/A 35 (2.4) 45 (13,7) 40 (12,2) N/A 63 (4,3) w/ IRS W d i R k 40 (12,2) 35 (10,7) 25 (1,7) 60 (4,1) oo n ac 35 (10,7) 30 (9,1) 20 (1,4) 50 (3,4) 30 (9,1) 25 (7,6} 15 (1,0) 35 (2,4) 45 (13,7) 40 (12,2) N/A 63 {4,3) w/IRS Pl ti i R k 40 (12,2) 35 (10,7) N/A 60 (4,1} as c n ac 35 (10,7) 30 (9,1) N/A 50 (3,4) 30 (9,1} 25 (7,6) N/A 35 (2,4) Abbreviations: N/A ~ Non-Applicable; IR5 = In-Rack Sprinklers References: NFPA 13, 2007 Edition, Chapter 12, Tables 12.12.1.2 (d) and 12.12.2.1 FM Global, June 2009, Property Loss Prevention Data Sheet 8-9 uses criteria for uncartoned, unexpanded plastics, Table 2.3.7.5(a) for rack scenarios and Table 2.3,7.5(b} for on-floor scenarios. Installation The Tyco® Model ESFR-25 Pendent Sprinklers are to be installed in accor- dance with the following instructions. Damage to the fusible Link Assembly during installation can be avoided by handling the sprinkler by the frame arms only (that is, do not apply pres- sure fo the fusible Link Assembly), and by using the appropriate sprinkler wrench. Failure to do so can lead to an unstable link assembly and premature activation of the sprinkler. Damaged sprinklers must be replaced. Obtain aleak-tight 1-inch NPT sprin- kler joint by applying aminimum-to- maximum torque of 20 to 30 ft.lbs. (26,8 to 40,2 Nm). Higher levels of torque can distort the sprinkler Inlet with consequent leakage or impair- ment of the sprinkler. Step 1. Install the ESFR-25 Pendent Sprinkler in the pendent position. Step 2. With pipe-thread sealant ap- plied, hand-tighten the sprinkler into the sprinkler fitting. Do not apply pres- sure to the Link Assembly, and handle the ESFR-25 Sprinkler only by the Frame arms. Step 3, Wrench-tighten the ESFR- 25 Sprinkler using only the W-Type 1 Sprinkler Wrench (Figure 2) and by fully engaging (seating) the wrench on the sprinkler wrench flats. Step 4. After installation, inspect the Link Assembly of each ESFR-25 Sprinkler for damage. In particular, verify that the Link Assembly and Hook are positioned as illustrated in Figure 1, and that the Link Assembly has not been bent, creased, or forced out of its normal position in any way. Replace damaged sprinklers. ' "FITTING SIDE" TOWARDS SPRINKLER FITTING WRENCH RECESS FIGURE 2 W--TYPE f SPR/NKLER WRENCH TFP312 Page 7 of 8 TABLE 5 NFPA AND FM DESIGN CRITERIA FOR RUBBER TIRE STORAGE OF ESFR-25 PENDENT SPRINKLERS Minimum Residual Pressure, Maximum Maximum psi (bar) Commodity Building Height, Storage Height, NFPA FM Ft. (m) Ft. (m) The number of design sprinklers at listed pressure is 12 unless specified otherwise. On-Side or On Tread in Palletized Portable Racks, Open 30 (9,1) 25 (7,6) 15 (1,0) 20 (1,4) Portable Racks, or Fixed Racks without Solid Shelves On-Side in Palletized Portable Racks, Open Portable Racks, or Fixed Racks 35 (10,7} 25 (7,6) 25 (1,7) 75 (5,2) without Solid Shelves Laced Tires in 30 (9,1) 25 (7,6) N/A 75 (5,2) Open Portable Steel Racks On-Side, On-Tread, or Laced in Permanent and Portable Racks 40 (12,2) 30 (9,1) N/A 75 (5,2) with Open Shelves On-Side in 40 (12,2) 25 (7,6) N/A 75 (5,2) Palletized Portable Racks Abbreviations: N/A =Non-Applicable References: NFPA 13, 2007 Edition, Chapter 18, Table 18.4(d) FM Global, January 2009, Property Loss Prevention Data Sheet 8-3, Table 8 Care and Maintenance Replace sprinklers that: • were modified or over-heated Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. The Tyco® Model ESFR-25 must be maintained and serviced in accor- dance with the following instructions. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection systems from the proper authorities and notify all personnel who may be affected by this action. Exercise care to avoid damage before, during, and after installation. Never paint, plate, coat, or otherwise alter automatic sprinklers after they leave the factory. • were damaged by dropping, strik- ing, wrench twisting, wrench slip- page, or the like. • are leaking or exhibiting visible signs of corrosion. Responsibility lies with the owner for the inspection, testing, and mainte- nance of their fire protection system and devices in compliance with this document, as well as with the appli- cable standards of the National Fire Protection Association (for example, NFPA 25), in addition to the standards of any authorities having jurisdiction. Contact the installing contractor or sprinkler manufacturer regarding any questions. 'TFP312 Page 8 of 8 Limited Warranty Products manufactured by Tyco Fire Suppression & Building Products (TFSBP) are warranted solely to the original Buyer for ten (10) years against defects in material and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFSBP. No warranty is given for prod- ucts or components manufactured by companies not affiliated by ownership with TFSBP or for products and com- ponents which have been subject to misuse, improper installation, corro- sion, or which have not been installed, maintained, modified or repaired in ac- cordance with applicable Standards of the National Fire Protection Associa- tion, and/or the standards of any other Authorities Having Jurisdiction. Mate- rials found by TFSBP to be defective shall be either repaired or replaced, at TFSBP's sole option. TFSBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of products. TFSBP shall not be responsible for sprinkler system design errors or inaccurate or incom- plete information supplied by Buyer or Buyer's representatives. In no event shall TFSBP be liable, in contract, tort, strict liability or under any other legal theory, for inciden- tal, indirect, special or consequential damages, including but not limited to labor charges, regardless of whether TFSBP was informed about the pos- sibility of such damages, and in no event shall TFSBP'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 includingwarranties 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. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name. Specify the Sprinkler Identification Number {SIN), quantity, and temperature rating. Refer to the Price List for complete listing of Part Numbers. Sprinkler Assemblies Specify: (temperature rating), natural brass, TY9226 Pendent Sprinkler, P/N (specify). 165°F/74°C ............... P/N 58-441-1-165 214°F/101°C .............. P/N 58-441-1-214 Special-Order Sprinkler Assem- blies with ISO 7/1 Thread Connec- tions Specify: (temperature rating), natural brass, TY9226 Pendent Sprinkler with thread connection per ISO 7/1, P/N (specify). 165°F/74°C ............. .. P/N 58-442-1-165 214°F/101°C .............. P/N 58-442-1-214 Sprinkler Wrench Specify: W-Type 1 Sprinkler Wrench, P/N 56-872-1-025. ® 2007-2009 TYCO FIRE SUPPRESSION & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 SPRINKLER CABINETS FOR REPLACEMENT AUTOMATIC SPRINKLERS SIX SPRINKLER CABINET FOR'/Z" OR 3/4" SPRINKLERS PIN 312390 TWELVE SPRINKLER CABINET FOR'/z" OR'/<" SPRINKLERS P/N 312392 When storing concealed sprinklers, Twelve Sprinkler Cabinet holds six units and Six Sprinkler Cabinet holds three units. ggg-846.,g5g3 4077 AIRPARK DRIVE, STANDISH, MICHIGAN 48658 FAX 989-846-9231 1-800-248-0278 www.globesprinkler.com AUGUST2002 B-5 BULLETIN SPRCAB, REV.#2 FIRE SPRINKLER CQRP~RATI+DN Dyna-Flow High Strength Steel Pipe The original high-strength lightwall sprinkler pipe with hydraulics superior to Schedule-10. Dyna-Flow pipe is the "original" high- strength lightwall sprinkler pipe. Dyna- Flow has outstanding hydraulic capabilities and is recognized as the most popular alternative to Schedule-10 pipe. Lightweight, easy to cut and easy to handle for installation. Dyna-Flow is a valuable addition to any fire protection system. . - With an inside diameter of up to 11% larger than Schedule-40 and up to 7% larger than Schedule-10, Dyna-Flow pipe hydraulics are exceptional. Larger I.D.s enable Dyna-Flow, and related components, to be down-sized within the system, thus increasing the potential for job cost savings. For complete Hazen- Williams charts, refer to "Dyna-Flow Hydraulic Data Tables" Dyna-Flow products are coated with an environmentally approved and specially formulated modified-acrylic or water-based coating. This durable coating is paintable. The black coating acts as an excellent primer and is resistant to weathering and U.V. degradation from outdoor storage. Metallurgical properties provide excellent fabrication characteristics for end prep finishes, welding and roll grooving. There is no special process or equipment needed for fabrication and installation. The internal surface of all black Allied Tube & Conduit Fire Sprinkler pipe products up to 4.5000" in diameter is coated with our new Antibacterial Formula, "ABF". In scientific laboratory test, ABS proved to have superior resistance to microbial colonization of pipe walls, thereby delaying or possibly preventing the onset of Microbiologically Influenced corrosion (MIC) when the First Sprinkler System is first installed. t[~CO/ Flow Control ~- • NPS Nominal I.D. Wt. Wt. (H20 Filled) Pcs/ WULift (21') WllLiit (24') WULift (25') in; mm In; mm Lbs/Fi; Kg/m Lbs/Ft; Kg/m Lilt Lbs; Kg Lbs; Kg Lbs; Kg 4.94 9:839 4-34 91` 4§86 ~#~ 4;888 86 39-5 4~ a~96 9~ X1-9 8~ 866 41/a" 4-1j36 4359 4:57 &4 43§6 4;6laA 4 ;4~4-5 32 59.9 4~ 8-78 64 6~i-6 793 ~ 4>~r" 4:74?8 4~7 2-74 61- °~ ~44A 234 49 -03-9 ~ 4.88 64- 968 ~ -i 7-63 2" 3-293 2-#$4 3~ 37 4;634 4;868 4;946 6S 66:8 ~ 6:64 37 74-f 847 883 2'/z" 2.703 2.564 5.10 30 1,615 1,846 1,923 65 68.7 3.8 7.59 30 733 837 872 3" 3.314 3.387 7.18 19 1,351 1,544 1,608 80 84.2 5.0 10.69 19 613 700 729 4" 4.310 4.473 10.86 19 1,784 2,039 2,124 90 109.5 6.7 16.16 19 809 925 963 Dyna-Flow/Super Flo pipe is manufac- tured to meet ASTM A-795 Type E, Grade A and is in compliance with NFPA-13 and NFPA-14. All sizes of Dyna Flow/Super Flo are UL Listed, FM Approved and ULC Listed. U~ FM UDC Listed Approved Listed Dyna-Flow/Super Flo is UL/LJLC Listed for use with roll grooved, plain-end couplings, and welded joints for wet, dry, preaction and deluge systems. It is FM Approved for roll grooved, plain-end, and welded joints for wet systems. Refer to appropriate documentation for up-to-date listing and approval information. Dyna- Flow/Super Flo is now available "hot- dip" galvanized and has been specifically approved by FM for dry systems uses. Lightweight and easy to install, resulting in more efficient use of your freight and labor dollars. Provides stability needed to comply with standard hanger spacing (15 ft O.C.) per NFPA. • Available in Standard lengths for your convenience, or can be ordered in custom lengths upon approval. • Fast cutting and welding, as well as easy roll grooving and end preparation. • Available in Factory roll grooved form for quicker shop turnaround. • Clean, durable mill coating provides longer "shelf life" and acts as an excellent primer for custom paint applications. ~\ ~III~~ 16100 S. Lathrop • Harvey, IIp60426 Customer Service: ~~J 11350 Norcom Rd. • Philadel hia, PA 19154 (800) 882-5543 TUBE 8 CONDUIT 2525 N. 27th Ave. • Phoenix, AZ 85009 Fax 708-339-1806 S2-3 Schedule-10°/Schedule-40° Fully Listed and FM Approved Sprinkler Pipe >>. When you specify Schedule-10/Schedule-40 sprinkler pipe you get a UL listed and FM approved product. Although these products do not require separate approvals, Schedule-10/Schedule-40 gives you the extra quality assurance you demand. Ottr Sch-lU (1'/,"- 8") pipe and Sch-40 (1"- 2'/,"j pipe have passed the same thorough lab testing as our other listed pipe products, and receive periodic mill inspections from both UL and FM agents to ensure consistent quality. Galvanized Pipe Schedule-10/Schedule-40 product can be "hot-dip" galvanized to meet FM requirements for dry systems in accordance with the zinc coating specifications of ASTM A-123. Our advanced formula mill coating of- fers aclean, durable surface. It is also paint-ready for custom color applications without special prepalation. The inten~al surface of all black Allied Tube & Conduit Fire Sprinkler pipe products up to 4.5000" in diameter is coated with our new Antibacterial For- mula, "ABF". In scientific laboratory test, ASS proved to have superior resis- J ranee to microbial colonization of pipe walls, thereby delaying or possibly pre- venting the onset of Microbiologically Influenced corrosion (MIC) when the First Sprinkler System is first installed. Meets "Buy American" requirement and is available through distributors in the USA, Canada and Mexico. Schedule-lU/Schedule-40 pipe are in compliance with the following: ASTM A-] 35, and NFPA 13. Both pipe products have a working pressure rating of 300 psi maximum and also meet the stringent requirement for the following tests: • Welded Outlets • Hydrostatic Pressure • Side Wall Rupture • Vibration Test *L~COIFlow Control •~ ,- , NPS Nominal i.0. Wl. Wl. (H20 Filled) Pcsl Wt/Liit (21') WN.ift (24') WULift (25') !n; mm In; mm Lbs/ft,• Kg/m Lbs/Ft; Kg/m Litt Lbs; Kg Lbs: Kg Lbs: Kg 1" 1.049 1.680 2.05 70 2,470 2,822 2,940 25 26.6 2.5 3.05 70 1, i20 1,280 1,334 1 Ya" 1.380 2.270 2.93 51 2,431 2,778 2,894 32 35.1 4.36 4.36 51 1,103 1,260 1,313 1'/z" 1.610 2.720 3.61 44 2,513 2,872 2,992 40 40.9 4.0 5.37 44 1, i40 1,303 1,357 2° 2.067 3.650 5.13 30 2,300 2,628 2,738 50 52.5 5.4 7.63 30 1,043 1,192 1,242 2'h" 2.469 5.790 7.86 19 2,310 2,640 2,750 65 62.7 8.6 11.73 i9 1,048 1,197 1,247 i ~- NPS Nominal L0. Wt. Wi. (H20 Filled) Pcs! Wtllitt (21') Wlititt (24') LUt;Lifl (25') In; mm In; mm Lbs/Ft; Kg/m Lbs/Ft Kg/m Lift Lbs; Kg Lbs; Kg Lbs; Kg 1" 1.097 1.400 1.81 91 2,675 3,053 3,185 25 27.9 2.1 2.70 91 1,213 1,385 1,445 1 Y<<" 1.442 1.810 2.52 61 2,319 2,664 2.760 32 36.6 2.7 3.15 61 1,052 1,208 1,252 1'/z" 1.682 2.080 3.04 fit 2,664 3,045 3,172 40 42.7 3.1 4.52 6i 1,208 7,381 1,439 2" 2.157 2.640 4.22 37 2,051 2,344 2,442 50 54.8 3.9 6.28 37 930 1,063 i, i08 2Yz 2.635 3.530 5.89 30 2,224 2,542 2,648 65 66.9 5.3 8.77 30 1,009 1,153 1,201 3" 3.260 4.330 7.94 19 1,728 1,975 2,057 80 82.8 6.4 11.82 19 784 896 933 4' 4.260 5.610 11.78 19 2,238 2,558 2,665 90 108.2 8.3 1753 19 1,015 7,160 1,209 5" 5.295 7.77 17.33 10 1,632 1,865 1,943 125 134.5 11.56 25.80 i0 740 846 881 6" 6.357 9.290 23.03 10 1,951 2,230 2,322 i50 161.5 13.8 34.27 10 885 1,012 1,053 8" 8.249 16.490 40.15 7 2,424 2,770 2,885 200 209.5 24.5 59.75 7 1,100 1,256 1,309 U ~ Fw, UDC Listed ~II'~~ 16100 5. Lathrop • Harvey, IL 60426 T 11350 Norcom Rd. • Philadelphia, PA 19154 TUBE 8 CONDUIT 2525 N. 27 th Ave. Phoenix, AZ 85009 Approved Listed Customer Service: (800)882-5543 Fax 708-339-1806 S5-3 .anvil Company '' f ;!h Tf Il•AStQ~I ~'.1.. 1RC. 90° Elbow Straight Figure 351 Sixe I'dPS DN 8 ;,--------1C - 1% ~ 32 ,.. _..-1 It -0 V ----2--- - J5D 2'I,• ~65 .-.~.---- - IOG --- 5._... -_.--12~ ..~.6..... --t50 ~n ;4 ?~: 1'7~c Page 1 of 1 6 A mn~ ~ ire I rrnl 13 --- - -.,fit i -- - : •2 -. -- ~a ~ .,~~ x; . _. , ._ .. .... .. . 1~ jr,t f 33 14 I i4 - -- ~ 30 . .._ ......_ .._.y _ ~ ~......___.. .-.-. -........ ....,..- oa - _ A% _.. _._ ~ 11G .__ _ . as 5~ s . i~o 132 6;tc ib? Woight black galy. !DS kg tDS kc O.;o 09,' 0.17 0_f 0.23 - - -- 9.11 ~ 0.20 -- - O.i 04~ ~ 010 _. N 0»i -_. 0.1 ,...... i_ .. ... _ ..._~....._. .... ..~._ .._ .. O.tr3 0.?' ~ 0.6i ~ 0.2 - -- - ----- ~,~~ as? ; ~1.~ ._ . . - ~ a 1.- O.uS ~ . r-_---'1.5 _. O.G 2.0 aid 2.1 0.5 7.2 3.3 7.4 3.~ r __._..--~-- 2; ----_ 10 _- --------- - --'- - •J'._._ - __ .1~ _.. _.._ai .. • - -- "fit ii5 ~ ~ ~~ - -07 3( i-i~E.it'E?: ~~'I ~t3" L-i~oViJ ;sEi'~I~i~E zo A,~vil Company Page 2 of 2 Concentric Reducers Figure 367 ~: t ~' ~. ~.~..~ ..~ - i - - ..i Woight Size A B black rwPS D,v NPs DN «~ mm » i mm 1bs kg %. ZO 4 15 ~ sh ~ to ~ i'/,F ~ t~ 4 ~.:G J.15 • '-~ ^ IC' '~ .~+ , t .... I is ~ 33 '[ 4.G3 +31~. , ^ ,+ ` 15 { 'l~ ~ 1; ~ iii i ZI [ x,54 9.30 l%r 32 a 24 1 ( Ya E . . ( 2 ~,.. l.. _..__.S~ .. ' ._ ._ _ _ _. - `. i a / t5 i'e ; 13 , i t%'~ ! t( _ _ 1.9Q - 9.~5--•- , .._ .... f _ ,a _ _ 1% °~ ~ , ; , ..:.. _ , .... ,. .. r 2 SO .. .. -... j I _ r i 19 "[~ , is j ~. - _.. _ 2 1 _: 51 ? 1.3 _ ~-3J_..._ ' _.._..T_.-...-.~__ _..-_ 32 ~ ' f c ! ?? , i 2 ii `:. 54 1.3 ~ 0.3' i t , ! ~ ' ; 2? ~ ; 2'i~: ~_ ,_ ;E - -- 2,4 9.90 t is au ~ ---- - 2`~4 E fi5 ~-.---2 - 1 i 54 -{ 1 ~. 2: I , - I 2;'•E ~ cS I ,.a - 1.4 ~ _. 3 ` 49 r .. _- ~------: _. . 59 ~ 1'~~ i ~~ j 2'/~ j e ' a.7~ _- 1_S --- ` i ' I ~ I 2 l 1 3~~ 5t1 i 1~i I ; Z'1;b ~ 7S I _ _ :... 3.S...R. r_.., _:_.. .. .._ ' ,.-. ,13/;.a i ._.:.,6_ ..._~ _i..~.. w3~__ , .-,:,~A-.,~_ ' . ,-^78_ ~ 114 Z i ~- , s tis a t 17~ 2i iuo ~ i ~- ~ 3!c 3a -- . 10 ------ 4=s t.., .._..~._. . d ; - _ ?" 100 ~~,~l9e ~ 3~le j &7 i tL ~ - u.3 - B ' i5G ___-~ --- ~ A125 _ 7%r ~--- ~3 ; ----i-_ , ~,.~-_- .._._9fi---..- -----16 - i.4 8 't i~30 6 ~ IE•G ' i;t, ~ 3? i 3% °B 'c9 13 ^ bex end ....• ~• ~ i.._nnnn7'-1l~D.L'Tl:-^.iC'7R.1\1A~f-PF'tF7R~P 2l7_7/~OOE Anvil Company Page 1 of 1 •Oil Country •Cast Iron •Malleable Iron •Steel •Forged Steel •Miscelianeous •General Info StraightTec ~ Sizc I A Figure 358 l~JPS ()tl in ~ITt i S h _ ~..~t i ._l7ll i_ w. S1'1 ~ ~ ~ w_ _ ,. i ._._.__..~_. _.__- _ ___ ~ t >~ s 40 1'f:: _ ~ - - " ~ a t e ~~ a ! i t~7 ?~~ - t~ --- - - - T$ i 15~]~ 3i B iii !21lt1 ( lhs '...__ ._;~ .__. 4.~5 gale. 7bs + Sir bl t+t_.f~ ...............:::..~1.........1,,,. ......o~++;,,,.I:.,,ao.,,,1,..7U(`OT-7QRrFT('T-;SRR~N1~~1=PF~SRR~P 7/77/?~nt'i F Il~. U3 G. JVN vu aec~es~ sarv z in . : :. Technical Services: Tel: (800} 381-93121 Fax: (800) 791.5500 www.tyco-fire.com Grr'nnel- Grooved Fire Protection Products Grooved Fittings General Description CI O See Fire Protection Uds Submittal Sheet for Pressure Racing and Listing/Approval U~, ULC Information FM The g rooved fittings provide an economical and efficient method of changing direction, adding an outlet, reducing, or capping grooved piping systems. Groovec+ fittings are available in durable ductile iron or fabricated steel as indicated. Note: Figure b1DS and 519S fittings are special short radius fittings with smaller center to end dimensions than standard grooved fittings. Depending on the size and coupling used, there may be interterencesat the bolt padsthatrequire repositioning ofthe coupling orientation. The use of flange adapters is not recommended with Figures 510S and 519S sittings. Contact Tyco Fire Products for details. WARNING The fittings described herein must be installed and mairrtainad in compliance faith this document, as wet! as with the appllcebie standards of the National Fire Protection Association, in addition to the standards of any other authorities having Jurisdiction. Failure to da se may impair the performance of this device. Tha owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinklermanufacfurershould becontacted Yrith any questions. Technical Data Material: Cast: Figures: 20t , 210, 219, 250, 260, 501, 510, 519, 510DE, 501 S, 5i OS and 5195 - Ductileiron conforming to ASTM A-536, Grade 65-45-12 Fabricated Steel: Figures 391, 392, 393, 312, 313, 321, 327, 341 and 350 -Carbon Steel, (Sizes 1'/a' - 6' are Schedule 40); (Sizes 8" -12' are Schedule 30), conforming to ASTM A-53 Grade B Protective Coatings: • Non-lead orange paint • Fire brigade red (optional) non-lead paint • Hot dipped galvanized conforming to ASTM A-153 Ordering Procedure When placing an order, indicate the full product name. Pleasespecifythequantity,figurenumber, wall thickness, and size. Grinnell Grooved Piping Products, valves, accessories and other products are available throughoutthe U.S., Canada, and internationally, through a nehvork of distribution centers. You may write directly or call 215-362-0700 for the distributor nearest you. Care and Maintenance The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in accordance with the applicablestandards oftheNational Fire Protection Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The installing contractororproduct manufacturer should be contacted relative to any questions. Any impairment must be immediately corrected. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to tha original Buyer far ten (10) years against detects in material and vrorlcmanship when paidfor and properly installed and maintained under normal use and service. This wananty will expire ten (10}years from date of shipment by Tyco Fire Products. No wdRanly is given for products or components manufactured by companies not affiliated by ownershipwith Tyco Fire Products orfor productsand componentswhich have been subject to misuse, intproperinstanation, corrosion, orwhich have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Rre Protection Association (NFPA), and/orthe standards of any otherAuthorities Having Jurisdiction. Mater~IsfoundbyTycoFlreProducts to bedefective shall be eitherrepaired erreplaced, at Tyco Rre Praducis'sole option. Tyco Fire Products neither assumes, nor authorizes any person to assumeforit,arryotherobligation inconnection with the sale of products or parts of products. Tyco Fre Productsshall not be responsibleiorsprinklersystem design errorsorirrccurateorincomp~teinformation supplied by Buyer or Buyers repn:sentatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CONTRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THEORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIALD.4MAGES,INCLUDING BUTNOT LIMITED TO LABOR CHARGES, REGARDLESS OF WHETHERTYCOFIREPRODUCTSWAS INFORfJIED ABOUT THE POS5181LITY OF SUCH DAMAGES, AND IN NO EVENTSHALLTYCO FIRE PRODUCTS' LU181LITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. TNEI~?E6DIA~ WARRANTYIS MADEIN L/R/OF !MPlIFD. INCLUDING WARRANTIFS OF MERCHAPJTABIClTY AND f/TNESS FUR_ A Approvals: UL, Fs<4, ULC, VdS, and LPCB; Noce: See Fire Protection Submittal Sheet for exact Listing /Approval information. Page 1 of 6 September 2004 TFP1810 Page 2 of 6 TFP1810 Figures 260 ~~~ .% CtoE ' cc'xiE ,± ~ :~CIoE-{ Figure 201 Figure 210 i I f i 1 CtoE -~ Figtre 260 , Figure 219 Fnclion Resistance' Ex ressed as E uivalent Strai ht Pi e I bow T ee 'ze 90° 45° Branch R In es Ft~t Feet Feet F et Meters Meters Meters fern 1'r 1~ 1.0 4.8 1.9 42. 0.8 0.3 1.5 0.6 1 ri 2.3 1.2 5.8 2.3 48.3 0.7 0.4 1.8 0.7 2 3.2 1.6 B. 3.2 60.3 1.0 Q5 2. i.0 2 z T3.0 .9 2. 0.6 .D 1.2 76.1°n, 4• 1 2.1 0.6 0.3 3.1 4.1 1.2 3 4.9 2.4 2.2 4.9 88.9 i.5 0.7 3.7 1.5 108.0~,.~ 6 2.0 3.3 i. t 6.3 5.0 6.5 2.0 6.5 16.3 6.5 174.3 20 5.0 20 t33 ~ 8 D 24 1. 20.0 6. i 8,0 24 139.7mm 8 O 2.4 4.1 7.3 20.0 6.1 8.0 2.4 5 8.2 4.1 20.5 141.3 2. 1.3 6.3 2.5 159.Omm 9 9 4.8 i.4 .B 9.5 29 165.1°xa 5 29 4.8 7.4 2 7. 29 6 9.9 5.0 24.8 .9 168.3 3.0 7.5 7.6 3.0 216. t3.1 4.0 6.6 2.0 32.8 10.0 13.1 4.0 8 27 .1 13.1 4.0 6.6 Z.D 32.8 10.0 .1 0 16.5 8.3 41.3 1 3.0 5.0 2.5 126 5. 12 19.9 9.9 4 .7 1 . 323.4 6.1 3.0 15.1 8.1 Fer• du N ,e c g tees artdltxanches, use the vaWO that is conospontllrg to the braMh size. Example: for 8' x 8' x 2' lee, the branch vaWe 2' s 8.0 teW. FdcrJon resistaree boraU ebowsand tees except Flgtxas 510.S and 5195. Fgure 201 ' Figure 210 ° Figure 219 Figure 260$ 45 Elbow 90 Elbow Tes End Ca i l ppx. t. to ppx. to ppx. t to ppx. t Nom na Size In m Lbs. Kg. Inches mm Lbs. Kg. ' Irxhes mm g.~ inches mm Lbs. Kg. 1'/s" 5 44.5 0.9 0.4 27 E9.9 d 5 2.75 69.9 0.6 22.4 0.2 1'/z 44.5 1. .5 27 69.9 1.2 0.5 2. 69.9 1.8 0.8 8 22.4 0.3 2. 2 50.8 8 B26 2. 0.9 3. 8 E i.2 224 0.4 2'/a 2 2 5T.2 2. 1.0 3. 95.3 3.0 1.4 95.3 2.6 88 224 0.4 761 rnm 2- 5 57.2 2. 1.0 3.75 95.3 3.0 1.4 3.75 95.3 2.6 0. 23.9 1. 0.5 3" 63.5 .5 1.6 5 .D 5 2 25 lOB.O 0 3.2 0.88 224 1. 0.5 108.Omm 73.0 25 4. 120. .9 4.75 120.7 1 .5 5.2 _ _ 4• 3 76.2 2.4 5.00 127.0 8.a 3.9 5.00 727 0 1 5 4 25.4 .6 1.2 133.Omm 82.0" 7.7 3.5 525 133. 11.3 .1 5. 5 133.4 6 4.8 - _ 139 7tnm 826 3.5 5. 1 .7 3 139.7 3 6.9 0. 23.4 4.7 21 5" 826 8.5 3.9 .50 39.7 13. 6. i 50 139.7 1 0 7.7 1.00 25.4 5.0 2.3 159.Omm 350 88.9 12.0 5.4 6.00 1524 14.6 6.6 6.00 524 13.9 S 3 _ - •: ^+~ 165.1 mm 3 88.9 12. 5. 6.50 165.1 18.5 8.4 50 1 ~.1 .0 11.8 1.00 25.d 7. 3.4 6.. 3 50 8B.9 0 .4 6.50 165. ! 8.5 8.4 6. 165. 26.0 11.8 1.00 25.4 7.5 3.4 216.3mm 25 f08.0 23.0 10.4 7.75 19x".9 36.5 16.6 7.75 196.9 45.0 20.4 - - 8. 4 25 23.0 7.75 36.5 7.75 .0 1.19 12.8 108 10.4 196.9 76.6 T 96.9 .4 30.2 5.8 10' 4. 1 .7 3.0 14.1 9.00 228.6 60.0 27.2 9.00 228.6 1 3. 25 31.8 0.0 9.1 12" 25 40.0 10.00 67.0 10.00 92. 125 36.0 33.4 78.1 254.0 30.4 254.0 42.0 37.8 16.3 # -AvalaWe wdh lapped plugs, ramact Tym Fre 6 9 Products. Page 3 016 TFPi 610 Figures 501, 510, 519 and 510DE C to 1' i i~ CtoE ' Figure 501 -'- - Y- ! Cloe :~CtaE~ Figure 510 ~~Cm E--i i i i I I C1oE Figure 519 i I ! ~IG.JIe. E lq A--Y C to E --{ Figure 510DE Figure 501 Figure 510 Fgure 519 Fgure 510DE 45' Elbow 90' Elbow Tee 90` Drain Elbow Nominal to E Appx. Wt. to Appx. t. to E Appx. NJt. to B Appx. Wt. Inches Lbs. Inches Lbs. Inches Lbs. Inches Inches Inches Lbs. Size mm Kg. mm Kg. mm Kg. mm mm mm Kg. 1,1, 75 44.5 U.9 0.4 2.7 69.9 .0 0.5 2.75 69..9 1. 0.6 _ _ _ _ 1,~x" .7 44.5 0.5 2.75 69.9 0.5 2.7 69.9 0.8 _ _ _ _ 2, W 50.8 8 0.8 3.25 82.6 2.0 0.9 3.25 82.G 2.7 1.2 _ _ _ _ 25 2. 3.75 3.0 3.75 5.8 3.75 2. 2.7 2'Jz' 57.2 1.0 95.3 1.4 95.3 2.6 95.3 50.8 69.9 i.2 50 3 5 4 25 4. 4.25 .0 4. 5 3.7 3' . 63.5 . 7.6 . 108.0 2.0 108.0 3.2 108.0 59.4 69.9 1.7 00 3 5 2 5.00 8.5 5. 1. 5.00 2.85 2.75 7.0 4" . 76.2 . 2.4 127.0 3..9 1270 5.4 127.0 72.4 69.9 3.2 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 G.50 3.92 2.75 3.4 88.9 5.4 165. i 8.4 1651 11.8 165.1 99.6 69.9 6. i 8" 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 i6.6 196.9 20.4 196.9 125.7 69.9 11.9 Figures 501 S, 5105 and 519S Cto C lu E ,4'. Figure 501 S Friction Resistance 501 , 510S 8 519S Ex ressed as E uivalenl Stral ht Pi e) Ib ow T ee Size 90" 45` _ Branch Run Inches Feet Feet Feet Feet mm Meters A9eters Meters Meters 3.2 1.6 8.0 32 60.3 1.0 0.5 2.5 1.0 2'/x 3.9 2.0 .8 3.9 73.0 1.2 0.6 3.0 1.2 761e., 4.1 2.1 10.3 4.1 1.2 0.6 3.1 1.2 3 4.9 2.4 12.2 4.9 88.9 1.5 0.7 3.7 i.5 4 114.3 6.5 2.0 3.3 i.0 16.3 5.0 6.5 2.0 139.7mm 8 0 2.4 4.1 1.3 20.0 6. i 8.0 2.4 5 8.2 4.1 20.5 8.2 141.3 2.5 1.3 6.3 2.5 165.1mm 9 5 2.9 4.8 1.4 23.8 72 9.5 2.9 168.3 9.9 3.0 5.0 1.5 24.8 7.6 9.9 3.0 8 13.1 .6 32.8 13.1 219.1 4.0 2.0 10.0 4.0 !~C td E --I __ ! I _._._.~_------ ~l ~ CtoE CtoE »-CInE~ Figure 510S' Figure 519S' 'Wote.FiqureStdSand519SUttin~sarespeclalshoAradlu mnq fth Than standard grooved tpltngs. Oependlnq on the slae aad roepHaq used, there may be InteAerorrces at the bolt patlswhtch requlros reposhloninq of me caupllnq ulentatloa The use o111ange adapters Is not recommended with Flqures 5105 and 5195 tltltngs. Contact T/co Flro F'roducis for dotal ls. Figure 501S Figurs 5105 Figure 519S 45° Elbow 90° Elbow Tee Nominal to Appx t. C to Appx. Wt. io E Appx. Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. mm K . mm K.q. mm K . 2' 200 1. 2.75 1.5 2.75 2.1 50.8 0.8 69.9 0.7 69.9 1.0 2,~ , 2 25 57.2 2.2 i.0 3.00 76.2 2.2 f.0 3.00 70".2 3.0 1.4 76.1 ~,~, 2 25 57.2 2.2 1.0 3. W 76.2 2.3 i,0 3.00 76.2 .1 1.4 3" 2 50 63.5 3.5 1.6 3.38 85.9 3.0 f.3 3.36 85.9 .1 i.9 4° 3.00 76.2 5.2 2.4 4.OD 101.6 5.6 2.6 4.00 101.6 7.7 3.5 139.7mm 3 25 B2.6 7.7 3.5 4.88 124.0 8.6 3.9 4,88 124.0 12.0 5.4 5. 3 25 " 6.5 4.88 8.8 4.88 12.0 82.0 3.9 124.0 3.9 124.0 5.4 165.i.,.e 5 88.9 12.0 5.4 5.50 139.7 11.00 5.0 5.50 139.7 15.0 6.8 6. 350 12.0 5.50 112 5.50 15.2 88.9 5.4 139.7 5. i 139.7 6.9 8„ 4.25 23.0 6.8A 23.4 6.88 31.2 1PR.0 10.4 174.8 10.6 f74.8 14.2 st I sw smal ler ceNetlo e nd dimerulons Page 4 of 6 TFP1810 Figures 250 and 354 ~-- E Io E ~{ Figure 250 Cast r--EtaE~ Figure 350 Fabricated Sizes 3"to 6" r- E to E ~{ Figure 350 Fabricated Sizes 9" to t2` Note: Sizrs marketl wish an asterisk (7 are ony avartabie M Figure 250 Cast. Sizes wilhaR an ante: iak are ony avaflabte In Figure 350 Fabricated. Figures 250 and 350 Concentric fleducer - Groove x Groove Nominal E to E Appx. Wt. Nominal E to E Appx. Wt. Nominal E to E Appx. Wt. Size Inches Lbs. Size Inches Lbs. Size Inches Lbs. Inches mnt Kg. Inches mm K . Inches mm Kg. '2 x 1 Y' 2.50 63.5 1.0 0.5 ' 139.7rnm x 3 3.50 88 9 4.2 1 g '6 x 5 4.00 107.6 5.8 2.0" 2.50 1.3 3.50 4.4 5.00 12.2 `2 x 1!5 63.5 0.6 -139.7nm x 4 88.9 2.0 8 x 2 127.0 5.5 `2:%z x 2 2.50 63.5 1.2 0.5 5 x 1',iz 3.50 88.9 4.6 2.1 8 x 2'1z 5.00 127.0 12.1 5.5 '76.1mmX1'/s 2.50 63.5 1.5 0.7 5X2 3.50 88.9 4.6 2.1 8X3 5.00 127.0 12.0 5.5 '76~1rmnx2 2.50 63.5 1.6 0.8 5x2'/z 3.50 88.9 4.5 2-0 6x4 5.00 127.0 11.9 5.4 2.50 1.3 3.50 4.4 5.00 11.3 3x1;'. 0"3.5 0.6 5x3 88.9 2.0 8x5 127.0 5.1 ~ , 3 x 1 ~z 2.50 63.5 1.3 0.6 '5 x 4 3.50 88.9 4.5 2.0 8 x 6 5.00 127.0 10.8 4.9 2.50 1.3 4'~ 5.5 00 6 21.9 `3 x 2 63.5 0.6 •165.1,.,, x 3 101.6 2.5 10 x 4 . 152.4 10.0 '3 x 2'lz 3.00 76.2 1.5 0.. •165.1 mm x 4 4'00 101.6 6.0 27 10 x 5 6.00 i52.~ 21.6 9.8 '3 x 76.imr 3.00 76.2 2.0 0.9 '1~.1R„x 13+~ 4.00 101.6 5.6 2.5 10 x 6 6.D0 152.4 21.1 9.6 4x1'/. 3.00 76.2 2.2 1.0 •6x2 4'~ 101.6 6.0 2.7 10xA 6.00 152.4 19.5 8.9 4 x 1;4 3.00 76.2 2.3 1.0 6 x 2;~e 4.00 101.6 6.0 2.7 12 x 4 7.00 177.8 28.0 12.7 3.00 2.3 4.00 6.0 7 00 30.0 '4 x 2 70".2 1.0 '6 x 76.1mm ro1.6 2.7 12 X 6 . 177.8 13.6 3.00 2.3 4.00 6.0 7.00 28.0 '4x2'6 76.2 1.0 6x3 701.6 2.7 12x8 177.8 12.7 3.UU 3.2 d.00 5.9 7.00 33.0 `4 x 76.imm 70.2 1.5 '6x4 101.6 2.7 12x10 1778 15.0 3.00 2.6 a.00 6.3 4x3 i o"2 1.2 '6x139.7... ~ 7 C i, ?.? ADA CAP° Patented Pi e Nominal Dimensions A • Ta out ense rtc nd ~ Size Outlet B C O Wt Inches NPT' Inches Inches Inches Inches Lbs. Inches mm mm rttm mm Ky. ,/z 1.25 1.75 1.89 0.77 31.B 44.5 48.0 0.3 1'/z 3I. 1.900 1.25 1.75 1.89 0.77 48.3 31.8 44.5 48.0 0.3 1 1.37 2.00 2.02 0.86 34.8 50.8 51.3 0.4 ,/z 1.25 1.75 1.89 0.92 31.8 44.5 48.0 OA 2 ,/~ 2.375 1.25 1.75 1.89 0.92 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 1.26 37.3 50.0 48.0 0.6 2'/x ~y. 2.875 1.47 1.97 1.89 1.28 73.0 37.3 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 threatled otnlets are availaGle upon requrst. Page 5 of 6 E to E -~I Figures 391, 392, 393, 312 and 313 ~EwE~ Figure ---- 391 Figure 392 I E to E -+t 1 1 Figure "-"-'- "' 393 Figure 312 C1oE Figure C to E 313 Figure 327 CtaE u' i CtgE TFP1810 Figures 391, Figure 312 Figure 313 392 and 393 22'/z` Elbow 11'/,° Elbow Ada ter Ni les 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 Ky. 4 00 0.8 1.75 0.4 1.38 0.4 1,/~" lo1.s 0.4 44.5 D.2 35.1 0.2 4 00 0.9 1.75 0.5 1.38 0.5 1 /z" 101.6 0.4 44.5 0.2 35. i 0.2 4.00 1.2 1.88 0.6 1.38 0.6 2„ 101.6 0.5 47.8 0.3 35.1 0.3 4 00 1.9 2.00 D.7 1.50 1.1 2,/,, 101.6 0.9 50.8 D.3 3B.1 0.5 , 4 DO 2.5 2.25 1.4 1.50 1.2 3 i0i.6 i.1 57.2 0.6 38.1 0.5 6 00 5.5 2.63 2.4 1.75 2.2 4, 152.4 2.5 66.8 1. i 44.5 1.0 6 00 7.4 2.88 4.1 2.00 3.3 5" 152.4 3.4 73.2 1.9 50.8 1.5 , 6.00 9.5 3.13 5.6 2.00 4.6 6 152.4 4.3 79.5 2.5 5D.8 2.1 8, 6 00 14.2 3.88 11.1 2.00 8.7 152.4 6.4 98.6 5.0 50.8 3.9 8.00 27.0 4.38 14.0 2.13 9.1 10" 203.2 12.2 11.3 6.4 54. i 4.1 8.00 33.0 4.88 22.0 2.25 16.7 12' 203.2 15.0 124.0 10.0 57.2 7.0" Figures 327 and 341 I EtoE I Figure 341 Figure 327 Figure 341 1501bs. Cross Flan a Ada ter Nominal C to E Appx. Wt. E to E Appx. Wt. Size nches Lbs. Inches Lbs. mm kg. mm k . 1'/." 2.75 2.0 4.00 2.6 69.6 0.9 101.6 1.3 1,/`„ 2.75 2.2 4.00 3.2 69.9 2.0 101.6 1.5 2„ 3.25 2.7 4.0 5.2 82.6 1.2 f0i.6 2.4 2 ;/2 3 75 5.0 4.00 8.0 95.3 2.3 1D1.6 3.6 , 4.25 7.1 4.00 10.2 3 108.0 3.2 101.6 4.6 5 00 11.9 6.00 17.2 4" 17.0 5.4 152.4 7.8 5 50 17.1 6.00 21.4 5, 139.7 7.8 152.4 9.7 " 6.50 27.5 6.00 26.0 6 10"5.1 12.5 152.4 17.8 8~ 7.75 47.0 6.00 38.4 196.9 21.3 152.4 17.4 9.00 68.0 8.00 65.0 10' 228.6 30.8 203.2 29.5 10 00 107.0 8.00 91.0 12' 254.0 48.5 203.2 47.3 1C~a'~ll~IC0. An sq 9001 certified company DESCRIPTION ~~- - ~ d ,~:. - _ r ~ 4^- ~'~. ~Y=~:.'SAa1~ ~F.~..... .. k .... style o05 ~ h ~ ~ ~ rR VAC ~ ~~ -~~.~. FireLockTM Gasket System "-`°-""°'"° Rigid Coupling with Vic-PIusTM Gasket System FireLockT"^ Style 005 rigid coupling has a unique, pat- ented angle-pad design which allows the housings to offset while clamping the grooves. By permitting the housings to slide on the angled bolt pads, rigidity is obtained. DIMENSIONS ~Y i Z \ ~-- x ~ Rated for udet and dry sprinkler systems at 350 PSI (2413 kPa) for 1'/a - 4" (42,4 - 114,3 mm) sizes and 300 PSI {2068 kPa) for 4'/a - 8' (108,0 - 219,1 mm) sizes; Schedule 10 roll grooved or Schedule 40 cut or roll grooved steel pipe. Style 005 is rigid and does not accommodate expan- sion, contraction or angular deflection. The FireLock couplings provide rigidity for valve connections, fire mains and long straight runs. Support and hanging requirements correspond to NFPA 13 Sprinkler Systems. Angle- pad design permits assem- bly by removing one nut/ bolt and swinging the housing over the gasket. This reduces components to handle during assembly; speeds and eases installa- tion on pipe grooved to Victaulic specifications. Style 005 FireLock cou- plings with the Vic- PlusT'" Gasket System are designed and rec- ommended for use uL FM ULC i1LIt"r/tlt. V d5 § LPC and Vd5 Approved, ~` II ~~ ~~ saa notes on page 2. ONLY oa fire protection systems. Vic-Plus Gasket System: Victaulic'~ now offers a gas- ket system which requires no field lubrication. The Vic-P1usT"' System (patent pending) is dry, clean, and non-toxic. It reduces assembly time substantially and eliminates the mess and chance of over-lubrication. ,ooz-,o gIZE Max. Max. Allow. Dimensions Nominal ~Wor1c. End ~ Pipe End C~ 8oltlNut lnches/;n,,, Aprx. Inches Press. § Load Sep. f No. - 51ze Wgt. Ea. art,a! n,nr PSI`/~K~~• Lbs.'/r~ 1nJmm Incheslmr.: X Y Z LbsJv9 1'/a 350 755 0.05 2.75 4.50 1.SB 1.2 1'f~ 350 990 0`05 3.00 4.75 1.88 1.2 2 -'/c X 2 1'. . 2 350 1550 0!07 3.50 5.25 1.88 1.6 2'/z 350 2270 0.07 , 4 OO 5.75 1.88 1.9 350 2475 0.07 4.13 5.75 i.88 1.9 76.1 rr~m ,., 2 - 3i6 x 2'/z ,..: - 3 350 3365 0 07 4.63 6.13 1.88 2.1 . 4 350 5565 0.1 fi 5.75 7.25 2.13 3.1 - 300 4255 U.16 5.63 7.25 2.13 3.1 108,0 mm . - - ,.-, 2 - 3'e X 2'2 . . 5 300 7290 0.16 6.88 9.00 2.13 4.5 300 6495 016 6.63 9.00 L.13 4.5 133,0 mm ..... . ,.. 2 -'k X 2~'a , _ .. , 300 7125 0.16 6.88 9.00 2.13 4.8 139,7 mm _. .. , 2-',~ X 2~/. -. ,._., „ 6 300 10340 0.16 8.00 10.00 2.13 5.0 2 -'is X 23'a 300 9200 0.16 7.63 10.00 2.13 5.5 159,0 mm _, ;,t 2-3a X 4'/a - . 165,1 rnm 300 9955 0.16 2 -'fz X 2~'. 8.15 10.00 2.13 5.5 8 300 17525 0.19 10.50 13.13 2.63 11.3 ~i ~ fi Reie, 1o noes on page 2. ,r,,,,.,.~G,.~•,AL..,.1 u~...+...... w,..- - n n o.... n-, f nnl.... I,A ~ORA~ f,(,•,1 - ~nni v-,...,-.-..:n- n.+ ~... ~.... nn inn An - i nnn rnnv v,r - rav. c,nrncn no,~ - ...~......:..~...,c.. ~~... Patented PRODUCT y-~.f+. L. t ~ v~. _ - _ STYLE 75 Style 75 is available where moderate pressures are expected or weight considerations are a factor. Up l0 50°~ lighter in weight than the Style 77, the Style 75 coupling is recommended for service up to 500 psi/3450kPa depending on size. Housings are cast in two identical pieces in all sizes. Hot-dip galvanized and special coatings are available for all sizes. Eraggerared ra clarity MATERIAL SPECIFICATIONS Housing: Ductile iron conforming to ASTM A•536, grade 65-45-12. Ductile iron conforming to ASTM A-395, grade 65.45.15, is available upon special request. Housing Coating: Orange enamel. • Optional: Hot dipped galvanized and others. Gasket: (specify choice') • Grade "E" EPDM EPDM (Green color code). Temperature range -30°F to +230°F/-34°C to +110°C. Recommended for hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemical services. UL classified in accordance with ANSI/NSF 61 for cold +86°F/+30°C and hat +180°F/+82°C potable water service. NOT RECOMMENDED FOR PETROLEUM SERVICES. • Grade "T" nitrite Nitrite (Orange color code). Temperature range -20°F to +180°F/-29°C to +82°C. Recommended for petroleum products, air with oil vapors, vegetable and miners! oils within the specified temperature range; except hot, dry air over +140°F/+60°C and water over +150°F/+66°C. NOT RECOMMENDED FOR tiOT WATER SERVICES. ' Services listed are General Service Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Reference should always De made to the latest Victaulic Gasket Selection Guide for specific gasket service recommendations and for a listing of services which are not recommended. Bolts/Nuts: Heat-treated plated cartwn steel, trackhead meeting the physical and chemical requirements of ASTM A-449 and physical requirements of ASTM A•183. JOB/OWNER System No. CONTRACTOR Submitted By Location Date www.victaulic.com VICTAULIC IS A REGISTERED TRADEMARK Of VICTAULIC COMPANY. O 2008 VICTAULIC CDMPANY. ALL RIGHTS RESERVED. . .:._. j ENGINEER Spec Sect Para Approved rctaul~c G-, i_ c :. STYLE 75 DIMENSIONS 06.05 1 ~ 1315 500 680 0-0.06 ' 2'-a3 D.57 ! 2-Kx2 2.38 417 i 1,77 1.3 '25 33.a 3450 3025 0-t.b a8 ! 6t _. 108 ~.. 45 0.6 . i u 1.660 500 1080 0 - 0.06 2. _ t0 Day ! 2 _ K x 2 2.68 ; 4.61 1.77 1.4 • 32 421 3450 4805 0- t.6 ; 38 ~ ~ 117 45 D.b .T-- -__ .. ' t K ~_. - -- 1 900 ._ ..___.._..- 500 -._._ _ 1420 ---......_.. . - + 0 - 0.06 ._. _~ _ - ' ' __ 0.40 _.... _ _ ._ . ._ ! ' __... . 2.91 _.._ _ 4.82 ... 1.77 _ _ . _ . _ _ 15 . 40 . 489 3450 6320 ~ 0 - 1.6 1 - 56 I 33 /i x 1 ; 2 - )4 122 45 0.6 - 2 2375 500 2.215 0 - 0.06 1. _ 31 0.32 2 - ,/~ x 2 3 43 522 i 1.88 1.7 SO 603 3450 9860 0- 1.6 26 87 _ 133 ... 48 Ob 2 fi 2.875 500 31x5 0 - 0.06 1'-1' D 26 ~ 2-Kx2 398 5.68 t .B8 1.9 65 73.0 3a50 1a44p 0-1,6 22 98 1aa aB 0.9 76 tmm# 3.000 500 3.535 0 - 0.06 1'-T2' 0.26 + 2-Kx2 4.00 5.90 1.88 1.9 . 76.1 3450 15730 0- 1.6 22 _ .. . ... 102 . .. 150 .. 48 . . 0.9 . . ..._ _. _ .. _. . 3 _ . .... 3.500 ...... ..... ...... ... 500 ..,. _ 4.800 .. .., .... .. .. .. 0 - O.Ob ..._ .. . . 1'-2' .. 0 22 . _y. _,_._.... i 2-Kx2iG .. .. 450 ` .. 7.D0 . . 1.88 - _. . . 2.9 8D 88.9 3450 21360 ': 0-lb 18 114_- i 178 48 13 3f, a,000 500 6.300 0-0.06 ~ ' O.t9 ~ 5.00 7.50 t.BB 2.9 ~' 90 .. . . _ _. . 101 b _ 3450 _. __.. 28035 _._. __ 0 - 1.6 + ~.__ ____.. 0 - 54 ____._ _._.. _ 16 _. _..__ ~ 2 -fix 234 . 127 141 _. __ _ 48 _ __ 1.3 _ _. T r -_ _ 4 ._..---- - 4500 500 Z95D 0-0.13 1' - 36' 0.34 i 2 -fix 2 ~i 5.80 8.03 2.13 a.t 100 ' 1 t 4.3 3450 __. _ 35380 .._.. 0 - 3.2 ~ 28 147 _ 204 Sa 1.9 _ _ ... . 108 D mm 4.25D a50 ; 6.380 0-0.13 t" ' 41 0.35 2 - 12 x 70.0 SSS 7J9 2.13 3.7 . 108.0 3100 28395 D - 3.2 29 141 198 54 1.7 4f2 SDDO a50 8.820 0-0.13 ~ t' - 26' 025 2 - K x 3 % _ 6.13 9A3 2.13 SS t 20 127A 3100 39250 0 - 3.2 2t 156 240 54 25 _ ... 5 ._ _ . 5563 . _. _. _. .._ a50 _. .._ 10.935 ...__. __. 0-0.13 ' ' 027 - , .._ e 68B - ._ 10.07 2.13 , 5.8 t25 141.3 3100 + 48660 0-31 j t -[8 23 2-Kx3Y. 175 256 54 2.6 [33 Dmm 5250 450 9.735 0-O.t3 1' - 2[ 028 ; 2 - 16 z 82.5 655 937 2.13 6.D . 133.0 3100 x3325 0 - 3.2 24 166 ' 238 S4 2.7 5500 450 ~ 1Ob65 0-0.13 ' ' 028 6.80 ~ 959 - 2.13 -63' 139.7mmi ' 139.7 3100 47460 0 - 3.2 t -18 2a 2-Kx3ti 173 Zan 54 2.9 152 4 mm 6.000 450 12.735 0-0.13 t'-[2' 0.21 2-y.x3'h ,. 798 . 10.48 1.BB 62 . 152.4 3100 56670 D-3.2 t8 ' 187 266 48 2.B 6 6.625 450 i 15525 0 - 0.13 T. - 5 0 23 2 - ~/i z 3'A 8.00 11.07 2.13 7.0 750 7 6R 3 3100 69085 D - 3.2 ~ 1 B 203 ~ 281 54 3? Continued on page 3. ' t @ # Refer [o notes on page 3. Y --{ ~•- Z --~ X www.victaulic.com iCt~IUIiC vICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY. O 2008 VICTAULIC COMPANY. ALL RIGHTS RESERVED.. . _...,,. ,_._.._.__._.. ,.,'t l?rte.^e. -__... -. _-., ,: ,., -Gu=i:; ,'=..... ~:_ STYLE 75 DIMENS{DNS 759Amm 1 o.z~u ~ uu iaaw u-uu 159.0 3100 61405 0 - 3.1 1432 mm N 8.000 450 21b35 0 - 0.13 203.2 3100 100725 0 - 3.1 8 8.625 ~ 450 26.280 0 - 0.13 200 219.1 31 a0 116945 0 - 3.2 I54 O mrn N ' 1 10.D00 350 27500 0 - 073 . 25a.0 2400 1223 75 0 - 3.2 304.8mmrf 11A00 350 39500 0-0.13 06.05 7 - 9 20 2 -16x82.5 194 256+ 54, 3.1 0 -54 016 2-16x4Y. 9.72 13.33 2.31 12.6 13 247 339 58 5.7 D'-SU' O.1B 2-1.'x4y. 1034 13.97 1.32 12.4 to 263 355 59 5.6 0' - 43' 0.15 2 -'/. x 5'h 12.16 15.81 2.53 20.8 _.11... _ , 309 . 402 64 _ ...... 9.4 0' - 36' 0.13 2 -'b x 5'h . 74.16 17.69 _ 253 23.6 9 360 449 64 10.7 Working Pressure and End load are total, from all internal and external loads, based on standard weigh[ (ANSI) steel pipe, standard roll or tut grooved in accordance with Yctaulic specifications. Contact Vic[aulic for performance on other pipe. WARNING: FOR ONE TIME FIELD TEST ONLY, the Maximum Joint Working Pressure may be increased to 1 t/2 [Imes the figures shown. t Allowable Pipe End Separation and Deflection figures show the maximum nominal range of movement available at eachjoint for standard roll grooved pipe. Figures Ior standard cut grooved pipe maybe doubled. These figures are maximums; for design and installation purposes these figures should be reduced by: 5096 for r/. - 31/2'/20 - 90 mm; 2596 for 4%100mm and larger. Numberof bolts required equals numher ofhousing segments. Metric thread size bolts are available (color coded gold) for all coupling sizes upon request. Contact Victaulic for details. Y -s1 Ir Z -+~ x www.victaulic.com VICTAUUC IS A REGISTERED TRADEMARK OF wCTAULIC COMPANY. O 2008 wCTAUUC CDMPANr. ALL RIGHTS RESERVED, . 1CtaUI1C l:i'.i'~.._ r .1i:... STYLE 75 WARRANTY Refer to the Warranty section of the current Price List or contact Victaulic for details. NOTE This product shall be manufactured by Victaulic ar to Victaulic specifications. A11 products to be installed in accordance with current Victaulic installationlassembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. INSTALLATION Reference should always be made to the I-100 Victaulic field Installation Handbook for the product you are installing. Handbooks are included with each shipment of Victaulic products for complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. for complete contact information, visit www.victaulic.com 06.05 1470 REVI UPDATED L2008 vK=TAULIC IS A REGISTERED TRADEMARK Or VICTAULIC COMPANY. 0:008 VICTAULIC COMPANY. all RIGHTS RESERVED. .... iJ U I ~ l l l l l 11111111111111111111111111111111 WCAS-76DNAR ~CtaUI1C ,,. ~..~ ~~' ~~ FIRE SPRtN~LER C(3RPURATtQlrir Specifications Working Pressure : 300 PSI (21.4 Bars) Max. Test Pressure : 600 PSf (42.8 Bars) Max. Working Temp : 250°F (120°C) Factory installed UL Listed Double Tamper Switch For Indoor and Outdoor Use. Materials of Primary Components Body Disc ; Upper and Lower Stems Worm Gear Shaft Housing Hand Wheel Flag Indicator Sheer Pin Segment Gear Housing Gasket O-Rings (All) ASTM A-536 Nylon-11 Coated ASTM A-536 EPDM Encapsulated AISI 420-SS AISI 410-SS ASTM A-536 ASTM A-536 ASTM A-536 ASTM A-510 ASTM B-148 or B-584 EPDM Grade "E" EPDM Grade "E" Approvals NYC -DOB MEA Approved 155-06-E UL, ULC Listed FM Approved f I ~I L/.VJ GLR300G Grooved Butted ly Yalves Grooved End, Sues DIMENSION UNIT:IN(mm) SIZE A B C D E Part No. 1-14- ~ (~~ ~~ ~~ ~-E8~ 3-8A-{8&4) 3a-~8§-~ 3" 5.59 (142) 5.04 (128) 4.41 (112) 3.fi0 (92) 3.80 (96.4) 311790-G s" ~ ~ ~-(4-~~ ~~ ~ o~~ 3~k80g-6 AUGUST2006 Page4 BULLETIN BUTTERFLY REV#2 ~ I I I.UJ Design Requirements The Globe grooved butterfly valve should be connected to the piping system with approved couplings or flange adapters. Flow may be from either direction, and the valve may be positioned in any direction. Globe butterfly valves have been designed with a slow close hand wheel operator, which effectively minimizes water hammer. These valves feature minimum flow restriction and pressure loss when in the fully open position. Installation When the valves are received from the manufacturer they should be handled carefully to avoid breakage and damage to the seating area. Before installation of the valve, clean piping, flange and coupling. When the valve closes hard, it is usually due to debris lodged in the sealing area. Often this may be corrected by backing off the hand wheel and closing again. The valve should never be forced to seat by applying a wrench to the hand wheel as this may distortthe valve components or score the sealing surface. The use of excessive force to open or close the valve violates all warranties whether express or implied. The inlet and outlet pipe adjacent to the valve should be properly supported to prevent excessive stress on the valve body. The valves should not be used to force a pipeline into position as this may result in distortion of the valve body. Conduit and electrical connections to the optional tamper switch must be in accordance with National Electrical Code (NFPA 72) and requirements of the local authority having jurisdiction. Care and Maintenance Globe butterfly valves require no regular maintenance, however, it is advisable to inspect and verify proper operation of the unit annually or in accordance with the authority having jurisdiction. The inspection should include a visual check for leakage at the valve pipe connection and body to operator connection. Inspection and maintenance should be performed by a qualified inspection service. Switch Installation Globe butterflyvalves are provided with internal supervisory position switches. The tamperswitch operates by a cam connected to the valve stem. The switch will change position and close within two (2) full turns of the hand wheel from the fully open position. Switch #1 For connection to the supervisory circuit. Normally closed: 2 Red Normally open: 2 Yellow Common: 2 White Switch #2 Auxiliary switch Normally closed Normally open: Common: Ground Lead: connected per authority. 1 Orange 1 Blue 1 Black 1 Green 5_ T OPEN(7ELLOW) COMYON(WNITE) CLOSEO(REO) FIRE NAaN END OP LINE CONTROL P.wE1 RESISTOR OR SuPERN50NY CIRCUIT NE%T DEVICE MruATOR CtisE OROOND (GREEN) S-2 OPEN(BLUE) COMMON(BUCK ClOSEO(ORANOE) VOLT.LCE AUX. DEVICE SOURCE (BELL OR HORN) AUGUST2006 Page 1 BULLETIN BUTTERFLY REV# 2 FIRE DESCRIPTION AND OPERATION SWING CHECK VALVE STANDARD ~ "SHOTGUN" MODEL RCV ~~ GROOVE/GROOVE ~~ ~n~ e S~~ - ~ ~ ~ ~ Globe Model RCV Swing Check Valves feature a swing type clapper designed for use in fire sprinkler or other types of water piping systems that incorporate grooved connecting pipe ends. They are effectively used when it is necessary to permit water flow in one direction only, preventing flow in the reverse direction (non- return). Because the RCV incorporates aspring-loaded clapper assembly, it may be installed in either the vertical or horizontal position. Most commonly, it is used with various configurations of fire department connections for fire sprinkler systems, by-pass connections, gravity pressure tank and, pump discharge in connec- tionsfrom public water supplies to automatic sprinkler systems, etc. As an alternative to using an alarm check valve with a wet sprinkler system, an RCV Swing Check Valve may be used in a "Shotgun" arrangement whereby the valve is trimmed in a similar manner but utilizes an electric water flow switch and alarm bell instead of a water motor gong for fire notification. The body of the Globe RCV Swing Check Valve is constructed of high tensile strength cast iron having considerable ductility to reduce damage infield handling. It meets the ASTM A126 Class B rating. The RCV clapper assembly is made of stainless steel and has an E.P.D.M. rubber facing. The RCV incorporates a special stainless steel spring assembly which allows its use in the down- ward flow direction. It effectively provides a leak tight seal against back pressures greater than one (1) psi. APPROVALS . cULus Listed . FM Approved NYC-DOB MEA 305-05-E OPLIONAI FOR INSTALL TECHNICAL DATA • Water Working Pressure Rating - 300 psi (20.7 Bars) • Factory tested hydrostatically to 600 PSt (41.4 Bars) • Equivalent feet of pipe: 2" Valve = 7.2 feet, 2 1/2" Valve = 7.2 feet, 3" Valve = 7.2 feet, 4" Valve - 9.9 fee' 6" Valve = 16.1 feet MODEL RCV SWING CHECK VALVE PHYSICAL DIMENSIONS SIZE A C E F G H I J K L WEIGHT (Ibs.) no trim 2 ~ 4 3a,S2= 4-#12- 6312 414 4--3K2- 214 2~l2= 43/4- 4.6 212" a-414-' 4~ 4 ~ ~ 414 a-3J2- 212= 2~F4= f~- 8 66AAM 4~J4= 4-412 4 ~ ~ 4/4 312 ~'i-312 2-314 6-312 S 2 4--314= 6= 4-412" i?~ X314 314 .1'-' 2 3-314= 6.3/4= 42 4" 2" 6 1/4" 4" 6 1f2" 8 112" 1/4" 2 1/2" 3 12" 4 114" 7 112" 17.5 6" 2" 8" 5" 8" 10 12" 1 /4" 3 1 /4" 4 114" 5 112" 10" 40.5 3b6ARM 2= 8'- b'= ii:: 39-3J2= 4/4 3~J4- 414= 5-42= 3A= 4&6 4077AIRPARKDRIVE, STANDISH,MICHIGAN 48658 989-846.4583 • FAX 989-846-9231 JANUARY 2010 BULLETIN RCV REV. #2 J-10 SWING CHECK VALVE - ~ ~ , ~ '~ ", , ~ , 4 ", 6 ", MODEL RCV-STANDARD 8t; ~~SHOTGUN ~~ GROOVEIGROOVE 9 ITE SC " 2 ~~'' P!N " " 6" PM M DE RIPTION MATERIAL 2 PM 65mm PM 3 4 PM 150mm 1 Hinge Pin S1aiNess Steel 321521 321528 321535 321541 321549 2 Torsion Spring StaiNess Steel 321523 321531 321531 321545 321554 3 Machined Body Castlron 321501 321503 321505 321507 321509 (DIN) (321503-D) (321509-D) 4 1 f2" NPT Plug Cast Iron 311003 311003 311003 311003 311003 5 Seat Ring Brass 321522 321530 321537 321543 321551 6 Locknut Stainless Steel 321556 321556 321556 321556 321556 7 Nameplate Aluminum 321558 321558 321558 321558 321558 8 Clapper STaiNess Steel 321515 321527 321534 321540 321548 9 Clapper Facing Disc EPDM 321516 321529 321536 321542 321550 10 Sealing Washer Hard Fiber 321518 321518 321518 321518 321518 11 Disc Retainer Stainless Steel 321517 321517 321517 321544 321544 12 Hex Head Bott StaiNess Steel 321519 321519 321555 321555 321559 ~~SHOTGUN~~ TRIM ARRANGEMENT SIZE A 6 C 2" 10" 8 3/4" 2 1/4" 2 1 /2" 11 " 9 1 /4" 2 1 /4" 65mm 11" 9 1/4" 2 114" 3" 12" 9 1/2" 2 112" 4" 13 1/2" 10" 3 1!4" 6" 14 1/4" 10 3/4" 4" 150mm 14 1/4" 10 3/4" 4" W f~ ~ s ~~, ~ 41~ 8 5 6 ~~- - -..e.. ~_ W FRONT VIEW ITEM DESCRIPTION 2" (DIN 50) 2'/~' (76mm Groove) 3" (DIN 80) 4" (DIN 1D0) 6" (165m5m Groove) Qn' 1 RCV 321526 321533 321533-D 321539 321547 321557 321557-D 1 2 Angle Vake 311614 (1") 311615 (1 114") 311615 (1 1l4") 311615 (1 1!4") 311617 (2") 311617 (2") 311617 (2") 1 3 Cbse Nipple 310500 (1") 310600 (1 114") 310600 (1 114") 310600 (1 114") 310800 (2") 310800 (2") 310800 (2") 1 4 1l4" YlFdter Gauge 300119 300119 300119 300119 300119 300119 300119 2 5 114" 3 V1Fay Vahe 311683 311683 311683 311683 311683 311683 311683 2 6 1!4" PNx,1 311001 311001 311001 311001 311001 311001 311001 2 7 114" Nipple 311101 (1 112") 311102 (2") 311102 (2") 310102 (2") 310103 (2 1!2") 310103 (2 1!2") 310103 (2 112") 1 8 1l4" x 5112" Nipple 310109 310109 310109 310109 310109 310109 310109 1 ORDERING INFORMATION SPECIFY • Quantity • Model Number • Standard or Shotgun style. iw ...... .,.. FIRE SPRINKLER tORPORATIO~! GLOBE' PRODUCT WARRANTY Globe agrees to repair or replace any of its own manufactured products found to be defective in material or workmanship for a period of one year from date of shipment. For specific details of our warranty please refer to Price List Terms and Conditions of Sale (Our Price List). 4077AIRPARKDRIVE, STANDISH,MICHIGAN 48658 989~46~583 FAX 989-846-9231 JANUARY 2010 PRINTEDU.S.A. BULLETIN RCV REV. #2 TOP VIEW CROSS SECTION ~11"eLCjG~ ~l1°Tr dry 1/aly~ SERIES 768 The patent-pending Victaulic Series 768 FireLock NXT Dry Valve is a low differential, latched clapper valve that uses a unique direct acting diaphragm to separate system water supplies from dry-pipe sprinkler systems. see page 12 for European trim FEATURES JOB/OWNER 'ATENT PENDING The low differential, unique latch and actuator design of the valve allows the valve to be reset without opening the valve. The low differential design is not subject to water columns. The valve allows the water to operate a water motor alarm and/or electric pressure alarms, which continue until the flow of water stops. With the optional accelerator, the valve can be configured to respond faster for use in larger systems, or where faster response times are required. The valve is rated to 300 psi/2065kPa water working pressure and is factory tested hydrostatically to 600 psi/4135 kPa for sizes 1'/z - 8'/40 - 200 mm. VdS trim configurations are approved to 16 BAR (see page 12). Required air pressure for all trim variations is 13 psi/90kPa. The Series 768 is available grooved x grooved. Standard grooved dimensions conform to ANSI/ AWWA C606. The Victaulic Series 768 FireLock NXT Dry Valve is made of high-strength, low-weight ductile iron, and it offers easy access to all internal parts. All internal parts are replaceable. Maintenance and service can be performed without removing the valve from its installed position. The rubber clapper seal is replaced easily without removing the clapper from the valve. The valve is painted inside and out to increase corrosion resistance. The body is tapped for main drain and all available trim configurations. Installation Options The Victaulic Series 768 FireLock NXT Dry Valve is available bare, or in the following configurations: Pre-trimmed The pre-trimmed valve comes completely assembled with all necessary trim components. Vic-Quick Riser The Vic-Quick Riser comes completely pre-trimmed and includes a shut off valve (uses a Series 705W FireLock Butterfly valve -request publication 10.18; for 1'iz and 2'/40 and 50mm sizes, the Vic-Quick Riser comes with a Series 728 Ball Valve -request publication 10.17) for system shut off, pre-set pressure switches, and a drain kit for ease of installation. For complete Vic-Quick Riser information request publication 30.20. Series 745 FireLock Fire-Pac (Available in North America only) The Fire-Pac is a completely pre-assembled fire protection valve that provides maximum service in a minimal enclosed space. The unit includes a water supply shutoff valve, the sprinkler system fire protection valve, alarm line pressure switches, air supervisory pressure switches, supervisory pump switches, and digital pressure gauges that are easily viewed through a window in the cabinet door. For complete Fire-Pac information request publication 30.23. Optional accessories ship separately. CONTRACTOR g U~ ~ FM LPCB ~ «* vds ~ ~ ax3z ~~ MEA:248-98-E CSFM:7770-D531.117 ENGINEER System No. Submitted By Spec Sect Para Location Date Approved Exaggerated fordarity Note: Valve is shown in the "set" position FIRE PRaTECTION PRODUCTS -DEVICES F~r~~.®M I~ii~TM Dry Vale SERIES 768 DIMENSIONS r~ I I I I I I C3 x r" l I I F--~ ~~~ Imo--- H THE 41NCHl114.3 MM UL LISTED, FM APPROVED CONFIGURATION IS SHOWN BELOW I K - 2748.3 - 60.3 MM CONFIGURATIONS CONTAIN /6'119 MM DRAIN VALVES. 2Ye - 3'/73.0 - 88.9MM CONFIGURATIONS CONTAIN 1 V.'!31 MM DRAIN VALVES. 4 - 8'1114.3 - 219.1 MM CONFIGURATIONS CONTAIN 2'/SOMM DRAIN VALVES. I F--~ G ~-rr~ rr - ~~ ] I I~ j I ~I II u_, 1 -~- Full Ooe 30.80 .. .. NOTES: The 'A' dimension coupling is not shown in order to clarify dimensional callouts. Components shown as dotted lines denote optional equipment. "Measurements denoted with an asterisk take optional equipment into account. Optional drain connection kit is shown for reference and takeout dimensions. FIRE F~ROTECTtQN PRt~t343~T5 ~~- D°c~luF`~ SERIES 768 30.80 PERFORMANCE Hydraulic Friction Loss The chart below expresses the flaw of water at 65°F/18°C through a full open valve. 6.0 5.0 4.0 3.0 2.0 a 1 G 1.0 OC 0.9 p 00.8 ~ 0.6 ~ 0.5 y 0.4 W a 0.3 0.2 Frictional Resistance The chart below expresses the frictional resistance of Victaulic Series 768 FireLock NXT Dry Valve in equivalent feet of straight pipe. 0.1 10 20 30 40 60 80 100 200 300 400 600 1,000 2,000 4,000 6,000 10,000 20,000 800 3,000 8,000 FLOW RATE -GPM FIRE PROTECTION PRODUCTS -DEVICES Fir~Lock ~CT~~ Dry V~Ive SERIES 768 30.80 C~ VALUES Cv values for flow of water at +60°F/+16°C through a fully open valve are shown in the table below. Formulas for C~ values: OPERATION The Series 768 Dry Valve contains a clapper, which has a replaceable rubber seal. The clapper makes contact with the valve's seat ring, which has access holes leading into an intermediate chamber in the valve. The diaphragm contacts the latch, and the latch holds the clapper closed. In the closed position, the valve diaphragm is maintained in the extended position by the water supply pressure from upstream of the water supply control valve. The diaphragm Latch holds the clapper in the closed position. The Series 776 Low Pressure Actuator (LPA) maintains the water, and the system's air pressure controls the LPA. Required air pressure is 13 psi/90kPa. The design of the 776 actuator does not require the traditional air cushion of 10 - 20 psi/69 - 138kPa. Excess air pressure above 13 psi/90 kPa will cause a delay in valve operation. Once the system's air pressure reduces to the trip point, the LPA opens and allows the water supply pressure in the diaphragm to release (i.e. an open sprinkler). This release allows the latch to move to its open position, permitting the clapper to pivot freely, thus allowing water into the system. Water enters the intermediate chamber of the valve through the holes in the seat ring. The water flows from the intermediate chamber to the alarm line, which activates the system's alarms. The alarms continue to sound until the flow of water stops. When the flow of water stops, the spring-assisted valve clapper returns to the closed position. The valve acts as an alarm check valve until the system is back in service as a dry system, according to the proper procedure. 4P = Q' Where: ~ e Q =Flow (GPM) OP =Pressure Drop (psi) Q = C x DP C„ =Flow Coefficient FIRE PROTECTION PROt?UCTS - CEVICES ~treLO~>~ ~~T>~ Dry Valve SERIES 768 30.80 MATERIAL SPECIFICATIONS Body: Ductile iron conforming to ASTM A-536, grade 65-45-12. Ductile iron conforming to ASTM A-395, grade 65-45-15, is available upon special request. Clapper: Aluminum bronze UNS-C95500 Latch: Aluminum bronze UNS-C95500 Shaft: Stainless 17-4 Clapper Seal: Peroxide cured EPDM, ASTM D2000 Bushings/Seat 0-rings: Nitrite Springs: Stainless Steel (300 Series) Diaphragm: Peroxide cured EPDM with fabric reinforcement Bill of Materials 1 Valve Body 12 Cover Plate 2 Clapper 13 Cover Plate Gasket 3 Clapper Seal 14 Cover Plate Bolts' 4 Seal Ring 15 Latch 5 Seal Washer 16 Latch Spring 6 Seal Retaining Ring 17 Latch Spring Bushing and 0-ring (Qty. 2) 7 Seal Assembly Bolt 18 Diaphragm 8 Bolt Seal 19 Diaphragm Cover 9 Clapper Spring 20 Diaphragm Cover Cap Screws (Qty. 8) 10 Clapper Shaft 21 Latch Shaft Exaggerated for clarity * NOTE: The 1'fi-inch/48.3-mm and 2-inch/60.3-mm valve sizes contain washers under the heads of the cover plate bolts. FIRE PROTECTI{}N PRODUCTS -DEVICES F~i ir~~1s~ 1 i~~TM Dry Valve SERIES 768 TRIM PACKAGE DETAILS Trim Packages: NOTE: See page 11 for details of trim and page 12 for details of European trim. 1 Galvanized components 30.80 2 Series 776 Low-Pressure Actuator -The Series 776 Low-Pressure Actuator is pneumatically actuated and requires only 13 psi/90kPa minimum air pressure, regardless of the system supply pressure. This actuator allows the system to operate with a low air or gas pressure of 7 psi/48kPa. Request submittal 30.65. 3 All Required Pipe and Fittings 4 All Standard Trim Accessories 5 All Required Gauges Optional Trim Package: 1 Black Trim for Foam Systems - If the valve is intended for use in a foam system, black trim must be ordered, per NFPA requirements. Specify this requirement on the order. Optional Accessories: • Series 746-I_PA Dry Accelerator -The Series 746-LPA Dry Accelerator is required when the Series 768 Dry Valve is installed in large systems to improve response time. Request submittal 30.64. • Series 760 Water Motor Alarm -The Series 760 Water Motor Alarm is a mechanical device that sounds when a sustained flaw of water occurs (such as with an open sprinkler). Request submittal 30.32. • Series 758 Supplemental Alarm Device -The Series 756 Supplemental Alarm Device is designed to provide a continuous alarm for systems equipped with a mechanical device. Request submittal 30.33. • Series 75D Water Column Kit -The Series 75D Water Column Kit is designed to minimize residual water in the riser from collecting above the clapper. Request submittal 30.34. • Alarm Pressure Switch -Alarm Pressure Switches are designed to activate electrical alarms and control panels when a sustained flow of water occurs (such as with an open sprinkler). • Air Supervisory Pressure Switch -Air Pressure Supervisory Switches are used to monitor low system air pressure and are factory pre-set. • Air Supply System -The air supply system contains all components for establishing and main- taining air in the system. The compressor, low-pressure alarms, ball valves, and required trim are included in the air supply system. • Air Compressor (See page 8 for more on the Victaulic Series 7C7 Compressor Package) • Air Maintenance Trim Assembly • Alarm Panels • Drain Connection Kit . .. FIRE PROTECTION PRODUCTS - OEV)CES Fir~~,ock NXTT'" ~~ ~!~ I~~ SERIES 768 30.80 AIR SUPPLY REQUIREMENTS The required air pressure for Series 768 FireLock NXT Dry Valves is 13 psi/90kPa minimum, regard- less of the system supply water pressure. Air pressures should be kept below 18 psi/124kPa, unless a Series 746-LPA Dry Accelerator is installed. Systems with air pressures higher than 18 psi/124kPa may require the addition of a Series 746-LPA Dry Accelerator. If multiple Series 768 FireLock NXT Dry Valves are installed with a common air supply, isolate the systems with aspring-loaded, soft-seated ball check valve to ensure air integrity for each system. Good practice is to include a ball valve for isolation and service of each individual system. The engineer/system designer is responsible for sizing the compressor so that the entire system is charged to the required air pressure within 30 minutes. DO NOT oversize the compressor to provide more airflow. An oversized compressor will slow down or possibly prevent valve operation. If the compressor fills the system too fast, it may be necessary to restrict the air supply. Restricting the air supply will ensure that air being exhausted from an open sprinkler or manual release valve is not replaced by the air supply system as fast as it is being exhausted. COMPRESSOR S121NG iz to V 9 W Q K O 6 J LL K ~ 4 a 20 psi/138 kPa ----- 13 psi/90 kPa z ~~- i~ ~~ -~ o ~ w 0 8 0 I ~ ~' 0 0 0 No SYSTEM CAPACITY (in gallons) 0 0 ~ ' i 0 8 COMPRESSOR REQUIREMENTS FIRE PROTECTIQN PRODUCTS -DEVICES FireLock NXT'" ~~ ~l~~~e SERIES 768 30.80 BASE OR RISER-MOUNTED For base or riser-mounted compressors, the recommended air pressure of 13 psi/90kPa is the COMPRESSORS "on" or "low" pressure setting for the compressor. The "off" or "high" pressure setting should be 18psi/124kPa. Victaulic offers the Series 7C7 Compressor package for FireLock NXT devices which is riser-mounted and pre-set for the FireLock NXT pressure requirements as stated above. For information on the Series 7C7 package, consult publication 30.22. The Series 7C7 Compressor package is only available in North America. When a base or riser-mounted air compressor supplies air to a Series 768 FireLock NXT Dry Valve, it is not necessary to install the Victaulic Series 757 Regulated Air Maintenance Trim Assembly (AMTA). In this case, the airline of the compressor connects to the trim at the fitting where the Series 757 Regulated AMTA is normally installed (refer to the applicable trim drawing). If the compres- sor is not equipped with a pressure switch, the Series 757P Air Maintenance Trim Assembly with Pressure Switch should be installed. for information on the Series 757 Regulated Air Maintenance Trim Assembly, see publication 30.35. For information on the Series 757P Air Maintenance Trim Assembly, see publication 30.36. SHOP AIR OR TANK-MOUNTED In the event a compressor becomes inoperative, a properly sized tank-mounted air compressor AIR COMPRESSORS provides the the greatest protection for systems. When shop air or stank-mounted air compressor is used, the Series 757 Regulated AMTA must be installed. The Series 757 Regulated AMTA provides proper air regulation from the air reservoir to the sprinkler system. for tank-mounted air compressors, the recommended air pressure of 13 psi/90kPa should tie used as the set point far the air regulator. The "on" pressure of the compressor should be at least 5psi/ 34 kPa above the set point of the air regulator. FIRE PROTECTION PRODUCTS -DEVICES li"~.'..OC T~ ~ i~~ SERIES 768 SERIES 757 REGULATED AIR MAINTENANCE TRIM ASSEMBLY SERIES 757P AIR MAINTENANCE TRIM ASSEMBLY WITH PRESSURE SWITCH A NOTICE • Victaulic recommends a maximum of two Series 768 FireLock NXT Dry Valves per Series 757 Regulated AMTA Bill of Materials 1 '/a"/3.2mm Restrictor 2 Slow Fill Ball Valve (Normally Open) 3 Air Regulator 4 Strainer (100 Mesh) 5 Spring-Loaded, Soft-Seated Ball Check Valve 6 Fast Fill Ball Valve (Normally Closed) 30.80 aced for clarity A NOTICE • Victaulic recommends a maximum of two Series 768 FireLock NXT Dry Valves per Series 757P AMTA with Pressure Switch Bill of Materials Item Qty. Description 1 1 Restrictor ('/z-inch NPT) 2 1 Strainer ('/z-inch NPT) 3 1 Swing Check ('/z-inch NPT) 4 1 Slow-Fill Ball Valve (Normally Open) 5 1 Spring-Loaded, Soft-Seated Check Valve 6 1 Pressure Switch 7 2 Compression Fitting, Straight ('/4-inch NPT x'/a-inch Tube) 8 1 Copper Tubing ('/a-inch OD) 9 11 Close Nipple ('/z-inch NPTx 1.13) 10 1 Nipple ('/z-inch NPT x 4.00) 11 1 90° Female Elbow ('/z-inch NPT) 12 4 Female Tee ('/z-inch NPT) 13 3 Union ('/z-inch NPT) 14 2 Reducing Bushing ('/z-inch NPTx'/a-inch NPT) 15 1 Fast-Fill Ball Valve (Normally Closed) 16 1 Pressure Switch Isolation Ball Valve (Normally Open - Lockable) Exaggerored for cloriiy FIRE PR®TECTION PRf1DUCTS -DEVICES FireLock NXTT"' Dry Valve SERIES 768 3o.so COMPRESSOR REQUIREMENTS Compressor Requirements and Settings for Series 768 FireLock NXT Dry Valves Installed with Series 746-LPA Dry Accelerators Set the air regulator of the Series 757 Regulated AMTA to 13 psi/90kPa. THE SERIES 757P AIR MAINTENANCE TRIM ASSEMBLY WITH PRESSURE SWITCH MUST NOT BE USED ON A SERIES 768 FIRELOCK NXT DRY VALVE INSTALLED WITH A SERIES 746-LPA DRY ACCELERATOR. When a Series 768 FireLock NXT Dry Valve is installed with a Series 746-LPA Dry Accelerator, the Series 757 Regulated AMTA must be used. NOTE: The use of an air regulator with a base or riser- mounted compressor could cause short cycling, resulting in premature wear of the compressor. In the event a compressor becomes inoperative, a properly sized tank-mounted air compressor provides the greatest protection for systems installed with a Series 746-LPA Dry Accelerator. In this situation, air can be supplied continuously to the sprinkler system for an extended time period. NOTE: The Series 757 Regulated AMTA must be used with stank-mounted air compressor or shop air system that continually supplies air to a Series 768 FireLock NXT Dry Valve installed with a Series 746-LPA Dry Accelerator. The air regulator of the Series 757 Regulated AMTA is a relief-type design. Any pressure in the sys- tem that is above the set point of the air regulator will be released. Therefore, charging the air regula- tor above the set point could cause premature operation of a valve installed with a Series 746-LPA Dry Accelerator. NOTE: The series 746-LPA should not be used above 30psi. If higher pressures are required, the series 746 should be used. Settings for Air Supervisory Pressure Switches and Alarm Pressure Switches Air supervisory pressure switches are required for dry systems and must be set according to the following instructions. NOTE: Switches for Vic-Quick Risers are pre-set at the factory. Wire the air supervisory pressure switches to activate slow-pressure alarm signal. NOTE: In addition, the local authority having jurisdiction may require ahigh-pressure alarm. Contact the local authority having jurisdiction for this requirement. Set the air supervisory pressure switches to activate at 2 - 4 psi/14 - 28kPa below the minimum air pressure required, but not lower than lOpsi/69kPa. Wire the alarm pressure switch to activate a water flow alarm. Set the alarm pressure switch to activate on a pressure rise of 4 - 8 psi/28 - 55 kPa. Remote System Test Valve Requirements The remote system test valve (inspector's test connection) should contain a UL Listed and/or FM Approved valve (normally closed), which can be opened to simulate the operation of a sprinkler. The remote system test valve (inspector's test connection) should be located at the most hydraulically demanding location in the release system. NOTE: Multiple restrictions on the remote system test valve (inspector's test connection) may slow the air decay rate and cause the system to respond slower than required. The remote system test valve (inspector's test connection) should terminate with an orifice equal to the smallest orifice in the releasing system. The remote system test valve (inspector's test connection) is used to ensure that water reaches the most remote part of the system within 60 seconds. FIRE PRC?TECTION PRODUCTS -DEVICES FireLock ~JXTT"' ~lve SERIES 768 30.80 EXPLODED VIEW DRAWING - TRIM COMPONENTS (~®- 0 TRIM) Series 768 FireLock NXT Dry Valve (Optional Accessories Also Shown) Bill of Materials 1 Series 768 Fire Lock NXT Dry Valve 2 FireLock Rigid Coupling (Optional/ Sold Separately -Comes Standard when VQR Assembly ~s Ordered) 3 Water Supply Main Control Valve (Optional/Sold Separately -Comes Standard when VQR Assembly is Ordered) 4 Drain Swing Check Valve 5 Drip Cup with Cap 6 Alarm Pressure Switch (Optional/Sold Separately -Comes Standard when VQR Assembly is Ordered) 7 Series 729 Drip Check Valve 8 Diaphragm-Charge-Line Ball Valve (Normally OpeN 9 3-in-1 Strainer/Check/Restrictor Assembly 10 Series 760 Water Motor Alarm (OptionaVSold Separately) 11 Alarm Test Ball Valve 12 Diaphragm-Charge-Line Pressure Gauge (0.300 psi/0-2068kPa/0-20.7 Bar 13 Series 749 Auto Drain 14 Series 746-LPA Dry Accelerator Assembly (OptionallSold Separately) 15 Series 776 low-Pressure Actuator 16 Air Manifold 17 Air Supervisory Pressure Switch (OptionaUSold Separately -Comes Standard when VQR Assembly is Orderer 18 System Pressure Gauge (0-80 psi/0-552kPa/0-5.5 Bar with Retarr 19 Water Supply Main Drain Valve - Flow Test 20 Water Supply Pressure Gauge (0-3DOpsi/0-2068kPa10-20.7 Bar) 21 Drain Connection Kit (Optional/Sold Separately -Comes Standard when VOR Assembly is Ordered) 22 Gauge Valve 23 System Main grain Valve 24 Series 748 Ball Check Valve ----i i i i i I I i i i ~, i i i i 1 i i i i i ~ i i Exaggerated for clarity From Water SuppFF Optional devices include the Series 75D Water Column Device Kit and the Series 75B Supplemental Alarm Kit. NOTE 1: Connection point for the Series 75D Water Column Device Kit. Far installation of the Series 756 Supplemental Alarm Device, refer to the instructions supplied with the product. .. .. FIRE PROTECTION PRODUCT5 -DEVICES FIreLOCI~ ~~TM Dry Valve SERIES 768 EXPLODED VIEW DRAWING - TRIM COMPONENTS ~y+~ (EUROPEAN TRIM aOulc FN LPCB « vas {.~j ) Series 768 FireLock NXT Dry Valve (Optional Accessories Also Shown) Bill of Materials 1 Series 768 FireLock NXT Dry Valve 2 FireLock Rigid Coupling (Optional/Sold Separately -Comes Standard when VQR Assembly is Ordered) 3 Water Supply Main Control Valve (Optional/ Sold Separately -Comes Standard when VQR Assembly is Ordered) 4 Drain Swing Check Valve 5 Drip Cup with Cap 6 Alarm Pressure Switch (Optional/Sold Separately -Comes Standard when VQR Assembly is Ordered) 7 Series 729 Drip Check Valve 8 Diaphragm-Charge-Line Ball Valve (Normally Open) 9 3-in-1 Strainer/Check/Restrictor Assembly 10 Series 760 Water Motor Alarm (OptionaUSold Separately) 11 Alarm Test Ball Valve 12 Diaphragm-Charge-Line Pressure Gauge (0 - 300 psi/0 - 2068 kPa/0 - 20.7 Bar; 13 Series 749 Auto Drain 14 Series 746-LPA Dry Accelerator Assembly (Optional/Sold Separately) 15 Series 776 Low•Pressure Actuator 16 Air Manifold 17 Air Supervisory Pressure Switch (Optional/sold Separately -Comes Standard when VQR Assembly is Ordered) 18 System Pressure Gauge (0 - 80 psi/0 - 552 kPa/0 - 5.5 Bar with Retarc 19 Water Supply Main Drain Valve - Flow Test 20 Water Supply Pressure Gauge (0 - 300 psi/0 - 2068 kPa/0 - 20.7 Bar) 21 Drain Connection Kit (Optional/Sold Separately -Comes Standard when VQR Assembly is Ordered) 22 Gauge Valve 23 System Main Drain Valve 24 Series 748 Bail Check Valve 25 Water Motor Alarm Shutoff Valve (Normally Open)' 'Item 25, water rnota alarm shutoff valve, can oe dosed to prevent water flan fbw nt mto the Series 760 Water Motor aWrm tludrg coMrtbm that are not awrabM to the almm to sound (i e. dunng a tnp test/. i i I I I I I4 I I I I I I Fram Water Supply 30.80 Ir SERIES 768 WARNING • This product must be installed by an experienced, trained installer, in accordance with the instructions provided with each valve. These instructions contain important information. ~ Failure to follow these instructions may result in serious personal injury, property damage, or valve leakage. If you need additional copies of this product literature or the valve installation instructions, or if you have any questions about the safe installation and use of this device, contact Victaulic Company, P.O. Box 31, Easton, PA 18044-0031 USA, Telephone: 001-610-559-3300. WARRANTY Refer to the Warranty section of the current Price List or contact Victaulic for details. NOTE This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. III IIIIIIIII~IIIIIIII II IIIIII II IIIIIIIIIII WCAS-7BCHWM For complete contact information, visit www.victaulic.com ~~l~v Fire & Building Products Technical Services: Tel: (800) 381-9312 /Fax: (800} 791-5500 ~~ Model 513 i(7 3~ Riser Manifold ~-1/2 thru 6 Inch (DN4o thru D1V 150 6" For 1VFPA 13 Sprinkler Systems General Description The Figure 513 (13) Riser Manifolds described in this technical data sheet provide the necessary waterflow alarm, pressure gauge, alarm test ori- fice, drain, and sight glass equipment in a single assembly for use in NFPA 13 sprinkler systems as follows: NFPA 13* • 1-1/2 Inch (DN40) Mate Thread x Female Thread • 1-1/2 thru 6 Inch (DN40 thru DN150) Groove x Groove 'Although the Riser Manifold described in this data sheet is intended for NFPA 13 sprinkler systems, it may be used for NFPA 13D or 13R residential sprinkler systems, where a test orifice of S.6K (80K) is accept- able. The variety of sizes and grooved end connections allow cost effective and easy transition to check valves, control valves, and system piping. The Riser Manifolds may be installed in either the horizontal (flow switch on top) or verti- cal (flow going up) for both single sprinkler rises and floor control in high rises. WARNING The Riser Manifolds described herein must be installed and maintained in cornplfance with this document, as well as with the applicable standards of the National Flre Protection Asso- ciation, in addition to the standards of any other authorities having jurisdic- tion. Failure to do so may Impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Page 1 of 6 Technical Data Approvals The Figure 513 (13) Riser Manifolds with a cover tamper switch for the wa- terflow alarm switch are UL Listed, ULC Listed, and FM Approved. The Figure 513 (13} Riser Manifolds without a cover tamper switch for the waterflow alarm switch are UL Listed and FM Approved. Maximum Working Pressure 175 psi (12,1 bar) Test Orifice 5.6K (80K) Assembly The manifold body of the Figure 513 is ductile iron, whereas the manifold body of the Figure 13 is cast iron. The two assemblies are completely inter- changeable in function, application, and end-to-end laying length. Finish Red painted. Installation The Riser Manifolds may be installed in either the horizontal (flow switch on top) or vertical (flow going up). The inlet of the Riser. Manifold may be di- rectly connected to a shut-off control valve. NOTES Where applicable pipe thread sealant is to be applied sparingly. Use of a non-hardening pipe thread sealant is recommended. Never remove any piping component nor correct or modify any piping defi- ciencies without first depressurizing and draining the system. Step 1. Install the manifold body with the flow arrow pointing in the down- stream position using threaded con- APRIL, 2006 nections and/or listed mechanical grooved connections, as applicable Step 2. Connect the drain line, and then close the drain valve. Step 3. Refer to Figure 3 for wiring guidance. All wiring must be per- formed in accordance with the Author- ity Having Jurisdiction and/or the Na- tional Electrical Code. Step 4. Refer to Figure 4 for optional relief valve. Step 5. Place the system in service by filling the system with water. When fill- ing the system, partially open the con- trol valve to slowly fill the system. Fill- ing the system slowly will help avoid damaging the waterflow alarm switch. After the system is fully pressurized, completely open the control valve. Step ti. Secure all supply valves open. TFP962 _~ NOTES: 1. Approximate weight, 11.2 Itu. (5,1 kg). 2. ULC Usted Manllolds ere equipped with Cover Tamper Switches Installed internal to the WateAlowAlarm Switches. 3. CH: Common Hardware 3 ~~ Page 2 of 6 TFP962 DESCRIPTION OTY. P/N 1-112' Manifold Body, Male x Female NPT.... . 1 WA Groove x Groove ...... . 1 WA Waterflow Alarm Switch: VSR-SF with Paddle, UUFM .............. . 1 971-096.00 VSR-SF with Paddle and Cover Tamper Switch, ULC/FM ............. . 1 976-519.02 300 psl/2000 kPe Water Pressure Gauge . . 1 2341 w ~o f r r ~ I ~ z 314' 1' 5-3118" 3-1/2' (19,1 mm) NPT ~(131,emm) (88,9 mm) 8-1/B' (155,8 mm) 12.5/8' (320,7 mm) I I 10' (254,0 mm) 14-i/4' Male x Female NPT, 11.1/B' (282,fi mm) Inspectors Test l Male x Male NPT i3 Drain Valve Drain Valve Manllolds (Normally set (Narmall Y to 'Drain') Closed) 1 / .. / _~ TFP862 Page 3 of 6 N0. DESCRIPTION QTY. P/N 1 2' Manifold Body, Groove x Groove ...... . i N/A 2 Watedlow Alarm Switch: VSC with Paddle, UUFM .............. . 1 976.357-01 VSC with Paddle and Cover Temper Switch, ULCIFM ............. . 1 976-520-01 3 30D psi12000 kPa Water Pressure Gauge . . 1 2341 3.312 NO. DESCRIPTION OTY. PIN 1 2.112' Manifold Body, Groove x Groove ...... . 1 NIA 2 WatedlowAlarm Switch: VSC w0h Paddle, UVFM .. ............ . 1 976.357.02 VSC with Paddle and Cover Tamper Switch, ULC/FM ............. . 1 976-520.02 3 300 psi/2000 kPa Water Pressure Gauge . . 1 2341 N0. DESCRIPTION OTY. PM 1 3' Manilold Body, Groove x Groove..... .. 1 N/A 2 Watedlow Alarm Switch: VSC with Paddle, UUFM ..... . ....... .. 1 976.357.03 VSC with Paddle and Cover Tamper Switch, ULCIFM ............ .. 1 976.520.03 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 NOTES: 1. ULC Listed Manifolds are equipped with Cover Tamper Switches installed internal to the Watedlow Alarm Switches. 2. CH: Common Hardware NO. DESCRIPTION ON. PJN 1 4' Manifold Body, Groove x Groove ..... .. 1 NIA 2 WatedlowAlarm Switch: VSC with Paddle, UUFM ............. .. 1 976.357.04 VSC with Paddle and Cover Tamper Switch, ULC/FM ............ .. t 976.520-04 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 6 INCH (DN150) MANIFOLD NO. DESCRIPTION QTY. P/N 1 6' Manifold Bady, Groove x Groove ..... .. 1 NIA 2 WatedlowAlarm Switch: VSC with Peddle, UUFM ............. .. 1 97fi-357.05 VSC with Paddle and Cover Tamper Switch, ULC/FM ............ .. 1 976-520.05 3 300 psi/2000 kPa Water Pressure Gauge .. 1 2341 Manifold Nominal Installation Dimension s in Inches and mm Drain Size Weight Size A B C D E F G H lbs. (kg} 2 Inch 16.3/4 13 9/16 5.3/8 6-3/B 13-i/16 3.1/2 1' NPT 13.5 DN50 425,5 330,2 14,3 136,5) 161,9) 331,8) 66,9) 6,1) 2-i12 Inch 17-3116 13 1 5-3/4 6.718 13.314 3.112 1.1/4' NPT 16.6 DN65 438,fi 330,2 25,4 146,1 174,6 349,3 88,9 7,6) 31neh 1T-3/16 13 1 6 7.118 14-1/4 3-112 1-1/4" NPT 18.7 ON80 436,6 330,2 25,4 152,4 181,0 362,0 88,9 8,5) 41nch 20.1/2 13 4-5/16 7.9/16 9-1/16 16-5/8 4-112 2' NPT 32.E NiDO 520,7 330,2 109,5 192,1 230,2 422,3 114,3 14Ei1 6 Inch 20.1/2 13 4.5!16 8.112 10 18.112 6-5/8 2" NPT 41.6 DN150 521),7 330,2 109,5 2159 254,0 469,9 168,3 18,9 ~JI FIGURE 2 J I 2 thru 6 INCH (DN50 thru DN150) RISER MANIFOLD ASSEMBLY AND DIMENSIONS Page 4 of 6 _~ UNINSULATED LOOPED SECTION CLAMPIN PLATE TERMINA TFP962 SWITCH TERMINAL CONNECTIONS CLAMPING SEVERED CAUTION: PLATE STRIPPED An uninsuleled section of a TERMINAL ENDS single conductor is not SEPARATE permitted W be looped around ~~ CONDUCTORS the terminal and serve as two separate connections. The wire must t>e severed to serve INCO es two separate connections, thereby providing supervision of the connection in the event that the wire becomes dislodged from the terminal. OUTGOING IMPROPER CONNECTION METHOD PROPER CONNECTION METHOD WATERFLOW SWITCH TYPICAL ELECTRICA CONNECTIONS CONTACTS .......... SPDT (Form C) END OF UNE LOCAL RESISTOR CONTACT RATING .... 5A ~ 125 VAC SIGNAL 2.5A ~ 30 VDC DEVICE NC NO NC NO NO ~ ~ NC COM COM COM CONTROL POWER PANEL NO FLOW NON-SUPERVISED STYLE 8/CLASS 8 CONDITION CIRCUIT SUPERVISED CIRCUIT (SEE NOTE) I NOTE: For supervised circuits, see 'Switch Terminal Connections' above. The Waterilow Alarm Switch has two switches, one can be used to operate a cenUal station, proprietary or r©move signaling unit, while the other contact is used to operate a local audible or visual annunciator. COVER TAMPER SWITCH (ULC ASSEM6LIES ONLY) CONTACTS .......... SPDT {Form C) CONTACT RATING .... 3A ®250 VAC 5A ®125 VAC 1 mA ~ 5 VDC min. NO t~ ~ NC COM CONTACTS SHOWN WITH COVER IN PLACE F/GURE 3 WIRING GUIDANCE .J TFP962 Page 5 of 6 - -~ NO. DESCRIPTION QTY. PM NO. DESCRIPTION OTY, P/N 1'1/2" (DN40) Manifold Only: To install optional Pressure Reliel Trim on 1 316' Copper Tubing, 2 Pressure Relief Valve, a 1-1/2" (DNaO) Manifold, a 1/2' NPT outlet 2' (DN50) Manifolds ... , 1 971-124.01 175 psi, Nonadjustable .. 1 196-066.00 roust be provided by the installer on the 2-1/2' (bN65) and 3 90° Compression Fitting system gullet piping, and a connection back 3' (DN80) Manifolds .... 1 971-124-02 Fitting ................ 2 CH to the manifold drain Irim must be fabricated 4' {DN100) and 4 1" x 112" 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 Outet Provided 1 3 4 System Outlet Piping Installer Fabr[cated 2 Q ~,d bQ 3/6° Copper Tubing z .q p. 3 2" {DNSO), 2-1/2" (bN65), .d iy 3° (ON60), 4" (DN100), or 6" (DN150) Manifold 'q p' 3 ® Manifold Drain Trim 1.112" (DN40) Manifold O O FIGURE 4 OPTIONAL PRESSURE RELIEF VALVE Care and Maintenance The following inspection procedure must be performed as indicated, in ad- dition to any specific requirements of the NFPA, and any impairment must be immediately corrected. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stallingcontractor orproduct manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements andlor national codes. Riser Manifold component in the field. Only the pressure gauge, waterffow alarm switch, or relief valve can be replaced. !l any other problems are encountered the entire riser manifold must be replaced. The alarm/flow test procedure will re- sult in operation of the associated alarms. Consequently, notification must be given to the ownerand the lire department, central station, or other signal station to which the alarms are connected, and notification must be given to the building occupants. Before closing a fire protection system control valve for inspection or mainte- nance work on the lire protection sys- tem that it controls, permission to shut down the effected lire protection sys- tem must first be obtained from the proper authorities and all personnel who may be affected by this action must be notified. After placing a fire protection system in service, notify the proper authorities andadvise those responsible formoni- toring proprietary and/or central sta- tion alarms. Alarm/Flow Test Procedure Step 1. Place the test & drain Valve in the "test" position. Step 2. Fully open the drain valve. Make certain that drainage water will not cause any damage or injury. Step 3. Verify operation of associated alarms. Step 4. Close the drain valve. Step 5. Place the test & drain Valve in the "drain" position. Step 6. Verify that the residual (flow- ing) pressure indicated by the pres- sure gauge is no less that originally recorded for the system when it was first installed. Step 7. Close the drain valve. Step 8. Verify that the static (not flow- ing) pressure indicated by the pres- sure gauge is no less that originally recorded for the system when it was first installed. NOTES No attempt is to be made to repair any Page 6 of 6 Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied orrepaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts.TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. 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. 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 lull ex- tentpermitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Information Riser Manifold: Specify; Size (specify), Figure 513, (specify connection type inlet x outlet) Riser Manifold (specify -without or with) a cover tamper switch for the waterflow alarm switch, P/N (specify). NOTES Orders for Figure 513 may be filled with a Figure 13. The two assemblies are completely interchangeable in function, application, and end-to-end laying length. !f a ULC Listing is required, the Riser Manifold must be ordered with a cover tamper switch for the waterflow alarm switch. UUULC/FM Assemblies With Cover Tamper Switch 1.1/2 Inch (DN40) MT x F7 .............. P/N 4086 1-1/2lnch (DN40) MT x MT .............. PIN 4087 2 Inch (DN50) G x G ................ P!N 4090 2-1l2 Inch (DN65) G x G ................ P!N 4091 31nch (DN60) G x G ................ P/N 4092 4 Inch (DN100) G x G ................ PM 4095 6 Inch (DN150) G x G ................ P!N 4096 UUPM Assemblies Without Cover Tamper Switch 1-1/2 Inch (DN40) MT x FT .............. P/N 4055 1-1/21nch (DN40} MT x MT .............. PM 4056 2 Inch (DN50) G x G ................ P/N 4060 2-t/2 Inch (DN65} G x G ................ P/N 4061 3 Inch (DN80) G x G ................ P/N 4062 4 Inch (DN100) G x G ................ P/N 4065 8 Inch (DN150) G x G ................ P/N 4066 Optional Pressure Relief Valve: Specify: Operational Pressure Relief Valve and Trim for use with (specify size) Figure 513 or 13 Series Riser Manifold, PIN (specify). 1.1/2"or 2' ............... P/N 4063 2-1/2`or3" ............... P!N 4072 4'or6' .................. P/N 4073 Replacement Parts: Specify: (description) for use with Fig- ure 513 or 13 Riser Manifold, PM (Ref. Figure 1 or 2, as applicable). TFP962 TYCO FlRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 Fig. 4A -Pipe Clamp for Sway Bracing Size Range - 4" thru 8" pipe. For sizes smaller than 4" use TOLCO® Fig. 4. Material -Carbon Steel Function -For bracing pipe against sway and seismic disturbance. Approvals -Underwriters' Laboratories Listed in the USA (UL) and Canada (cUL) 4" thru 8". Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). Installation Instructions -The Fig. 4A is the "braced pipe" attachment component of a longitudinal, lateral or riser brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO transitional and structural attachment component(s) to form a complete bracing assembly. NFPA 13 and/or OSHPD guidelines should be followed. To Install -Place the Fig. 4A over the pipe to be braced. Attach TOLCO transitional fitting, either Fig. 980, 910 or 909, to the clamp ears. Tighten bolts and nuts; torque requirement is a minimum of 50 ft. lbs. Transitional fit- ting attachment can pivot for adjustment to proper brace angle. Finish -Plain Note -Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By -Figure number, pipe size and finish / ~ n c. Fig. 4A -Longitudinal Brace ~~ Fig. 4A -Lateral Brace A i i r~ TOLCO® brand bracing components are desgined to be compatible ONLY with other TOLCO® brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - NIBCO does J~QZ warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall ~I be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. Dimensions • Pipe Max. Horizontal Approx. Sizes A B C D Bolt Size Design Load WtJ1 d0 4 8'/z 9/16 3~s 3'1/is 1/2 2015 221 5 9~a 9/16 3'/a 4~e 1/2 2015 253 6 11~/~ 5/8 5 5~/e 1/2 2015 513 8 13~/a 3/4 6'~/~s 6~/a 1!2 2015 601 ® OFFlCElMANUFACTURINGFAClLITY • 1375 SAMPSON AVE. • CORONA. CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 Component of State of California OSHPO Approved C V( ~ R Seismic Restraints System 13 Fig. 25 -Surge Restrainer Size Range - One size fits 3/4" thru 2" pipe. Material -Pre-Galvanized Steel Function -Designed to be used in conjunction with TOLCO~ Band Hangers to restrict the upward movement of piping as it occurs during sprinkler head activation or earthquake type activity. The surge restrainer is easily and efficient- ly installed by snapping into a locking position on the band hanger. This product is intended to satisfy the requirements as indicated in the National Fire Protection Association NFPA 13, 2010 edition, 9.2.3.4.4.1 and 9.2.3.4.4.4 Can be used to restrain either steel pipe or CPVC plastic Pipe. Approvals -Underwriters' Laboratories Listed only when used with TOLCO band hangers Fig. 2, 2NFPA and 200, in the USA (UL) and Canada (cUL). Finish -Pre-Galvanized Order By -Figure number and TOLCO band hanger, size from 3/4" thru 2". Patent #5,344,108 ~ 'e f l ~l ~._ .~ "r,, "~~.. '~~ `~, ~. . ~~=-~. ,,~ ~ . i is ~'! ~~'t ,~:~' ,`,,, c ~L us usrEn OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA. CA 92879 • PH 951.737.5599 • PAX: 951.737.0330 CUSTOMER SERVICE • 600.786.5266 Fig. 65 e~-~+g:-~6 Reversible C-Type Beam Clamps 3/4" and 11/a" Throat Openings Size Range - (Fig. 65 and Fig. 66) 3/8", 1/2" and 5/8" rod Component of State of California OSHPD Approved C ~~ ~ LISTED Material -Carbon Steel with hardened cup point set screw and Seismic Restraints System jam nut Function -Recommended for hanging from steel beam where flange thickness does not exceed 3/4" (Fig. 65) or 1'/a" (Fig. 66). Features -All steel construction eliminates structural deficiencies associated with casting type beam clamps. May be used on top or bottom flange of the beam. (Beveled lip allows hanging from top flange where clearance is limited.) May be installed with the set screw in up or down position. Offset design permits unlimited rod adjustment by allowing the rod to be threaded completely through the clamp. Open design permits inspection of thread engagement. Approvals -Underwriters' Laboratories Listed in the USA (UL) and Canada (cUL). Exceeds requirements of the National Fire Protection Association (NFPA}, Pamphlet 13, 3/8" rod will support 1/2" thru 4" pipe, 1/2" rod will support 1/2" thru 8" pipe. Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development {OSHPD). For additional load. spacing and placement relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Finish - Plain Note -Available in Electro-Galvanized and HDG finish. Order By -Figure number, rod size and finish Fig. 65 Patent #4, 5 70, 885 Fig. 65 Dimensions •' Rod Size Max. Rec. Approx. A B C D E F Load Lbs.* Wt./100 3/8 1~is 3/4 1 7/16 1 610 28 1 /2 1 t/z 3/4 1 9/16 1 ~/a 1130 55 5/8 1 ~/z 3/4 1 9/16 1 ~/a 1130 55 `Max. loads for clamp with set screw in up or down position. ~~ Dimensions • Weights Rod Size Max. Rec. Approx. A B C D E F Load Lbs.* Wt./100 3{8 his ~-tfa #~ ~#& ~ 6a-9 28 ~2 ~ ~ ~ ~'T9 ~e Max. loads for clamp with set screw in up or down position. OFFICE/MANUFACTURINGFAClLITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.731.0330 ®1 CUSTOMER SERVICE • 800.786.5266 ..........,. r........... Fig. 69 -Beam Clamp Retaining Strap Size Range - 3/8" thru 7/8" rod by 4" thru 16" length.'` Material -Pre-Galvanized Steel Function - To offer more secure fastening of various types of beam clamps to beam where danger of movement might be expected. NFPA 13 requires the use of retaining straps with all beam clamps installed in earthquake areas. Satisfies requirements of NFPA 13 (2010) 9.3.7.1. Important Note -Good installation practice of a retaining strap requires that the strap be held tightly and securely to all component parts of the assembly. Therefore a locking mech- anism of some kind such as a hex nut or the beveled locking slot on the TOLCO® Fig. 69R will provide a more secure reliable installation. Approvals -Underwriters' Laboratories listed in the USA (UL) and Canada (cUL). Approved for use with any listed beam clamp. Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load. spacing and placement information relat- ing to OSHPD projects. please refer to the TOLCO Seismic Restraint Systems Guidelines. Finish -Pre-Galvanized Order By -Figure number, type, length "B" and rod size being used with beam clamp Note -Minimum return on Strap: 1 ". Dimensions Type Rod Size A Hole Size 1 3/8 7/16 Specify 1/2 9/16 Specify 2 518 11/16 Specify 3/4 13/16 Specify 3 3/8 - 7/8 Specify Specify Longer lengths are available, consult factory. Component of State of California OSHPD Approved C (~~. US IfSTEO Seismic Restraints System OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • COFONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 64 Size Range -Secures 3/8" thru 7/8" hanger rod Material -Carbon Steel Function -Secures channel to hanger rod for vertical seismic bracing. Approvals - Included in our Seismic Restraints Catalog aQOroved by the State of California Office of Statewide Health Planning and Develo ment (OSHPD). For additional load. s acing and placement information relating to OSHPD projects. please refer to the TOLCO Finish -Electro Galvanized Note -Available in HDG finish or Stainless Steel materials. Order By -Figure number Size Range -Secures 3/8" thru 7/8" rod in 1 " increments Material -Carbon Steel Maximum Temperature - 750°F Finish -Plain Note -Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By -Figure number, rod diameter, rod length and finish ~ Fig. 100 -All Thread Rod Full Length Size Range -Secures 3/8" thru 1'/i" rod in 10' lengths Material -Carbon Steel Maximum Temperature - 750°F Finish -Plain Note -Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By -Figure number, rod diameter and finish ~\ ~~I I ~ ~f Component of State of California OSHPD Approved Seismic Restraints System ; a :I i-.•i J~. ~ t. . ~~', ~~ `v FIG. 98 ` ~ ~ ' j. ~~ ,. '~ C OlY`bk~.. FIG.98B '~ Dimensions Rod Max. Rec. Load Lbs. Size For Service Temp 650°F 3/8 730 1 /2 1350 5/8 2160 3/4 3230 7/8 4480 Dimensions • Weights Max Rec. Load Lbs. Rod For Service Temps Approx. Size 650°F WtJ100 114 240 12 3/8 730 29 1 /2 1350 53 5/8 2160 84 3/4 3230 123 7/8 4480 169 1 5900 222 1 t/a 9500 360 1 ~/z 13800 510 ® OFFlCE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.731.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.766.5266 Fig. 200 - "Trimline" Adjustable Band Hanger Size Range - 1/2" thru 8" pipe Material -Carbon Steel, Mil. Galvanized to G90 specifications Function -For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features - • (1 /2" thru 2") Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut from separating with hanger. Hanger is eas- ily installed around pipe. • (2'/z" thru 8") Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. Approvals -Underwriters' Laboratories listed (1/2" thru 8") in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (3/4" thru 8"). Conforms to Federal Specifications WW-H-171 E, Type 10 and Manufacturers Standardization Society SP-69, Type 10. Maximum Temperature - 650°F Finish -Mil. Galvanized. Stainless Steel materials will be supplied with (2) hex nuts in place of a knurl nub. Order By -Figure number and pipe size Note -Figure 200R (import) with retainer ring and non-captured knurl nut. Dimensions • Wei ghts Pipe Rod Size Max. Rec. Approx. Size Inch Metric A B Load Lbs. Wt./100 1/2 3/8 Smm or 10mm 3'/a 2~'a 400 11 3/4 3/8 Smm or 10mm 3'/s 2'/z 400 11 1 3/8 Smm or 10mm 3~a 2a/e 400 12 1'/a 3/8 Smm or 10mm 3~'a 2~/a 400 13 1'/z 3/8 Smm or 10mm 3~/a 2~/a 400 14 2 3/8 Smm or 10mm 4'/z 3 400 15 2'/z 3/8 10mm 5~a 4'/a 600 27 3 3/8 10mm 5~/a 4 600 29 3'/z 3/8 10mm 7~a 5Ya 60D 34 4 3/8 10mm 7~a 5 1000 35 5 1/2 12mm 9'/e 6'/a 1250 66 6 1/2 12mm 10'/a 6~a 1250 73 8 1/2 12mm 13'/a 8~a 1250 136 c ~L us us'tEo FM ....~. OFFICElMANUFACTURINGFAClLITY • 1375 SAMPSON AVE. • CORONA. CA 92879 • PN: 951 737.5599 • FA.~( 95t 737.0330 CUSTOMER SERVICE • 800.186-5266 91 Fig. 825 -Bar Joist Sway Brace Attachment Size Range -One size accommodates all TOLCO Fig. 900 Series sway brace attachments. Maximum Horizontal Design Load 2015 lbs. Material -Carbon Steel Component of State of California OSFfPr7 Approved Seismic Restraints System !~ ~ LJ$T#0 FM ..-~° Function - To attach sway bracing and hanger assemblies to steel open web structural members. Features -This product's design incorporates a concentric attachment point which is critical to the performance of structural seismic connections. NFPA 13 indicates the importance of concentric loading of connections and fasteners. Permits secure non-friction connection without drilling or welding. Unique design reinforces point of connection to joist. Break off head bolt design assures verification of proper instal- lation torque (min. 31 ft.-Ibs.). Approvals -Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Approved by Factory Mutual Engineering (FM). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Installation Instructions -The Fig. 825 is the structural attachment component of a longitudinal or lateral sway brace assembly. It is intended to be combined with a TOLCO transitional attachment, "bracing pipe" and a TOLCO "braced pipe" attachment, to form a complete bracing assembly. NFPA 13 and/or OSHPD guide- lines should be followed. To Install -Place the Fig. 825 on the steel beam, tighten the cone point set bolts until bolt heads break off. Attach other TOLCO transitional attachment fitting, Fig. 909, 910, 980 or 986, Transitional fitting attachment can pivot for adjustment to proper brace angle. Important Structural Note: r„~ k~~~e` ;~~~, The TOLCO Flg. 825 has slgnlflcant UL <;~ e~ i `~•< established design loads, however, struc- ~ : ` ~~,~„ tural issues related to the steel joist member require restricted location installation for all ~~_ ~' ~~,,,t bracin .Steel Joist Manufacturers require h ll h k t b i i b ~ ~~~; E ~ a t a eart qua e rac ng connect ons e . ~ within 6" of the cord panel point. Installation ` ~`°~=~ ~ ~'~"°~ of the Fig. 825 must be limited to the outer ~ °~=r.~ third sections of the joist span. For instal- lations within the center third section of the joist span, use UL Listed TOLCO Fig. 825A. .~.n<„~~.,~~ ~~+~ ~~~, Finish -Plain, Electro-Galvanized and HDG "' „~,~~ Order By -Figure number and finish ,~.- US Patent #6,098,942, Canada Patent -..m~1 ~~: #2,286,659 ~ ~ i ~' I y3 ` * Load shown is allowable with brace installed, . -~~`"~~ ~,,, between 30° - 90°. No reduction of load based 11 ~~ ¢ ~' ; ~ on brace angle is required, ~; ~ ,'' "' t ~`'"=s " TOLCO® brand bracing components are desgined to be compatible ONLY with other TOLCO~' brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - NIBCO does NOT warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall NOT be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. ® OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 ~ CUSTOMER SERVICE • 800.186.5266 Maximum Design Load 2015 Lbs. Weight/1OO 237.5 Lbs. UL Listed as Hanger Attachment 6" Pipe Max. FM Approved Design Loads 2900 -Across Beam 1350 -Along Beam ~~ p%~s4 s'tr:~tae xt[ax9k'ed ~;.w~z,3 t,xsimcWitxb ~+~, ~~m~~~ r;c ~~ R.EaY ~'.c+4 R any~rocf~ ~~ ., 3l8" Fig. 907 - 4-Way Longitudinal Sway Brace Attachment Size Range - 1" x 1 ", 1" x 1'/a" and 1'/a" x 1'/a" bracing pipe. Material -Carbon Steel, hardened cone (or cup) point engaging screw Function -For bracing pipe against sway and seismic disturbances, Functions as a longitudinal brace connection when attached to a lateral brace pipe. Bracing con- nection must be positioned as close as physically possible to the braced pipe (No more than 3" away). Must be used only with TOLCO bracing components. When used in conjunction with TOLCO Fig. 1000, this combination bracing restricts piping movement in tension and compression both laterally and longitudinally. Approvals -Underwriter's Laboratories Listed in the USA (UL) and Canada (cUL). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Installation Instructions -The Fig. 907 is a transitional component of a longitudi- nal 4-way sway brace assembly. It is intended to be installed with the longitudinal and lateral "bracing pipes", TOLCO structural attachment fittings, Fig. 909, 910 and 980 and the Fig. 1000 TOLCO "braced pipe" fitting, to form a complete bracing assembly. NFPA 13 and/or OSHPD guidelines should be followed. To Install -Attach the Fig. 907 over the lateral "bracing pipe" to within 3" of its position relative to the "braced pipe" connection. Adjust brace angle and tighten bolts until heads bottom out on surface. Finish - Plain Note -Available in Electro-Galvanized and HDG finish. Tolco Fig. 980 Tolco Fig. 907 i 1 e ' Tolco Fig. 1000 Dimensions • Weights Max. Design Approx. 'folco Pipe Size A B Load Lbs." Wt./100 Fig. 980 1 x 1 4~a 4~a 655' 103 1 x 1 ~/a 5~/is 4~~is 655' 107 1 ~/a x 1 Ya 5~e 5t/a 655' 109 ' Load will accommodate up to 4" pipe at maximum spacing. c ~L us usrEa Component of State of California OSHPD Approved Seismic Restraints System Cup Paint Talco Fig. 907 Tolco Fig. 980 -~ TOLCO® brand bracing components are desgined to be compatible NLY with other TOLCO® brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - NIBCO does ~T warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall N T be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. OFFlCE/MANUFACn1RINGFAClLITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 145 Order By -Figure number, bracing pipe sizes and finish. Fig. 909 - No-Thread Swivel Sway Brace Attachment ~ u~ USLL4TE0 Size Range - 1 " bracing pipe. For brace pipe sizes larger than 1 ", use TOLCO Fig. 980. Material -Carbon Steel, hardened cone point engaging screw Function -The structural component of a sway and seismic bracing system. Features -This product's design incorporates a concentric attachment opening which is critical to the performance of structural seismic connections. NFPA 13 (2010) 9.3.5.8.4 indicates clearly that fastener table load values are based only on concentric loading. No threading of the bracing pipe is required. Open design allows for easy inspection of pipe engagement. Application Note -The Fig. 909 is used in conjunction with the TOLCO Fig. 1000, Fig. 1001, Fig. 4 (A) or Fig. 4L pipe clamp, and joined together with bracing pipe. Sway brace assemblies are intend- ed to be installed in accordance with NFPA 13 (or TOLCO State of California OSHPD Approved Seismic Restraint Manual) and the manufacturer's installation instructions. The required type, number and size of fasteners used for the structure attachment fitting shall be in accordance with NFPA 13 and/or OSHPD. Approvals -Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Installation Instructions -The Fig. 909 is the structural or transi- tional attachment component of a longitudinal or lateral sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO "braced pipe" attachment, Fig. 1000, 1001, 4A, 46 or 4L to form a complete bracing assembly. NFPA 13 and/or OSHPD guidelines should be followed. To Install -Place the Fig. 909 onto the bracing pipe. Tighten the set bolt until head bottoms out on surface. Attachment can pivot for adjustment to proper brace angle. Finish -Plain Note -Available in Electro-Galvanized and HDG finish. Order By -Figure number, pipe size and finish. Dimensions • B 1 6 1 ~s 17/32 2015 2765 91 Available with hole sizes to accommodate up to 3/4" fastener. Consult Factory. TOLCO® brand bracing components are desgined to be compatible ONLY with other TOLCO® brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - N18C0 does NOT warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall NOT be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. OFFICE/MANUFACTURING FACWTY • 1375 SAMPSON AVE. • CORONA. CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 Component of State of Fig. 1000 - "Fast Clamp" Sway Brace Attachment Size Range -Pipe size to be braced: 1" thru 6" Schedule 10 thru 40 IPS." Pipe size used for bracing: 1"and 1tu" Schedule 40 IPS. * Additionally (UL) approved for use to brace Schedule 7 sprinkler pipe up to 4" (maximum horizontal design load 655 lbs.) Torque requirement 6 - 8 ft. lbs. Material -Carbon Steel Function -For bracing pipe against sway and seismic disturbance. The pipe attachment component of a sway brace system: Fig. 1000 is used in conjunction with a TOLCOT"" Fig. 900 Series Fitting and joined together with bracing pipe per NFPA 13" or TOLCO OSHPD Approved Seismic Manual, forming a complete sway brace assembly. Features - Field adjustable, making critical pre-engineering of bracing pipe unnecessary. Unique design requires no threading of bracing pipe. Can be used as a component of a 4-way riser brace. Can be used as longitudinal brace with Fig. 907. Comes assembled and individually packaged with illustrated installation instructions -sizes are clearly marked. Steel leaf spring insert provided to assure installer and inspector necessary minimum torque has been achieved. Installation -The Fig. 1000 is the "braced pipe" attachment component of a lateral sway brace assembly. It is intended to be combined with the "bracing pipe" and TOLCO structural attach- ment component, Fig. 980, 910 or 909 to form a complete brac- ing assembly. Follow NFPA 13 and/or OSHPD guidelines. To Install -Place the Fig. 1000 over the pipe to be braced, insert bracing pipe through opening leaving a minimum of 1" extension. Brace pipe can be installed on top or bottom of pipe to be braced. Tighten hex nuts until leaf spring is flat. It is rec- ommended that the brace angle be adjusted before hex nuts are fully tightened. Approvals -Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spac- ing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Application Note -Position Fast Clamp and tighten two hex nuts until leaf spring flattens. A minimum of 1" pipe extension beyond the Fig. 1000 is recommended. Finish -Plain C ~L tIS LISTED Component of State of California OSHPD Approved Seismic Restraints System .~ ,` Maximum Design Load 1" thru 4" pipe size - 2015 lbs. 6" size - 1265 lbs. Note -Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By -Order first by pipe size to be braced, followed by pipe size used for bracing, figure number and finish. TOLCO® brand bracing components are desgined to be compatible ONLY with other TOLCO~ brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - N18C0 does NOT warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall NOT be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. ® OFFICElMANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 \~%~~, C ~ FIELD TECHNICAL INFURMATtCtN Ap~licafion recarnmendations for work at tha Walt or ceiling .. Suspension Systems for Acoustical Lay-in Ceilings BEEN --~"`'' This document provides the various standards for the installation of sus- pension systems for acoustical lay~in ceilings. Incorporation of this document will provide a more uniform standard for installation and inspection. This document is designed to accomplish the intent of the International Building Code (IBC} with regard to the requirements for seismic: design category D for suspended ceilings and related 'stems. Unless srJpported by engineering or approved by local build- ing .department, the suspension system shall be installed per the requirements for Seismic Design Category (SDC} D, E and F per the IBC. Manufacturers' recommendations should be followed General Recommendations • Referenced sources per hierarchy: 2003 IBC (International Building Code), American Society of Testing Materials (ASTM C 635, ASTM C 636), American Society of Civil Engineers (ASCE 7-02) and Ceilings acrd Interior Systems Construction Association (CISCA). • Partitions that are tied to the ceiling and all partitions greater than 6 feet in height shall be laterally braced to the structure. Bracing shall be indepen- dent of the ceiling splay bracing system. so„rce i~~_:ectio~ i~zr For further information on bracing of non-load bearing partitions refer to NWCB technical document #201. • All main beams are to be Heavy Duty (HD). S;,rce<ascr--. ~ '~''rten, s.f;.~.e??+ • All cross tees shall be capable of carrying the design load without exceed- ing deflection equal to 1 /360 of its span. 5eurce cisuH zore~ s-4 • These recommendations are intended for suspended ceilings including grid, panel or tile, light fixtures and air terminals weighing no more the 4 lbs. per square ..._....~._._.--- OOt. oout.'~ ~+~C;t , ,c Et. ,.. O.~.U, r maxiium 3" • All wire ties are to be three tight turns nsY m) around itself within three inches. Twelve gage Hanger wire spaced 4 foot on center (figure 1). ~~,1+~ce.-srni c sa:;,,_~;, 2.s ~ (~ Changes in ceiling planes will require positive bracing. figure Y Sou!ce .45CE J-02 Becton 9. n.2.6, 2 G iietr~ f NORTHWEST Vb41LL & CEILING BUREAU SUSPENSION SYSTEMS FOR ACOUSTICAL LAY-IN CEILINGS • Fbr essential facilities, hanger wire connections must be capable of carrying 200 pounds and bracing (splay) wires shall be capable of carrying 440 pounds, shot-in anchors in concrete are not permitted for bracing wires. s~:;1,:~~c~r~;:-,r,- rrert ofSfatean:l7itecSs (DSA.itAAA-.3 • Bracing wires shall be attached to the grid and to the structure in such a man- ner that they can support a design load of not less than 200 pounds or the actual design load, with a safety factor of 2, whichever is greater (figure 6b). Scarce i:1SCa zones ~-d • Powder driven fasteners must be approved for the appropriate loading. Sc.,rce ASCE T-02 sect+or 8.6.1. c.5 • Terminal ends of each main beam and cross tee must be supported within 8 inches of each wall with a perimeter wire (see figure 4 & 5 b). source: ursca z,~~~ s-~ Electrical fixtures • Light fixtures weighing less than 10 pounds shall have one 12 gage hanger wire connected from the fixture to the structure above. This wire may be slack. SOi)rCB ~IJVa C&:J171C 2017@S :S-4 • Light fixtures weighing more than 10 pounds and less than 56 lbs. shall have two 12 gage wires attached at opposing corners of the light fixture to the structure above. These wires may be slack. 5:;:,rcra clsca seisrr,ir; -;x~ris:~ .~. • Light Fixtures weighing more than 56 Ibs, shall be supported by directly from the structure above. These wires must be taut. Source clsca Sesrnic Tones ~-a • Pendant mounted fixtures shall be directly supported from the structure above using a 9 gage wire or an approved alternate support without using the ceiling suspension system for direct support. s::>rrr;:~ crsca Se!>rr:rr zortFx; s-4 • Tandem fixtures may utilize common wires. Mechanical Services • Terminals or services weighing 20 Ibs, but not more than 56 lbs. must have two 12 gage wires connecting them to the ceiling system hangers or the structure above. These wires may be slack. sourer; cis:;a s~~~r~,;<: zofrer;:~---a • Terminals or services weighing more than 56 Ibs. must be independently supported directly from the structure above. These wires must be taut. Srurce CJSCa Seismic zones :~-~ Seismic Separation Joints (figure 7) For ceiling areas exceeding 2500 square feet, a seismic separation joint or full height wall partition that breaks the ceiling shall be provided unless analyses are performed of the ceilings bracing system, closure angles and penetrations to pro- vide sufficient clearance. sour;:eare --~~2,r~~; 4.~;2.r.z.2;. The layout and location of the seismic separation joint shall be per the designer of record and noted on the plans. If a seismic separation joint is required by the designer, the designer may use the generic joint detailed in this document or a pro- prietary joint. The amount of free movement (gap design) shall be per the designer of record. Special Inspections Special inspections may be required by the jurisdiction or municipality. Contact the local building department. Sprinklers For ceilings without rigid bracing, sprinkler head penetrations shall have a 2 inch oversize ring, sleeve or adapter through the ceiling rile to allow free movement of at least 1 inch in all horizontal directions. Flexible head design that can accommodate 1 inch free movement shall be permitted as an alternate. 5o.;r::e asc~ ~-e2 :3.o.~ ~. ~?.:r~r e figure Sa figure 5b • Countersloping ligure 6a Vertical hanger wire attachment Shot-.n anchor ~~ Structural concrete ~ I Ceiling clip i 3 turns Vertical hanger wire figure 6b Splayed seismic bracing wire attachment 5/16" drill-in expansion anchor ~~ minimum Structural concrete ~ ~ °_° Steel strap 1 ° wide x 2" long x 12 gage minimum 3 turns Splayed seismic bracing wire figure 7 NOFT`-LVEST WALL ~ CEILING BUREAU • S!iSPE'tSiON SYSTEMS FOF ACOUSTICAL ' AY-IN CEICINGS 1SURE ANGLES molding that surrounds the perim- of the suspension system and ceiling )SS TEES cross member that interlock with the r beams, also known as cross run- or cross T-bars. circular or rectangular metal grill used r the passage of air from a ducted ENTIAL SERVICE BUILDINGS buildings designed to be used by is agencies as a fire station, e station, emergency operations er, State Patrol office, sheriff's ~, or emergency communication itch center. main beams and cross tees of the >ension system. ~..~.~. IVOr~ Walt and. Ceiling Bureau 1032-A NE 65th St. Seattle, WA 88115 Phone (206) 524-4243 Fax X206) 524-4136 Toll Free (800) 524-4215 info~nwcb.org www.nwcb.org HANGER WIRE 10 or 12 gage soft annealed wire used as primary support for the grid system. Also called suspension wires. LATERAL FORCE BRACING The bracing method used to prevent ceil- ing uplift or restrict lateral movement dur- ing aseismic event. Lateral force bracing consists of vertical struts and splay wires. MAIN BEAM The primary suspension member sup- ported by hanger wires, also known as the main runner, carrying tee, carrying runner or mains. MOLDING A light gauge metal angel or channel fastened to the wall or partition to support the perimeter of an acoustical the or ceiling. PERIMETER WIRES Hanger wires placed within eight inches of the surrounding walls. PLENUM The space above a suspended ceiling. SLACK WIRE A 12 gage wire that is not tight or taut. SPREADER or SPACER BAR A bar with notches to prevent the sus- pension system from separating, also called a stabilizer bar. SPLAY WIRES Wires installed at an angle rather than perpendicular to the grid. VERTICAL STRUTS The rigid vertical member used in lateral force bracing of the suspension system. Also known as compression posts, seismic pods, seismic struts. Common materials are electrical conduit (EMT), metal studs or proprietary products. The NWCB has been sensing the construction industry for over forty years. It is recdgnized as a technical authority, educationalbody and spokesperson for the wall and deicing industry. it provides sen,-ices td architects and the con- struction community on all matters relating to the NWCB -.Oregon diversified wall and ceiling industry. Phone: (503) 295-0333 As the industry's development and cdardination Fax: (503} 295-2733 organization, the NWCB saw the Head to estah- lisp a daeurnent to provide clarification and the B.G. Wall and Ceiling Association intent of NEHRP (National Earthquake Hazards Phone: (604) 597-7180 Reduction Program) an agency of FEMA ;Federal Fax: (604} 597-7208 Emergency Management Agency). It is meant to serve. as a set of recommendations and is not Alberta WaH and Ceiling Bureau intended for any specific construction project. Phone: (403) 250-7045 The NWCS makes ha express or' implied warranty Fax: (403) 291-9515 or guarantee. P POTTER ® The Symbol of Protection BELLS PBA-AC & MBA-DC UL, ULC, and FM Approved Sizes Available: 10" (25Umm) Voltages Available: 24VAC 120 VAC 12VDC (10.2 to 15.6) Polarized 24VDC (20.4 to 31.2) Polarized Service Use: Fire Alarm General Signaling Burglar Alarm Environment: Indoor or outdoor use (See Note 1) -40° to 150°F (-40° to 66°C) (Outdoor use requires weatherproof backbox.) Termination: AC Bells - 4 No. 18 AWG stranded wires DC Bells -Terminal strip Finish: Red powder coating Optional: Model BBK-1 weatherproof backbox Model BBX-] deep weatherproof backbox These vibrating type bells are designed for use as fire, burglar or general signaling devices. They have low power consumption and high decibel ratings. The unit mounts on a standard 4" (I O I mm) square electrical box for indoor use or on a model BBK-1 weatherproof backbox or BBX-1 deep weatherproof backbox for outdoor applications. Weatherproof backbox model BBK-l, Stock No. 1500001. Notes: I. Minimum dB ratings are calculated from integrated sound pressure measurements made at Underwriters Laboratorit•s as specified in UL Standard 464. UL temperature range is -30° to 150°F (-34° to 66°C). 2. Typical dB ratings are calculated from measurements made with a conventional sound level meter and are indicative of output levels in an actual installation. 3. ULC only applies to MBA DC bells. Size inches (mm) Voltage Mode] Nwnber Stock Number Current (Max.) Typical dB at 10 fr (3m) (2) Minimum dB at 10 ft. (3m) (1) 6-~ {3E}} ~BF 1Fi ~3A9~H -1~,4 Y~ ~6 8{89) ~~ AA~B ~39A8(~ -~Pr 98 ~ 10(250) 12VDC MBAl2l0 1750060 .12A 92 78 H{-l~ ,~ 146 ~39k9A :BHt~ ~ ~ ~{~ ~~ 114BA~43 ~39k~8 -96tk 9+ ~9 10 (250) 24VDC MBA2410 1750090 .06A 94 80 fr(}-39) 24~.4°~6 I?$~,~46 ~* -1-~f4 9-E ~S 8'f~ ~r4~ X48 ag988~~ .'~ 94 ~; 10 (250) 24VAC PBA2410 1810024* .17A 94 78 E~{-1 SA) F 1~8H 4A~ :93~ 9? 83 Q1~.~1 ° "l ° 7 = ,1,~9,~E nn~~~ i one-ovorr^~* :9~/!It ~9 S4 25 I 0 ( 0 ) 120VAC PBA12010 1810120* .OSA 99 86 All DC bells are polarized and have built-in transient protection. * Does not have ULC listing. In outdoor or wet installations, bell must be mounted with weatherproof backbox, BBK-1 or BBX-1. Standard electrical boxes will not provide a weatherproof enclosure. If the bell and/or assembly is exposed to moisture, it may fail or create an electrical hazard. PotterElectric Signal Company. LLC • 208 I Craig Road, St. Louis, MO, 63146-4161 • Phone: 800-325-3936/Canada 888-882-1833 • www.pottersignal.com PRINTED IN USA MFG. #54U077(i - REV Y PAGE I OF 2 5 09 p Pp~'~ BELLS ® The Symbol of Protection PBA-AC & MBA-DC Bells Dimensions Inches (mm) Fig. I 2 II116" t~~ DW'Gp 'lc~l Wiring (rear view) Fig. 3 A.C. BELLS WNRE flNl WHRF: IOLT O FROb1CONTROL PANEL OR PRFCF.DDJO HF:LI. O HLACK II.~Y HLACK IOIm cavrwN: WHEN ELECTRICAL SUPERVISION IS REQUIRED USE M AND OUT LEADS AS SHOWRJ. \OrES: I. WHEN USMG AC BELLS, TP.RMiNATF. F.ACH ExTRA WIRE SEPARATELYAFTF.R LAST RFLL. 2. P7J1>OF~LINF. RESISTOR IS NOT RF.OlJ1RF.U ON AC BELLS. OW4+':b) Weatherproof Backbox Dimensions Inches (mm) Fig. 2 Box has one threaded 1/2" conduit entrance 5 iii" O (14h) I SiS" - I (41) (A6) X127) ~~ (861 4 I/4" (IDA) FACP To Next Device or End-of-Line Resistor Installation 1. The bell shall be installed in accordance with NFPA 13, 72, or local AHJ. The top of the device shall be no less than 90" AFF and not less than 6" below the ceiling. 2. Remove the gong. 3. Connect wiring (see Fig. 3). 4. Mount bell mechanism to backbox (bell mechanism must be mounted with the striker pointing down). 5. Reinstall the gong (bc sure that the gong positioning pin, in the mechanism housing, is in the hole in the gong). G. Test all bells for proper operation and observe that they can be heard where required (bells must be heard in all areas as designated by the authority having jurisdiction). PRINTED IN LJSA MFG. 45400776 - REV Y PAGE 2 OF 2 5.08 P Porr~ ® The Symbol of Protection MODEL PS40A HIGH/LOW PRESSURE SWITCHES Pressure Connection: 1/2" NPT Male PS40-lA 5ingle Switch -Stock No. 1340401 PS40-2A Double Switch -Stock No. 1340402 UL and CSFM Listed, FM and LPC Approved, NYMEAAccepted, CE Marked Dimensions: 4 3/4" (I 2,1 cm)W x 2 1/4" (5,7cm)D x 4 3/8" (11,1cm)H Enclosure: Cover -Die-cast with textured red powdercoat finish. Base -Plated Steel Factory Adjustment: PS40-1 A: Operates on decrease at 30 PSI (2,1 BAR) PS40-2A: Operates on increase at 50 PSl (3,5 BAR), and on decrease at 30 PSI (2,1 BAR) Pressure Range: 10 - 175 PSI (0,7 - 12,1 BAR) Maximum Differential: Approx. 216x. at 20 PSI (0,14@1,4 BAR) 5 lbs. at 175 PSI (0,35@12,] BAR) Maximum System Pressure: 250 PSI (17,2 BAR) Switch Contacts: SPDT (Form C) 15.0 Amps at 125/250VAC, 2.5 Amps at 30VDC One set in PS40-lA, Two sets in PS40-2A Environmental Specifications: Indoor or outdoor use NEMA 4/IP55 Rated Enclosure -when used with proper conduit fittings Temperature range: -40°F to 140°F (-40°C to 60°C) (Not for use in hazardous locations) Service Use: Automatic Sprinkler NFPA-13 One or two family dwelling NFPA-13D Residential occupancy up to four stories NFPA-13R National Fire Alarm Code NFPA-72 Tamper: Cover incorporates tamper resistant fasteners that require a special key for removal. One key is supplied with each device. For optional cover tamper switch kit, order Stock No. 0090134. The PS40A is designed as a pressure type supervisory switch. The NFPA 72, National Fire Alarm Code, requires that a low pressure signal is sent at 10 psi below norn~al air pressure and ] 0 psi above nornial pressure on dry pipe valves. Therefore, the PS40-2A switches are factory set for a pressure decrease at 30 psi and a pressure increase at 50 psi with a normal air pressure of 40 psi. The switches are adjustable at any point between 10 and 175 psi. The PS40-1 A is intended for applications that are looking for a specific pressure, either increase or decrease. Thcsc applications would include monitoring city water pressure or monitoring a water tank pressure. INSTALLATION AND TEST PROCEDURES Mounting: Thedevice should bemounted in the uprightposition (threaded connection down). Only teflon tape should be applied to the male threads. Using pipe joint cement or pipe thread compound (pipe dope) could obstruct the device and cause it to not work properly. In outdoor applications, a NEMA type 4 conduit hub should be installed. !f the pressure needs to be adjusted from the factory settings, adjust the system pressure to the desired trip point. Use a ohm meter on the appropriate contacts (COM and NC for pressure decrease and COM and NO for pressure increase). Adjust the knurled knob until the meter indicates continuity. At that point the switch is set for that particular pressure. When the adjustments are complete, raise and lower the system pressure to ensure the switch is properly set. On dry systems, connect the PS40A in the air supply line on the system side of any shutoff and check valves. Provisions for testing the unit without affecting the entire system can be accomplished with the installation of a Potter Bleeder Valve (Model BVL) in the line to the PS40A. Testing: The operation of the pressure supervisory switch should be tested upon completion of installation and periodically thereafter in accordance with the applicable NFPA codes and standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). CAUTION: Testing the PS40A may activate other system connected devices. Potter Electric Signal Company 2081 Craig Road, St. Louis, MO, 63146-4161 Phone: 8UU-325-3936rCanada 888-882-1833 • www.pottersignal.com PRINTED IN USA MKT. #R810002 - REV V PAGE 1 OF 2 MFG. #5400924 - 6%06 P Porr~ ® The Symbol of Protection -----~ m. At3J11bTYFA11 t I- I.I}6 u,.a.} DIMENSIONS NOTE: TO PREVENT LEAK.4GE,APPLYTEFLON TAPE SEALANT TO MALE THREADS ONLY. W;~RNING: USE OF PIPE JOINT CEMENT MAY RESULT IN OBSTRUCTION OF APERTURE AND LOSS OF SIGNAL. FIELD ADJUSTMENTS: The opetting point of the switch (or switches on the PS40-2A) can be adjusted to any point between ]0 and l75 PSI (0,7 and 12,1 BAR) by coming the adjustment knob(s) clockw ise to raise the actuation point, and counter-clockwise to lower the actuation point. In the case of the PS40-2A, the two switches operate completely independently of one another, and each switch may be adjusted to actuate at any point the system requires. Final adjustment should be made with a pressure gauge. Typical Sprinkler Application -Dry System PSxDA AIR LL~E Slllfr-0rF %I0.A D[. F.F.DER \AI VF. AI.ARN TEST PRFSSVRE rnrrR vuvr. swRCn VII VE g\'L DWI:x 9$J-I L'IIEr'IC RRVS ORY VALVG PIPF. VALVE WATER ~ A y OT~PASS VALVE TrtT VALVE VOTUR 4V41i Ordering Information Model Description PS40-1 A Pressure switch with one set SPDT contacts PS40-2A Pressure switch with two sets SPDT contacts BVL Bleeder Valve Hex Key Cover Tamper Swilch RBVS Ball Valve tamper switch Stk. Na. 1340401 1340402 IOOOOl8 5250062 OD90134 ID00040 r---~ -~ -µc----1 ~ p 'a p zro nor•a ® ! ~ ,aT p l.a l)wGx /924-30 Pressure Switch Terminations PRESSURE N.C. N.C. INCREASE COM. COM. N.O. N,O. PRESSURE DECREASE COM. N.O. N.C. CDM. N.O. N.C. DWG. /926-3 Law Air [filly l.ow Rod High Air on the Same Zone PS-10-AI p5-{p-A2 LOW NR SWITCH HIDH AIR SWITCH FMA LOW AIR SWITCH EOLR Na CpRx IRI RC Y NC TO FIRE AIMM PANEL ~ TO FlRE ALARN PANEL P1YC ~59t+-I NOTE: High switch changes with pressure increase. Low switch changes with pressure decrease. Switch Terminal Connections Clamping Plate Terminal ~ ow. [~-a MODEL PS40A HIGH/LOW PRESSURE SWITCHES CAl1'I'lON: An uninsulated section of a single conductor should not be looped around the terminal and s[xve as two separate connections. The wire must be severed, [hereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. Engineer/Architect Specifications Air pressure supervisory switch shall he a Model PS40A as manufactured by Potter Electric Signal Co. of St. Louis, Mo. and shall be installexi on the sprinkler systems as shown on the drawings and`or as specified herein. Switches shall be provided with a 1/2" NPT male pressure connection to be connectc[i into the air supply line on the system side of any shut-otT valve. A Model BVL bleeder valve as supplied by Potter Electric Signal Co. of St. Louis, Mo. or equivalent shall be connected in line with the PS40A to provide a means of testing the operation ofthe supervisory switch. (See DWG. #924-I) The switch unit shall contain SPDT (Form C) switch(es). One switch shall operate at a pressure decrease of 10 PSI (0,7 BAR) from normal. If two switches are provided, the second switch shall operate at a pressure increase of ]0 PSI (0,7 BAR) from normal Switch contacts shall be rated at I5.0 Amps at 125/250VAC and Z.5 Amps at 30VDC. The units shall have a maximum pressure rating of 250 PSI (17,2 BAR) and shall be adjustable from l0 to l75 PSI (0,7 to 12,1 BAR). The switch housing shall be weatherproof and oil resistant. The cover shall incorporate tamper resistant screws. The unit shall be UL and CSFM Listed, FM and LPC Approved, and NYMEA Accepted. PR[NTED IA1 USA MKT. 118R1000'_' - RF.V V PAGE 2 OF 2 MFG. 115400924 - 6ll6 P PO~~ MODEL FS10A ® The Symbol of Protection PRESSURE SWITCH PS10-lA Single Switch -Stock No. 1340101 PS10-2A Double Switch -Stock No. 1340102 UL, cUL and CSFM Listed, FM and LPCApproved, NYIV1EAAccepted, CE Marked Dimensions: 4 3/4" (12,Icm)W x 2 1!4" (5,7cm)D x 4 3/8" (l l,lcm)H Enclosure: Cover -Die-cast with textured red powdercoat finish Base -Plated Steel Pressure Connection: 1 /2" NPT Male Factory Adjustment: Operates on Pressure increase at 6 tl PSI (0,4110,07 BAR) Operates on Pressure decrease at 5 f 1 PSI (0,35f0,07 BAR) Maximum Differential l PSI (0,06 BAR) Maximum System Pressure: 250 PSI (17,2 BAR) Switch Contacts: SPDT (Form C) 15.0 Amps at 125/250VAC, 2.5 Amps at 30VDC One set in PS 10- l A, Two sets in PS 10-2A Environmental Specie cations: Indoor or outdoor use NEMA 4/IP55 Rated Enclosure -when used with proper conduit fittings Temperature range: -40°F to 140°F (-40°C to 60°C) (Not for use in hazardous locations) Service Use: Automatic Sprinkler NFPA-13 One or two family dwelling NFPA-13D Residential Occupancy up to four stories NFPA-13R National Fire Alarm Code NFPA-72 Tamper: Cover incorporates tamper resistant fasteners that require a special key for removal. One key is supplied with each device. For optional cover tamper switch kit, order Stock No. 0090134. INSTALLATION AND TEST PROCEDURES The Potter PSl OA Series Pressure Actuated Switches are designed for the detection of a waterflow condition in automatic fire sprinkler systems of particular designs such as wet systems with alarm check valves or dry pipe systems. They may also be used to provide a low pressure supervisory signal. They may be adjusted to operate on pressure between 4 and 20 PSI (0.27 and 0,4 BAR). MOUNTING: Device should be mounted in upright position (threaded connection down). Requires NEMA type 4 conduit hub for outdoor installations. TESTING: Theoperationoftltepressurealarmswitchshouldbetestedupon completion of installation and periodically thereafter in accordance with the applicableNFPAcodes andstandards and/ortheauthority having jurisdiction (manufacturer recommends quarterly or more frequently). WET SYSTEM: METHOD l: WhenusingPSlOAandcontrolunitwithretard-connectPS10A into alaan port piping on the input side of retard chamber and electrically connect PS l0A to control unit that provides a retard to compensate for surges. Insure that no unsupervised shut-off valves are present between the alarm check valve and PS 10A. METHOD 2: When using the PS10A for local bell application or with a control that does not provide a retard feature -the PS l0A must be installed on the alarm outlet side of the retard chamber of the sprinkler system. TESTING: Accomplished by opening the inspector's end-of--line test valve. Allow time to compensate for system or control retard. CAUTION: Method 2 is not applicable for remote station service use, if there is an unsupervised shut-off valve between the alarm check valve and the PS 10A. W'ET SYSTEM WITH EXCESS PRESSURE: Connect PS10A into alarm port piping extending from alarm check valve. Retard provisions are not required. Insure that no unsupervised shut-off valves are present between the alarm check valve and the PSl OA. TESTING: Accomplished by opening the water by-pass test valve or the inspector's end-of--line test valve. When using end-of--line test, allow time f'or excess pressure to bleed off. DRY' SYSTEM: Connect PSlOA into alarm port piping that extends from the intermediate chamber of the alarm check valve. Install on the outlet side of the in-line check valve of the alarm port piping. Insure that no unsupervised shut-off valves are present between the alarm check valve and the PS I OA. TESTING: Accomplished by opening the water by-pass test valve. CAUTION: The above tests may also activate any outer circuit closer or water motor gongs that are present on the system. Potter Electric Signal Company 2081 Craig Road, St. Louis, MO, 63146-4161 Phone: 800-325-3936/Canada 888-882-1833 • www.pottersignal.com PRiNT'ED IN USA b7KT. #8310001 - REV W PAGE 1 OF 2 MFG. X5400923 - 6. U6 P POTTFIZ The Symbol of Protection DIMENSIONS NOTE; ~ 1 TO PREVENT I I LEAKAGE. APPLY "~'`~ IRVO~ TERON TAPE I I SEALANT TO HALE THREADS ONLY, I I WARNING; USE OF PIPE JOINT CEAENT NAT RESULT IN OBSTRUCTION OF THE APERTURE AND LOSS OF NAL SK' . . 1.12D a~mi DWG. /923-1 ?~~ (0.]cnt) TYPICAL SPRINKLER APPLICATIONS x'er SYSTEM 14'ITH FY('F.SS I'RI;SSIIRE W£r SYSTEM x'ITU(IIfF ORY SYSTEM FXCF.SS PRFSSt'RF ~ ^ "nIFR wnrFA nlon nl,~n Rncs RF*,R oav s. wET ~i~zK iuFn M~~ ~ ~u~F ~..I,e ~nI~F ,n~.r ,nl~~ ~,,L,e MODEL PS10A PRESSURE SWITCH SWITCH TERMINAL CONNECTIONS CLAMPING PLATE TERMINAL ~' ~~'~ \N ~E~\rV (riVGM v71-1 O CAUTION: An wtinsulated section of a single conductor should not be looped around [he terminal and serve as two separate connections. The wire must be severed, thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. CAUTION: Closing of any shutoff valves between the alarm check valve and the PS l0A will render the PS l0A inoperative. To comply with NFPA-72 any such valve shall be electrically supervised with a supervisory switch such us Potter Model BVS. TYPICAL ELECTRICAL CONNECTIONS FUR LUW RRESSLIRr SINAI ~w oaroR FRe ncn~w sn~ItNS w:Tx Less TxnN ro n: oNVr roR WATrnrLOW SIGNAL Tl) 0.1Nf A 1 MAI. RG.I i. F[)R x'ATFRFI f1W (~R N(IT nCL~ u nw:.w.Rx rn~EL NEC.Am~e ocoR NELRRAL of I~~1'1N, nl.,k PANL ORDERING INFORMATION Model Description Stock No. PS 10-1 A Pressure switch with one sel SPDT contacts 1340101 PS 10-2A Pressure switch with two sets SPDT contacts 1340102 Hex Key 5250062 Cover Tamper Switch Kit 0090134 RBVS Ball Valve tamper switch 11100040 APPLICATION WARNING! Due to the possibility of unintended discharges caused by pressure surges, trapped air, or short retard times, waterftow switches that aze monitoring wet pipe sprinkler systems should not be used as the sole initiating device to discharge AFFF, deluge, or chemical suppression systems. SPECIFICATIONS PRESSURE SWITCH TERMINATION INCREASING SYSTEM PRESSURE ` TYPICAL wATERROw MsTALIATroN CON. N,O. N.C SWITCH MARKINGS TYPICAL LOW PRESSURE SUPERVISION DECREASING SYSTEM PRESSURE CON. N.O. µC. SWITCH MARKINGS CONTACT POSITION SNOwN wrtH OLVICE IN PRESSURIZED CONDITION DwG. /982-, Pressure type waterflow switches shall be a Model PS I OA as manufactured by Potter Electric Signal Co. of St. Louis, Mo. and shall be installed on the sprinkler systems as shown on the drawings and/or specified herein. Switches shall be provided with a 1/2" NPT male pressure connection to be connected into the alarm check valve of a "wet" sprinkler system or into the intermediate chamber of a "dry" pipe system a~td shall be actuated by any flow of water to or in excess of the dischazge from one sprinkler head. Switches shall have a maximum service pressure rating of 250 PSI (17,2 BAR) and shall be factory adjusted to operate on pressure increase at 6 tl PSI (0,410,06 BAR). There shall be one (I) or two (2) SPDT contacts rated at 15.0 Amps at 1251250VAC and 2.5 Amps at 30VDC. The switch housing shall be weather proof and oil resistant. The cover shall incorporate tamper resistant screws. The unit shall be UL and CSFM Listed, FM and LPC Approved, and NYMEA Accepted. PRINTED IN USA 1vfKT. N8810001 - REV W PAGE 2 OF 2 MFG. #5400923 - 6.06 ~-~3~ i~-~~~ CAST ~-c~ ~~~ ~-rs~ ~~ ~x UL Listed oilless Piston Air Compressors for Dry sprinkler systems Tankless 1 Tank ~/lounted UL1450 Listed No lubrication required Fully automatic Direct Drive Gorrosion resistant internal parts Compact, easy to install High cycle rating pressure switch ..~. - LCB-4i;T-iv14„OGX s ~ C~as~ illes~ P~s~~r~ Air +Gc~m~ressc~rs -__~ Afl air compressors shown have open motors. Single phase motors have internal thermal protection. Dual voltage motors are shipped pre-wired for the higher voltage. All tank units are wired for 115 volts. Tankless /Automatic air compressors have inlet filters, a safety valve, pressure switch, check valve, tubing and fittings. ~" ._.. _ ~ ', FREE AIR FLOb'V POWER OPERAI ING VOLTAGE '' MODEL at 13 PSI ' RATING FREQUENCY NUMkiER CFM F~iP HZ 1LAA-555-M100 GX 1.0 1/5 ~ 15-60-1 3LEM-55S-M345EX i.5 1/q 115-60-1 4LC6-555-M450G X __ 2.0 1 3 -i15-60-1 Factory setting: cut-in 13 psi ± 2 psi / cut-o~it 18 psi + 2 psi For Dry Sprinkler systems TWIN CYLINDER MODEL UI1viENSI0N5 PIPE ' SHIP SIZE ' VVT. INCHES ~~ fi C IN. NPT LI3S 7.57 13.75 9.17 1/4 23.0 7.b7 14.81 ~ 9.37 1 /a 29.7 a Maximum Gallons FREE AIR FLOW POWER ' OPERATING VOLTAGE DIMENSIONS PIPE SHIP `~' ~,1ODEL in System to Pump at ,.g0 P51 RATING FREQUENC'( ! SIZE ~M. NUMBER ' to 4Q PSI in 30 P~',in. ' INCHES i support of :=PA Standard '3 CFM HP HZ r. B ~ IN. NFT I.6S '~ 1LAA-45S-Ml00GX ' 90 1.0 _ 4-F~, 115-50-1 ': 8.31 15,25 9.75 1/4 22.5 2LAF-455-1v12.00EX 150 ~ 15 %f4 115-50-1 8.31 15.59 9'S 1/4 24.2 3LBA-465-M300GX ! 180 ~ 2C~ ~/3 115-60-1 8.31 15,55 ! 12.3.5 1/4 30.J_ ~,a _ _ __ 3LEM-465-~'v134.5EX '80 2.0 1/3 115-60-1 4.53 14.81 9.37 174 292 4LCB-465-M450GX 300 3' a-r~~. 115/230-50-1 8.81 16.09 13.32. 1/4 39.5 -,.._ SLCA-4ti5 M550GX _ 400 4.2 '~4 1 li/230-60-1 8.81 16.'6 ': 3.37 1/4 47.5 6LCF 46S-M616NEX 600 5.9 T 115/208-230.60..' 8.79 .18.91 13 43 Sig .....55.2 7LDE 465 MJ50X 800 7.9 - ->_~~ ' IS/230-i 10/220-60-' 9.80 .2525 1250 3/n 73.0 SINGLE CYLINDER MODEL _~ __. Factory setting: cut-in 40 psi ± 2 psi /cut-out SO psi ± 2 psi Part ' Number Description tsc.t SSS A~55C Check Valve 1iG"NPT female 1 LAA-555 ', 3L6b1-555 4LC:6-555 zr. ,_i \.i550A Check Valve j,k"NPTfemale 1F631 5hock,'isolation mounts %4 - 20 thread both ends >,F633 ' Shock/isolation mounts Si g 18 IhreacJ 00th ends aS 188 Pressure Switch (cut in 13 psi. i.u[ out ~ H psi) _... 1K6~OD ' Pressure Switch '. ~ {CUt In ~G JSi, Nt-4U[ 7O J51) 1E163F Pressure Switch (CUt-in 30 psi, CUt-OU[ SO OSIj \f 634 15"hoseassy. tip"NPTFUting \H332 16"hoseassv. -jia"NPTFitinq 1 LAA-55S 3L6~1-555 __. . 4LC5-SSS 1 LAA-465 1 LAA-46T 2LAF-465 2LAF-46T 3Li3A-a65 3LEM-46T 3LEh•1-465 3L5A 46T I 4LCB-46S 4LC13-46T SLCA-465 i SLCA-•'1~T 6LCF~46T ..~ 6LCF-46S 7LDE-465 7LDE-4GT SLDF-465 ' 8LCF-46T 1 LAA-46S 1 LAA-46T 2LAF-<16S 2LAF-46T 3LBA-465 3LBP.-46T 3l_EM-46S ' 31_EM-46T 4LCB 46S ' 4LCB-46T SLCA-46S ' SLCA-4F,T 6LCF-465 ', 6LCF-46T i 7LCE-46S I 7LCE-46T I F3LDF-46S F3LDF-46T All 555 tankless models .All 46S tankless models All t6T tank models All models vdith ~/a"NP- All models with ;ig" NPR _._ _ _ _.~ AT670 Compressor Mounting Bracket AT670A +: - _ .. _.; .i ~~~~ .. ,~=: - For mounting all 555 and 465 tankless models ': to all shapes and sizes of riser pipes. i Comes complete with all the hardware and adjustable stainless steel straps. Contact your local sprinkler supply company E or Gast distributor to order. _ . _. _. - _ Sv,te~~~ ~1ir Capacity per 1 pike if ~r=d on a tual internal diameteri _. _ ; Diameter On.) ~/~ _ 3/4 1 1 1!4 1 1/2 2 2 1/2 3 3 1/Z 4 S 6 8 vallon_ .U16 U1ii _ (k+5 .QiB IGE' 1'4 .245 X83 .513....... .66G l.G!I 150 2.66 , _ _ _ _ _ _. Factory settir:g: cut-in 30 psi ± 2 psi/cut-out 50 psi ± Z psi ~sr CORPORATION CAST Mane`acts trine, Inc. A Unit Of iQi=X Cer~oration Past Office i3c~;< {~ 7 23QQ M-139 i-ligh~.~!a;.f Benton F-larbor, (~9icP~igan ~9C?2~3-Q097 Phone 2G9-926-6171 Fax 269-925-si2E3£3 www,gastm`g.com Gast h~org Kong Unit 12, 21rF, Biock B New Trace Pia<a. 6, On Ping Street, Shatir, N. T Hang Kong Phone 8:~2-269Q-1 QQF~ Fax X352-2Q9~,'-1 Q12 EAST GROUP LTG A l-;nit ofi IDFX Cor~oratict E Unit 11. The I O Centre Nash Road F-sedCiitCh. B98 7AS United Kingdom Phone +4~ (0;152:'-50~04Q Fax +~4 (4j 152 7-525262 I~ U~?ec~isti;rd Tiademark'r"~`Tracier~ark cf Gast Man;.tfact~rinc3 Inc., C^t~.~;~rigt?t ~2C)10 Gast Man~.t'~~cl~.iring inc. All rights res~r~reca. 't'L~CO Fire & Bui/ding Products http://www.tyco-fi rep roducts.com Model AMD-1 Automatic Air Maintenance Device Pressure Reducing Type With Field Adjustable Pressure Regulator General Description The Model AMD-1 Automatic Air Mainte- nance Device is an automatic, field-adjust- able device of the pressure reducing type. It is used to control the pressure in a dry pipe sprinkler system, preaction system, or dry pilot line system of a dry pilot actu- ated deluge or preaction valve. The AMD-1 is utilized in applications where there is a compressed air (or nitrogen) source which is controlled at a higher pressure than the desired system pressure. Pressure sources include plant air supplies having their own automatic compressor controls, or nitro- gen supplies having single-stage cylinder mounted pressure regulators. The Model AMD-1 Automatic Air Main- tenance Device is a redesignation for the Central Model D-2, Gem Model F324, and Star Model 5460. WARN/NG The Model AMD-1 Automatic Air Mainte- nance Device described herein must be in- stalled and maintained in compliance wish this document, as well as with the applicable standards of the National Fire Protection As- sociation, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair [he performance of this device. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contrac- tor or sprinkler manufacturer should be con- tacted with any questions. Technical Data Approvals UL and ULC Listed. FM Approved. NYC under MEA 206-02-E. Maximum Inlet Air (or Nitrogen) Supply Pressure 13,8 bar (200 psi) Field Adjustable Outlet Pressure Range 0,4 to 4,8 bar (5 to 70 psi) Assembly Major components illustrated in Figure 1 are factoryassembled with galvanized steel nipples and malleable iron pipe fittings. Operation The By-Pass Valve in the AMD-1 is opened to fast fill the system during the initial pres- surization. Once the required system pres- sure has been reached, the By-Pass Valve is closed and the Air Supply Control Valve is left open to place the AMD-1 in automatic operation. Given a small leak in the system, the Pres- sure Regulator will automatically main- tain system pressure at the preset level. The 2,4 mm (3/32") orifice in the Restrictor Check Valve limits the Flow of air from the Pressure Regulator into the system to a value which is significantly less than that which will be exhausted by the operation of an 80 K-factor sprinkler. ~a ~, Installation The Model AMD-1 Automatic Air Mainte- nance Device must be installed in accor- dancewith the following instructions: NOTE Suitable consideration must be given to the removal of excessive moisture from the com- pressedair supply. Step 1. Connections between the inlet air supply and the AMD-1, as well as between the AMD-1 and the system to be pressur- ized, are to be a minimum of DN15 (0,5") pipe size. Step 2. A DN15 (0,5"), non-spring loaded, rubber faced, swing type check valve must be located between the AMD-1 and the system to be pressurized. A check valve of this type is provided in the air supply trim of Tyco Fire Products dry pipe valves, preac- tionvalves, and dry pilot trim. Page 1 of 4 May, 2007 TFP7 221 _EN Page2of4 TFP1221_EN 50,8 mm 409,6 mm f t/4"NPT GAUGE ~ TEST PORT 82,6 mm 1/2"NPT OUTLET (3-1 /4") CONNECTION + f (TO SYSTEM) 215,9 mm (8-1/2") LABEL RESTRICTOR CHECKVALVE P/N 92-326-1-003 1 /2" N PT INLET CONNECTION (FROM COMPRESSED AIR SUI rnt»unr AIR SUPPLY REGULATOR STRAINER CONTROL VALVE (ADJUSTABLE) P/N 52-353-1-002 (NORMALLY OPEN) P/N 92-324-1-Oi2 P/N 46-048-i-002 FIGURE f MODEL AMD-1 AUTOMAT/CAIR MAINTENANCE DEVICE Setting Procedure The Model AMD-1 Automatic Air Mainte- nance Device must be set in accordance with the following instructions: Step '!. Determine the pressure that meets the minimum requirements of the system to be pressurized. Step 2. Close the AMD-1 By-Pass Valve, and close the AMD-1 Air Supply Control Valve. Step 3. Open the control valve in the air supply trim of the system to be pressurized and then reduce the system air pressure to zero (gauge pressure). Step 4. Close the control valve in the air supply trim of the system to be pressured. Step 5. Remove the system pressure gauge from its connection and temporarily install it in the 1/4"NPT AMD-1 Gauge Test Port. NOTE Make certain chat the piping to which the AMD-1 Gauge lest Port is connected is at zero (gauge pressure) before removing the plug. Step 6. Open the Air Supply Control Valve in the AMD-1. Step 7. While observing the relocated pres- sure gauge, adjust the output pressure of the pressure regulator. Pull the knob out and away from the pressure regulator body and then slowly turn the knob clockwise, as viewed from the knob end of the pressure regulator, to increase pressure and counter- clockwise todecrease pressure. When decreasing pressure, the air pressure must be relieved downstream of the pressure regulator by temporarily opening the control valve in the air supply trim of the system to be pressurized (ossuming that the system to be pressurized is at zero (gauge pressure)). After the pressure regulator is set, push the knob in and towards the pressure regulator body to "snap" it in a locked position. Step 8. Close the Air Supply Control Valve in the AMD-1. Step 9. Return the system air pressure gauge to its normal location. Re-install the 6 mm pipe plug in the the AMD-1 Gauge Test Port. Apply pipe thread sealant spar- ingly tothe plug threads only. NOTE Make certain that the piping to which the AMD-1 Gauge Test Port is connected is atzero (gauge pressure) before removing the pres- suregauge. Step 10. Open the control valve in the air supply trim to the system being pressur- ized. Step 11.Open the Air Supply Control Valve in the AMD-1. Step 12. Open the By-Pass Valve in the AMD-1. Step 13. Close the By-Pass Valve after the system has been pressurized to approxi- mately 0,4 bar (5 psi) less than the mini- mumrequired system pressure determined in Step 1. Step 14. After the system pressure has sta- bilized, note the value and compare with the requirement. Readjust the Pressure Regulator, as require. NOTES If the system was over-pressurized during manual fill, a suitable connection to the sys- temmust beopened and the pressure manu- allyreduced to the desired value. The AMD-1 will then automatically maintain the preset system pressure. The Restrictor Check Valve prevents the Pressure Regulator from bleed- ingdown the system pressure. The system pressure should be set at the mini- mum required value, in order to minimize the time for system trip in the event of a sprinkler operation. TFP1221_EN Care and Maintenance The following inspection procedure must be performed as indicated, in addition to any specific requirements of the NFPA, and any impairment must be immediately cor- rected. The owner is responsible for the inspec- tion, testing, and maintenance of their fire protection system and devices in compli- ance with this document, as well as with the applicable standards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any author- ity having jurisdiction. The installing con- tractor or product manufacturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and main- tained by a qualified Inspection Service in accordance with local requirements and/or national codes. NOTES Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permis- sion io shut down the affected fire protection systems must first be obtained from the prop- erauthorities and al! personnel who may be affected by this decision must be notified. After placing a fire projection system in ser- vice, notify [he proper authorities and advise those responsible for monitoring "proprietary and/or central stotion alarms. It is also recommended that accumulated moisture be removed from air supply mois- ture filtration equipment, at leas[ quarterly. More frequent inspections maybe necessary in particularly humid environments The Model AMD-1 Automatic Air Mainte- nance Device must be inspected quarterly in accordance with the following instruc- tions: 1. Verify that the By-Pass Valve is closed. 2. Close the AMD-1 Air Supply Control Valve and clean out the 6 mm (1/4") Strainer located at the inlet to the Re- strictorCheck Valve. Be sure to reinstall the strainer screen and tighten the cap securely. 3. Open the AMD-1 Air Supply Valve and verify that the control valve in the air supply trim to the system being pres- surized is open. 4. Verify that the system pressure is es- sentially the same as the previously es- tablished requirement. If not, adjust the system pressure as follows: a. Close the system's main control valve and open the main drain valve. Close the Accelerator Control Valve, if the system is so equipped. b. Follow Steps 1 through 14 in the Set- ting Procedure. c. Slowly open the Accelerator Control Valve, as applicable. d. Slowly open the main control valve and after water begins to flow, slowly close the main drain valve and then completely open the main control valve. The AMD-1 Air Maintenance Device is now ready for service. Limited Warranty Products manufactured byTyco Fire & Build- ing Products (TFBP) are warranted solely to the original Buyer for ten (10) years against defects in material and workmanship when paid for and properly installed and main- tained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or components manu- factured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with ap- plicable Standards of the National Fire Pro- tection Association, and/or the standards of any other Authorities Having Jurisdic- tion. Materials found by TFBP to be defec- tive shall be either repaired or replaced, at TFBP' sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation 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 le- gal theory, for incidental, indirect, special or consequential damages, including but not limited to labor charges, regardless of whether tyco fire products was informed about the possibility of such damages, and in no event shall TFBP' liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties express or imr~lied, including warranties of merchant- abilitvand fitness for a particular purpose. Page 3 of 4 This limited warranty sets forth the exclu- sive remedy for claims based on failure of or defect in products, materials or compo- nents, whether the claim is made in con- tract, tort, strict liability or any other legal theory. This warranty will apply to the full extent permitted by Iaw.The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure Orders for the AMD-1 and replacement parts must include the description and Part Number (P/N). AMD-1: Specify: Model AMD-1 Automatic Air Main- tenance Device, .................................................. P/N 52-324-2-002 Replacement Parts for AMD-2 Air Main- tenance Device: (Specify description} for use with Model AMD-1 Automatic Air Maintenance Device, .................................................P/N (see Figure 1). LES SCH[tiAB TIRE CENTER Drawing Date:07-26-2010 HYDRAULIC DESIGN INFORMATION SHEET Job Name: LES SCHWAB TIRE CENTER Location: 805 EAST YELM AVE YELM, WASHINGTON Drawing Date: 07-26-2010 Contractor: EMERALD FIRE PROTECTION 110210 CRAMER ROAD KPN GIG HARBOR, WASHINGTON 98329 Designer: MIKE/NICK -. Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: STEEL FRAME Reviewing Authorities:YELM 7/2 7/10 11:4 7 Remote Area Number: 1 Telephone:l-800-673-8791 Occupancy:TIRE STORE SYSTEM DESIGN Code:NFPA 13 Hazard:ESFR DESIGN System Type:WET Area of Sprinkler Oper. 1200 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.996 I Make: TYCO Area per Sprinkler 93.0 sq ftl Model: ESFR-25 Hose Allowance Inside 0 gpm I K-Factor:25.20 Hose Allowance Outside 250 gpm I Temperature Rating: 165 CALCULATION SUMMARY 12 Flowing Outlets gpm Required: 1429.2 psi Required: 42.1 @ City Supply WATER SUPPLY Water Flow Test I Pump Data I Date of Test ~ Rated Capacity 0 gpm I Static Pressure 53.0 psi I Rated Pressure 0.0 psi I Residual Pres 47.0 psi I Elevation 0 I At a Flow of 1160 gpm I Make: I Elevation 0" I Model: I Location: SITE Source of Information: SYSTEM VOLUME 1039 Gallons FiIE cc~ o~~~~~~ ~Uu U (~ 701E BY: -------------------- LES SCHltiAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 HYDRAULIC CALCULATION DETAILS HYDRAULIC QTY DESCRIPTION LENGTH C ID Hydr Ref W Required at Hyd Area 1 1 6" Fingd Butterfly Valve CSC "A" 10' 120 6.065 Total Loss for Riser Hydr Ref Rl Required at Base of Riser 1 8" MJ Tee ?Take Out? 35' 120 8.071 1 10" x 8" Fingd Reducer 0' 120 10.140 1 8" Fingd Gate Valve CSC "722U" 4' 120 8.071 2 10" MJ 90 E11 0' 120 10.140 1 Pipe 10" DIxl8 C1 52 20' 140 10.750 2 10" MJ 45 Ell 0' 120 10.140 1 10" Fingd Back Flow Valve WILIiINS CHART LOSS 1 Pipe 10" DIxlB C1 52 60' 140 10.750 Fixed Flow Outside Hose Stream Total Loss for Underground Hydr Ref R2 Required at City Supply Water Source 53.0 psi static, 47.0 psi residual @ 1160 gpm SAFETY PRESSURE FLOW LOSS gpm psi TOTALS 1179 36.4 psi 1179 0.5 0.5 psi 1179 36.8 psi 1179 0.4 1179 0.0 1179 0.0 1179 0.0 1179 0.0 1179 0.0 1179 4.7 1179 0.1 250 gpm 5.3 psi 1429 42.1 psi 1429 gpm 44.2 psi 2.0 psi Available Pressure of 44.2 psi Exceeds Required Pressure of 42.1 psi This is a safety margin of 2.0 psi or 5 $ of Supply Maximum Water Velocity is 13.1 fps LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 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 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT} (GPM/(PSI^~)) (PSI) (GPM} (GPM) (GPM/SQ.FT) 1 20.12 25.20 15.4 99.0 97.6 1.06 2 20.12 25.20 15.0 97.7 97.6 1.05 3 20.12 25.20 15.0 97.6 97.6 1.05 4 20.12 25.20 15.1 97.9 97.6 1.05 5 19.93 25.20 15.5 99.1 97.6 1.07 6 19.93 25.20 15.1 97.8 97.6 1.05 7 19.93 25.20 15.0 97.7 97.6 1.05 8 19.93 25.20 15.1 98.0 97.6 1.05 9 19.74 25.20 15.2 98.3 97.6 1.06 10 19.74 25.20 15.2 98.1 97.6 1.06 11 19.74 25.20 15.2 98.4 97.6 1.06 12 19.74 25.20 15.6 99.6 97.6 1.07 13 20.31 21.5 14 20.31 21.5 16 20.12 19.6 17 20.12 20.2 19 19.93 19.6 20 19,93 20.3 22 19.74 19.7 23 19.74 20.4 30 19.77 22.0 31 19.77 22.0 32 19.77 22.0 70 19.74 21.1 71 19.74 20.4 72 19.74 18.5 73 19.74 19.4 74 19.93 21.0 75 19.93 20.4 76 19.93 18.4 77 19.93 19.5 78 20.12 20.9 79 20.12 20.3 80 20.12 18.3 81 20.12 19.5 82 20.31 21.5 83 20.31 21.5 84 20.31 21.9 85 20.28 21.6 86 20.28 21.7 87 20.28 22.0 88 20.03 21.7 89 20.03 21.8 90 20.03 22.3 91 19.77 21,g 92 19.77 22.5 Al 1$.17 22.3 A2 18.17 22.3 A3 18.17 22.3 A4 18.17 22.3 A5 18.17 22,q LES SCHWAS TIRE CENTER Drawing Date:07-26-2010 7/27/IO 11:47 Page 5 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/(PSI^~)) (PSI) (GPM) (GPM) (GPM/SQ.FT) A6 ~ 18.17 22,5 A7 18.17 22.5 A8 18.17 23.4 A9 2.00 33.1 A10 2.00 33.2 C1 18.17 22,7 C2 18.17 22,7 C3 18.17 22,7 C4 18.17 22,9 C5 18.17 23.0 C6 18.17 23.2 C7 18.17 23.3 W -4.00 36.4 Max velocity of 13.05 occurs in the pipe from 12 TO 73 LES SCHIvAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 7 TO W (PRIMARY PATH) 60.91 2.731 9.33 15.0 15.0 K = 15.71 7 c=12o o.oo o.o o.o 60.91 0.010 9.33 0.1 15.0 Vel = 3.37 97.99 2.731 56.76 15.1 15.1 K = 25.20 8 C=120 0.00 0.0 0.0 158.90 0.057 56.76 3.2 15.1 Vel = 8.79 2.731 22.40 18.4 18.4 76 C=120 0.00 0.0 0.0 158.90 0.057 22.40 1.3 18.4 Vel = 8.79 2.731 11.00 19.6 19.6 19 C=120 0.00 0.0 0.0 158.90 0.057 11.00 0.6 19.6 Vel = 8.79 2.731 1.71 20.3 20.3 20 C=120 0.00 0.0 0.0 158.90 0.057 1.71 0.1 20.3 Vel = 8.79 3.340 1T 6.00 20.4 20.4 75 C=120 22.69 0.0 0.0 158.90 0.021 28.69 0.6 20.4 Vel = 5.88 3.340 1T 1.76 21.0 21.0 74 C=120 22.69 0.8 0.0 158.90 0.021 24.45 0.5 21.0 Vel = 5.88 158.35 6.357 8.67 22.3 22.3 A2 C=120 0.00 0.0 0.0 See PATH 3 317.25 0.003 8.67 0.0 22.3 Vel = 3.24 158.54 6.357 8.67 22.3 22.3 A3 C=120 0.00 0.0 0.0 See PATH 5 475.78 0.007 8.67 0.1 22.3 Vel = 4.86 -29.78 6.357 9.50 22.3 22.3 A4 C=120 0.00 0.0 0.0 See PATH 7 446.01 0.006 9.50 0.1 22.3 Vel = 4.55 -32.54 6.357 9.17 22.4 22.4 A5 C=120 0.00 0.0 0.0 See PATH 8 413.47 0.005 9.17 0.1 22.4 Vel = 4.22 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 7 TO W {PRIMARY PATH) -35.58 6.357 9.17 22.5 22.5 A6 C=120 0.00 0.0 0.0 See PATH 9 377.89 0.005 9.17 0.0 22.5 Vel = 3.86 -38.96 6.357 1E 171.13 22.5 22.5 A7 C=120 1T 55.32 0.0 0.0 See PATH 10 338.94 0.004 226.45 0.9 22.5 Vel = 3.46 840.25 6.357 lE 17.69 23.4 23.4 A8 C=120 1T 55.32 7.0 0.0 See PATH 2 1179.18 0.038 73.01 2.8 23.4 Vel = 12.04 8.249 1.65 33.1 33.1 A9 C=120 0.00 0.0 0.0 1179.18 0.011 1.65 0.0 33.1 Vel = 7.15 8.249 2E 14.85 33.2 33.2 A10 C=120 40.04 2.6 0.0 1179.18 0.011 54.88 0.6 33.2 Vel = 7.15 W 1179.18 36.4 K = 195.58 PATH 2 FROM HYDRAULIC REFERENCE 7 TO A8 36.79 2.731 10.67 15.0 15.0 K = 9.49 7 C=120 0.00 0.0 0.0 36.79 0.004 10.67 0.0 15.0 Vel = 2.03 97.83 2.731 9.33 15.1 15.1 K = 25.20 6 C=120 0.00 0.0 0.0 134.62 0.042 9.33 0.4 15.1 Vel = 7.45 99.09 2.731 34.67 15.5 15.5 K = 25.20 5 C=120 0.00 0.0 0.0 233.72 0.116 34.67 4.0 15.5 Vel = 12.93 3.340 2T 9.76 19.5 19.5 77 C=120 45.37 0.8 0.0 233.72 0.044 55.13 2.4 19.5 Vel = 8.64 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHItiAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 2 FROM HYDRAULIC REFERENCE 7 TO A8 CONTINUED 236.00 6.357 8.67 22.7 22.7 C2 C=120 0.00 0.0 0.0 See PATH 4 469.72 0.007 8.67 0.1 22.7 Vel = 4.79 233.68 6.357 8.67 22.7 22.7 C3 C=120 0.00 0.0 0.0 See PATH 6 703.40 0.015 8.67 0.1 22.7 Vel = 7.18 29.78 6.357 9.50 22.9 22.9 C4 C=120 0.00 0.0 0.0 See PATH 7 733.18 0.016 9.50 0.1 22.9 Vel = 7.48 32.54 6.357 9.17 23.0 23.0 C5 C=120 0.00 0.0 0.0 See PATH 8 765.71 0.017 9.17 0.2 23.0 Vel = 7.82 35.58 6.357 9.17 23.2 23.2 C6 C=120 0.00 0.0 0.0 See PATH 9 801.29 0.019 9.17 0.2 23.2 Vel = 8.18 38.96 6.357 1.25 23.3 23.3 C7 C=120 0.00 0.0 0.0 See PATH 10 840.25 0.020 1.25 0.0 23.3 Vel = 8.58 A8 840.25 23.4 K = 173.86 PATH 3 FROM HYDRAULIC REFERENCE 10 TO A2 59.94 2.731 9.33 15.2 15.2 K = 15.39 10 C=120 0.00 0.0 0.0 59.94 0.009 9.33 0.1 15.2 Vel = 3.32 98.41 2.731 56.76 15.2 15.2 K = 25.20 11 C=120 0.00 0.0 0.0 158.35 0.057 56.76 3.2 15.2 Vel = 8.76 2.731 22.40 18.5 18.5 72 C=120 0.00 0.0 0.0 158.35 0.057 22.40 1.3 18.5 Vel = 8.76 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 9 HYD. 4a DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ***** ** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 10 TO A2 CONTINUED 2.731 11.00 19.7 19.7 22 C=120 0.00 0.0 0.0 158.35 0.057 11.00 0.6 19.7 Vel = 8.76 2.731 1.51 20.4 20.4 23 C=120 0.00 0.0 0.0 158.35 0.057 1.51 0.1 20.4 Vel = 8.76 3.340 1T 6.21 20.4 20.4 71 C=120 22.69 0.0 0.0 158.35 0.021 28.89 0.6 20.4 Vel = 5.86 3.340 1T 1.57 21.1 21.1 70 C=120 22.69 0.7 0.0 158.35 0.021 24.26 0.5 21.1 Vel = 5.86 6.357 8.67 22.3 22.3 Al C=120 0.00 0.0 0.0 158.35 0.001 8.67 0.0 22.3 Vel = 1.62 A2 158.35 22.3 K = 33.56 PATH 4 FROM HYDRAULIC REFERENCE 10 TO C2 38.16 2.731 10.67 15.2 15.2 K = 9.81 10 C=120 0.00 0.0 0.0 38.18 0.004 10.67 0.0 15.2 Vel = 2.11 98.26 2.731 9.33 15.2 15.2 K = 25.20 9 C=120 0.00 0.0 0.0 136.45 0.043 9.33 0.4 15.2 Vel = 7.55 99.55 2.731 32.17 15.6 15.6 K = 25.20 12 C=120 0.00 0.0 0.0 236.00 0.118 32.17 3.8 15.6 Vel = 13.05 3.340 2T 12.07 19.4 19.4 73 C=120 45.37 0.7 0.0 236.00 0.044 57.44 2.6 19.4 Vel = 8.73 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 II:47 Tyco Fire Products Page 10 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv **** *** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 4 FROM HYDRAULIC REFERENCE 10 TO C2 CONTINUED 6.357 8.67 22.7 22.7 C1 C=120 0.00 0.0 0.0 236.00 0.002 8.67 0.0 22.7 Vel = 2.41 C2 236.00 22.7 K = 49.57 PATH 5 FROM HYDRAULIC REFERENCE 3 TO A3 60.65 2.731 9.33 15.0 15.0 K = 15.66 3 C=120 0.00 0.0 0.0 60.65 0.010 9.33 0.1 15.0 Vel = 3.35 97.89 2.731 56.76 15.1 15.1 K = 25.20 4 C=120 0.00 0.0 0.0 158.54 0.057 56.76 3.2 15.1 Vel = 8.77 2.731 22.40 18.3 18.3 80 C=120 0.00 0.0 0.0 158.54 0.057 22.40 1.3 18.3 Vel = 8.77 2.731 11.00 19.6 19.6 16 C=120 0.00 0.0 0.0 158.54 0.057 11.00 0.6 19.6 Vel = 8.77 2.731 1.71 20.2 20.2 17 C=120 0.00 0.0 0.0 158.54 0.057 1.71 0.1 20.2 Vel = 8.77 3.340 1T 6.00 20.3 20.3 79 C=120 22.69 0.0 0.0 158.54 0.021 28.69 0.6 20.3 Vel = 5.86 3.340 1T 1.95 20.9 20.9 78 C=120 22.69 0.8 0.0 158.54 0.021 24.64 0.5 20.9 Vel = 5.86 A3 158.54 22.3 K = 33.58 PATH 6 FROM HYDRAULIC REFERENCE 3 TO C3 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHGVAB ZIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Produc ts Page 11 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 6 FROM HYDRAULIC REFERENCE 3 TO C3 CONTINUED 36.95 2.731 10.67 15.0 15.0 K = 9.54 3 C=120 0.00 0.0 0.0 36.95 0.004 10.67 0.0 15.0 Vel = 2.04 97.73 2.731 9.33 15.0 15.0 K = 25.20 2 C=120 0.00 0.0 0.0 134.69 0.042 9.33 0.4 15.0 Vel = 7.45 99.00 2.731 34.67 15.4 15.4 K = 25.20 1 C=120 0.00 0.0 0.0 233.68 0.116 34.67 4.0 15.4 Vel = 12.92 3.340 2T 9.95 19.5 19.5 81 C=120 45.37 0.8 0.0 233.68 0.044 55.33 2.4 19.5 Vel = 8.64 C3 233.68 22.7 K = 49.02 PATH 7 FROM HYDRAULIC REFERENCE A4 TO C4 29.78 3.340 2T 2.15 22.3 22.3 A4 C=120 45.37 -0.9 0.0 See PATH 1 29.78 0.001 47.52 0.0 22.3 Vel = 1.10 3.340 6.00 21.5 21.5 82 C=120 0.00 0.0 0.0 29.78 0.001 6.00 0.0 21.5 Vel = 1.10 2.731 1.71 21.5 21.5 83 C=120 0.00 0.0 0.0 29.78 0.003 1.71 0.0 21.5 Vel = 1.65 2.731 11.00 21.5 21.5 14 C=120 0.00 0.0 0.0 29.78 0.003 11.00 0.0 21.5 Vel = 1.65 2.731 143.16 21.5 21.5 13 C=120 0.00 0.0 0.0 29.78 0.003 143.16 0.4 21.5 Vel = 1.65 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCH~vAB TIRE CENTER Drawing Date:07-26-2010 Tyco Fire Products 7/2 7/z 0 11:4 7 Page 12 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG' S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 7 FROM HYDRAULIC REFERENCE A4 TO C4 CONTINUED 3.340 2T 10.15 21.9 21.9 84 C=120 45.37 0.9 0.0 29.78 0.001 55.52 0.1 21.9 Vel = 1.10 C4 29.78 22.9 K = 6.23 PATH 8 FROM HYDRAULIC REFERENCE A5 TO CS 32.54 3.340 2T 8.11 22.4 22.4 A5 C=120 45.37 -0.9 0.0 See PATH 1 32.54 0.001 53.49 0.1 22.4 Vel = 1.20 2.731 35.11 21.6 21.6 85 C=120 0.00 0.0 0.0 32.54 0.003 35.11 0.1 2I.6 Vet = 1.80 2.731 120.71 21.7 21.7 86 C=120 0.00 0.0 0.0 32.54 0.003 120.71 0.4 21.7 Vel = 1.80 3.340 2T 10.17 22.0 22.0 87 C=120 45.37 Q.9 0.0 32.54 0.001 55,54 0.1 22.0 Vel = 1.20 C5 32.54 23.0 K = 6.78 PATH 9 FROM HYDRAULIC REFERENCE A6 TO C6 35.58 3.340 2T 7.86 22.5 22.5 A6 C=120 45.37 -0.8 0.0 See PATH 1 35.58 0.001 53.23 0.1 22.5 Vel = 1.32 2.731 35,II 21.7 21.7 88 C=120 0.00 0.0 0.0 35.58 0.004 35.11 0.1 21.7 Vel = 1.97 UNITS - DIAMETER (INCH) LENGTH (FOOT} FLOW (GPM) PRESSURE (PSI) LES SCHGVAB ZIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 13 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 9 FROM HYDRAULIC REFERENCE A6 TO C6 CONTINUED 2.731 120.71 21.8 21.8 89 C=120 O.OD 0.0 0.0 35.58 0.004 120.71 0.4 21.8 Vel = 1.97 3.340 2T 9.92 22.3 22.3 90 C=120 45.37 0.8 0.0 35.58 0.001 55.29 0.1 22.3 Vel = 1.32 C6 35.58 23.2 K = 7.39 PATH 10 FROM HYDRAULIC REFERENCE A7 TO C7 38.96 3.340 2T 7.60 22.5 22.5 A7 C=120 45.37 -0.7 0.0 See PAT H 1 38.96 0.002 52.97 0.1 22.5 Vel = 1.44 2.731 23.21 21.9 21.9 91 C=120 0.00 0.0 0.0 38.96 0.004 23.21 0.1 21.9 Vel = 2.15 2.731 4.00 22.0 22.0 32 C=120 0.00 0.0 0.0 38.96 0.004 4.00 0.0 22.0 Vel = 2.15 2.731 8.00 22.0 22.0 31 C=120 0.00 0.0 0.0 38.96 0.004 8.00 0.0 22.0 Vel = 2.15 2.731 120.61 22.0 22.0 30 C=120 0.00 0.0 0.0 38.96 0.004 120.61 0.5 22.0 Vel = 2.15 3.340 2T 9.66 22.5 22.5 92 C=120 45.37 0.7 0.0 38.96 0.002 55.03 0.1 22.5 Vel = 1.44 C7 38.96 23.3 K = 8.07 UNITS - DIAMETER (TNCH) LENGTH (FOOT} FLOW (GPM) PRESSURE (PSI) Job LES SCHWAB TIRE CENTER 805 EAST YELM AVE YELM, WASHINGTON Remote Area: 1 70 60 50 40 P S I 30 20 ~n 10.4 Water Required Static Pres: 53.0 psi Pressure: 42.1 psi Resid. Pres: 47.0 psi Sys Flow: 1179 gpm Flow: 1160 gpm Sys+Hose: 1429 gpm Date: Safety Pres: 2.0 psi Loc: SITE Hd Elv Pres: 10.4 psi Hose Allowance In: 0 gpm Out: 250 gpm ouu. 4ou nuu r5u 900 1050 1200 1350 1500 Flow (gpm) LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 HYDRAULIC DESIGN INFORMATION SHEET Job Name: LES SCHWAB TIRE CENTER Location: 805 EAST YELM AVE YELM, WASHINGTON Drawing Date: 07-26-2010 Contractor: EMERALD FIRE PROTECTION 110210 CRAMER ROAD KPN GIG HARBOR, WASHINGTON 98329 Designer: MIKE/NICK Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: STEEL FRAME Reviewing Authorities:YELM 7/27/10 11:47 Remote Area Number: 2 Telephone:l-800-673-8791 Occupancy:TIRE STORE SYSTEM DESIGN Code:NFPA 13 Hazard:ESFR System Type:WET Area of Sprinkler Oper. 1200 sq ftl Sprinkler or Nozzle Density (gpm/sq ft) 0.996 I Make: TYCO Area per Sprinkler 100.0 sq ftl Model: ESFR-25 Hose Allowance Inside 0 gpm I K-Factor:25.20 Hose Allowance Outside 250 gpm I Temperature Rating: 165 CALCULATION SUMMARY 12 Flowing Outlets gpm Required: 1448.1 psi Required: 39.5 @ City Supply WATER SUPPLY Water Flow Test I Pump Data I Date of Test I Rated Capacity 0 gpm I Static Pressure 53.0 psi I Rated Pressure 0.0 psi I Residual Pres 47.0 psi I Elevat ion 0 I At a Flow of 1160 gpm I Make: I Elevation 0" I Model: I Location: SITE Source of Information: YSTEM VOLUME 1039 Gallons 'b Notes: LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 HYDRAULIC CALCULATION DETAILS HYDRAULIC FLOW LOSS QTY DESCRIPTION LENGTH C ID gpm psi TOTALS Hydr Ref W Required at Hyd Area 2 1198 33.6 psi 1 6" Fingd Butterfly Valve CSC "A" ZO' 120 6.065 1198 0.5 Total Loss for Riser 0.5 psi Hydr Ref R1 Required at Base of Riser 1198 34.1 psi 1 8" MJ Tee ?Take Out? 35' 120 8.071 1198 0.4 1 10" x 8" Fingd Reducer 0' 120 10.140 1198 0.0 1 8" Fingd Gate Valve CSC "722U" 4' 120 8.071 1198 0.0 2 10" MJ 90 E11 0' 120 10.140 1198 0.0 1 Pipe 10" DTxl8 C1 52 20' 140 10.750 1198 0.0 2 10" MJ 45 Ell 0' 120 10.140 1198 0.0 1 10" Fingd Back Flow Valve WILKINS CHART LOSS 1198 4.7 1 Pipe 10" DIx18 C1 52 60' 140 10.750 1198 0.1 Fixed Flow Outside Hose Stream 250 gpm Total Loss for Underground 5.4 psi Hydr Ref R2 Required at City Supply 1448 39.5 psi Water Source 53.0 psi static, 47.0 psi residual @ 1160 gpm 1448 gpm 44.0 psi SAFETY PRESSURE 4.5 psi Available Pressure of 44.0 psi Exceeds Required Pressure of 39.5 psi This is a safety margin of 4.5 psi or 10 $ of Supply Maximum Water Velocity is 12.2 fps LES SCHGvAB ZIRE CENZER Drawing Date:07-26-2010 7/27/10 11:47 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 90' Standard Elbow F 45' Elbow S Straight Fiow 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 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/(PSI^~)) (PSI) (GPM) (GPM) (GPM/SQ.FT) 1 20.12 18.2 2 20.12 18.0 3 20.12 17.7 4 20.12 17.5 5 19.93 18.2 6 19.93 18.0 7 19.93 17.8 8 19.93 17.5 9 19.74 18.1 10 19.74 17.9 11 19.74 17.6 12 19.74 18.3 13 20.31 25.20 15.6 99.6 99.6 1.00 14 20.31 25.20 15.6 99.6 99.6 1.00 15 20.31 25.20 15.7 99.9 99.6 1.00 16 20.12 25.20 15.6 99.6 99.6 1.00 17 20.12 25.20 15.6 99.6 99.6 1.00 18 20.12 25.20 15.7 99.9 99.6 1.00 19 19.93 25.20 15.7 99.8 99.6 1.00 20 19.93 25.20 15.7 99.8 99.6 1.00 21 19.93 25.20 15.8 100.0 99.6 1.00 22 19.74 25.20 15.8 100.0 99.6 1.00 23 19.74 25.20 15.8 100.0 99.6 1.00 24 19.74 25.20 15.8 100.3 99.6 1.00 30 19.77 18.1 31 19.77 18.0 32 19.77 18.0 70 19.74 16.1 71 19.74 15.8 72 19.74 16.3 73 19.74 19.1 74 19.93 16.0 75 19.93 15.7 76 19.93 16.2 77 19.93 19.1 78 20.12 15.9 79 20.12 15.7 80 20.12 16.2 81 20.12 19.0 82 20.31 15.9 83 20.31 15.7 84 20.31 18.9 85 20.28 17.2 86 20.28 17.7 87 20.28 19.2 88 20.03 17.5 89 20.03 17.9 90 20.03 19.4 91 19.77 17.7 92 19.77 19.6 Al 18.17 17.5 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 5 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/(PSI~~)) (PSI) (GPM) (GPM) {GPM/SQ.FT) A2 18.17 17.5 A3 18.17 17.6 A4 18.17 17.7 A5 18.17 17.9 A6 18.17 18.0 A7 18.17 18.1 A8 18.17 20.5 A9 2.00 30.4 A10 2.00 30.4 Cl 18.17 20.3 C2 18.17 20.3 C3 18.17 20.3 C4 18.17 20.3 C5 18.17 20.4 C6 18.17 20.5 C7 18.17 20.5 w -4.00 33.6 Max velocity of 12.23 occurs in the pipe from A8 TO A9 LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 22 TO W (PRIMARY PATH) 99.27 2.731 22.40 15.8 15.8 K = 25.01 22 C=120 0.00 0.0 0.0 99.27 0.024 22.40 0.5 15.8 Vel = 5.49 2.731 56.76 16.3 16.3 72 C=120 0.00 0.0 0.0 99.27 0.024 56.76 1.4 16.3 Vel = 5.49 2.731 9.33 17.6 17.6 11 C=120 0.00 0.0 0.0 99.27 0.024 9.33 0.2 17.6 Vel = 5.49 2.731 10.67 17.9 17.9 10 C=120 0.00 0.0 0.0 99.27 0.024 10.67 0.3 17.9 Vel = 5.49 2.731 9.33 18.1 18.1 9 C=120 0.00 0.0 0.0 99.27 0.024 9.33 0.2 18.1 Vel = 5.49 2.731 32.17 18.3 18.3 12 C=120 0.00 0.0 0.0 99.27 0.024 32.17 0.8 18.3 Vel = 5.49 3.340 2T 12.07 19.1 19.1 73 C=120 45.37 0.7 0.0 99.27 0.009 57.44 0.5 19.1 Vel = 3.67 6.357 8.67 20.3 20.3 C1 C=120 0.00 0.0 0.0 99.27 0.000 8.67 0.0 20.3 Vel = 1.01 98.72 6.357 8.67 20.3 20.3 C2 C=120 0.00 0.0 0.0 See PATH 3 197.99 0.001 8.67 0.0 20.3 Vel = 2.02 98.34 6.357 8.67 20.3 20.3 C3 C=120 0.00 0.0 0.0 See PATH 5 296.33 0.003 8.67 0.0 20.3 Vel = 3.02 97.57 6.357 9.50 20.3 20.3 C4 C=120 0.00 0.0 0.0 See PATH 9 393.90 0.005 9.50 0.0 20.3 Vel = 4.02 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM} PRESSURE (PSI) LES SCHWAS TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 22 TO W (PRIMARY PATH) 71.00 6.357 9.17 20.4 20.4 C5 C=120 0.00 0.0 0.0 See PATH 13 464.90 0.007 9.17 0.1 20.4 Vel = 4.75 69.78 6.357 9.17 20.5 20.5 C6 C=120 0.00 0.0 0.0 See PATH 14 534.69 0.009 9.17 0.1 20.5 Vel = 5.46 69.21 6.357 1.25 20.5 20.5 C7 C=120 0.00 0.0 0.0 See PATH 15 603.89 0.011 1.25 0.0 20.5 Vel = 6.16 594.17 6.357 lE 17.69 20.5 20.5 A8 C=120 1T 55.32 7.0 0.0 See PATH 2 1198.06 0.039 73.01 2.9 20.5 Vel = 12.23 8.249 1.65 30.4 30.4 A9 C=120 0.00 0.0 0.0 1198.06 0.011 1.65 0.0 30.4 Vel = 7.26 8.249 2E 14.85 30.4 30.4 A10 C=120 40.04 2.6 0.0 1198.06 0.011 54.88 0.6 30.4 Vel = 7.26 W 1198.06 33.6 K = 206.55 PATH 2 FROM HYDRAULIC REFERENCE 22 TO A8 0.74 2.731 11.00 15.8 15.8 K = 0.19 22 C=120 0.00 0.0 0.0 0.74 0.000 11.00 0.0 15.8 Vel = 0.04 100.01 2.731 1.51 15.8 15.8 K = 25.20 23 C=120 0.00 0.0 0.0 100.75 0.025 1.51 0.0 15.8 Vel = 5.57 3.340 1T 6.21 15.8 15.8 71 C=120 22.69 0.0 0.0 100.75 0.009 28.89 0.3 15.8 Vel = 3.73 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHVuAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 2 FROM HYDRAULIC REFERENCE 22 TO A8 CONTINUED 100.27 3.340 1T 1.57 16.1 16.1 70 C=120 22.69 0.7 0.0 See PATH 7 201.02 0.033 24.26 0.8 16.1 Vel = 7.43 6.357 8.67 17.5 17.5 Al C=120 0.00 0.0 0.0 201.02 0.001 8.67 0.0 17.5 Vel = 2.05 200.83 6.357 8.67 17.5 17.5 A2 C=120 0.00 0.0 0.0 See PATH 4 401.85 0.005 8.67 0.0 17.5 Vel = 4.10 200.79 6.357 8.67 17.6 17.6 A3 C=120 0.00 0.0 0.0 See PATH 6 602.64 0.011 8.67 0.1 17.6 Vel = 6.15 201.52 6.357 9.50 17.7 17.7 A4 C=120 0.00 0.0 0.0 See PATH 10 804.16 0.019 9.50 0.2 17.7 Vel = 8.21 -71.00 6.357 9.17 17.9 17.9 A5 C=120 0.00 0.0 0.0 See PATH 13 733.15 0.016 9.17 0.1 17.9 VeI = 7.48 -69.78 6.357 9.17 18.0 18.0 A6 C=120 0.00 0.0 0.0 See PATH 14 663.37 0.013 9.17 0.1 18.0 Vel = 6.77 -69.21 6.357 1E 171.13 18.1 18.1 A7 C=120 1T 55.32 0.0 0.0 See PATH 15 594.17 0.011 226.45 2.4 18.1 Vel = 6.06 A8 594.17 20.5 K = 131.07 PATH 3 FROM HYDRAULIC REFERENCE 19 TO C2 98.72 2.731 22.40 15.7 15.7 K = 24.94 19 C=120 0.00 0.0 0.0 98.72 0.024 22.40 0.5 15.7 Vel = 5.46 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM} PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ***** ** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 19 TO C2 CONTINUED 2.732 56.76 16.2 16.2 76 C=120 0.00 0.0 0.0 98.72 0.024 56.76 1.3 16.2 Vel = 5.46 2.731 9.33 17.5 17.5 8 C=120 0.00 0.0 0.0 98.72 0.024 9.33 0.2 17.5 vel = 5.46 2.731 10.67 17.8 17.8 7 C=120 0.00 0.0 0.0 98.72 0.024 10.67 0.3 17.8 Vel = 5.46 2.731 9.33 18.0 18.0 6 C=120 0.00 0.0 0.0 98.72 0.024 9.33 0.2 18.0 Vel = 5.46 2.731 34.67 18.2 18.2 5 C=120 0.00 0.0 0.0 98.72 0.024 34.67 0.8 18.2 Vel = 5.46 3.340 2T 9.76 19.1 19.1 77 C=120 45.37 0.8 0.0 98.72 0.009 55.13 0.5 19.1 Vel = 3.65 C2 98.72 20.3 K = 21.91 PATH 4 FROM HYDRAULIC REFERENCE 19 TO A2 1.04 2.731 11.00 15.7 15.7 K = 0.25 19 C=120 0.00 0.0 0.0 1.04 0.000 11.00 0.0 15.7 Vel = 0.06 99.76 2.731 1.71 15.7 15.7 K = 25.20 20 C=120 0.00 0.0 0.0 100.80 0.025 1.71 0.0 15.7 Vel = 5.57 3.340 1T 6.00 15.7 15.7 75 C=120 22.69 0.0 0.0 100.80 0.009 28.69 0.3 15.7 Vel = 3.73 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB ZIRE CENZER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 10 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ***** ** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 4 FROM HYDRAULIC REFERENCE 19 TO A2 CONTINUED 100.03 3.340 1T 1.76 16.0 16.0 74 C=120 22.69 0.8 0.0 See P ATH 8 200.83 0.033 24.45 0.8 16.0 Vel = 7.43 A2 200.83 17.5 K = 47.94 PATH 5 FROM HYDRAULIC REFERENCE 16 TO C3 98.34 2.731 22.40 15.6 15.6 K = 24.88 16 C=120 0.00 0.0 0.0 98.34 0.023 22.40 0.5 15.6 Vel = 5.44 2.731 56.76 16.2 16.2 80 C=120 0.00 0.0 0.0 98.34 0.023 56.76 1.3 16.2 Vel = 5.44 2.731 9.33 17.5 17.5 4 C=120 0.00 0.0 0.0 98.34 0.023 9.33 0.2 17.5 Vel = 5.44 2.731 10.67 17.7 17.7 3 C=120 0.00 0.0 0.0 98.34 0.023 10.67 0.3 17.7 Vel = 5.44 2.731 9.33 18.0 18.0 2 C=120 0.00 0.0 0.0 98.34 0.023 9.33 0.2 18.0 Vel = 5.44 2.731 34.67 18.2 18.2 1 C=120 0.00 0.0 0.0 98.34 0.023 34.67 0.6 18.2 Vel = 5.44 3.340 2T 9.95 19.0 19.0 81 C=120 45.37 0.8 0.0 98.34 0.009 55.33 0.5 19.0 Vel = 3.64 C3 98.34 20.3 K = 21.82 PATH 6 FROM HYDRAULIC REFERENCE 16 TO A3 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHwAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Page lI HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 6 FROM HYDRAULIC REFERENCE 16 TO A3 CONTINUED 1.28 2.731 11,00 15.6 15.6 K = 0.32 16 C=120 0,00 0.0 0.0 1.28 0.000 11.00 0.0 15.6 Vel = 0.07 99.61 2.731 1.71 15.6 15.6 K = 25.20 17 C=120 0,00 0.0 0.0 100.89 0.025 1.71 0.0 15.6 Vel = 5.58 3.340 1T 6.00 15.7 15.7 79 C=120 22.69 0.0 0.0 100.89 0.009 28.69 0.3 15.7 Vel = 3.73 99.89 3.340 1T 1.95 15.9 15.9 78 C=120 22.69 0.8 0.0 See PATH 11 200.79 0.033 24.64 0.8 15.9 Vel = 7.42 A3 200.79 17.6 K = 47.87 PATH 7 FROM HYDRAULIC REFERENCE 24 TO 70 100.27 3.340 1T 1.54 15.8 15.8 K = 25.20 24 C=120 22.69 0.0 0.0 100.27 0.009 24.22 0.2 15.8 Vel = 3.71 70 100.27 16.1 K = 25.03 PATH 8 FROM HYDRAULIC REFERENCE 21 TO 74 100.03 3.340 1T 1.54 15.8 15.8 K = 25.20 21 C=120 22.69 0.0 0.0 100.03 0.009 24.22 0.2 15.8 Vel = 3.70 74 100.03 16.0 K = 25.03 PATH 9 FROM HYDRAULIC REFERENCE 13 TO C4 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Product s Page 12 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT 4t Pf/ft TOTAL Pf Pn PATH 9 FROM HYDRAULIC REFERENCE 13 TO C4 CONTINUED 97.57 2.731 143.16 15.6 15.6 K = 24.69 13 C=120 0.00 0.0 0.0 97.57 0.023 143.16 3.3 15.6 Vel = 5.40 3.340 2T 10.15 18.9 18.9 84 C=120 45.37 0.9 0.0 97.57 0.009 55.52 0.5 18.9 Vel = 3.61 C4 97.57 20.3 K = 21.63 PATH 10 FROM HYDRAULIC REFERENCE 13 TO A4 2.03 2.731 11.00 15.6 15.6 K = 0.51 13 C=120 0.00 0.0 0.0 2.03 0.000 11.00 0.0 15.6 Vel = 0.11 99.60 2.731 1.71 15.6 15.6 K = 25.20 14 C=120 0.00 0.0 0.0 101.63 0.025 1.71 0.0 15.6 Vel = 5.62 3.340 1T 6.00 15.7 15.7 83 C=120 22.69 0.0 0.0 101.63 0.009 28.69 0.3 15.7 Vel = 3.76 99.89 3.340 1T 2.15 15.9 15.9 82 C=120 22.69 0.9 0.0 See PATH 12 201.52 0.033 24.83 0.8 15.9 Vel = 7.45 A4 201.52 17.7 K = 47.92 PATH 11 FROM HYDRAULIC REFERENCE 18 TO 78 99.89 3.340 1T 1.54 15.7 15.7 K = 25.20 18 C=120 22.69 0.0 0.0 99.89 0.009 24.22 0.2 15.7 Vel = 3.69 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE {PSI) LES SCHitiAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 13 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn 78 99.89 15.9 K = 25.03 PATH 12 FROM HYDRAULIC REFERENCE 15 TO 82 99.89 3.340 1T 1.54 15.7 15.7 K = 25.20 15 C=120 22.69 0.0 0.0 99.89 0.009 24.22 0.2 15.7 Vel = 3.69 82 99.89 15.9 K = 25.03 PATH 13 FROM HYDRAULIC REFERENCE A5 TO C5 71.00 3.340 2T 8.11 17.9 17.9 A5 C=120 45.37 -0.9 0.0 See PATH 2 71.00 0.005 53.49 0.3 17.9 Vel = 2.63 2.731 35.11 17.2 17.2 85 C=120 0.00 0.0 0.0 71.00 0.013 35.11 0.5 17.2 Vel = 3.93 2.731 120.71 17.7 17.7 86 C=120 0.00 0.0 0.0 71.00 0.013 120.71 1.6 17.7 Vel = 3.93 3.340 2T 10.17 19.2 19.2 87 C=120 45.37 0.9 0.0 71.00 0.005 55.54 0.3 19.2 Vel = 2.63 C5 71.00 20.4 K = 15.72 PATH 14 FROM HYDRAULIC REFERENCE A6 TO C6 69.78 3.340 2T 7.86 18.0 18.0 A6 C=120 45.37 -0.8 0.0 See PATH 2 69.78 0.005 53.23 0.2 1.8.0 Vel = 2.58 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHGVAB ZIRE CENTER Drawing Date:07-26- 2010 7/27/IO 11:47 Tyco Fire Products Paqe 14 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG`S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 14 FROM HYDRAULIC REFERENCE A6 TO C6 CONTINUED 2.731 35.11 17.5 17.5 88 C=120 0.00 0.0 0.0 69.78 0.012 35.11 0.4 17.5 Vel = 3.86 2.731 120.71 17.9 17.9 89 C=120 0.00 0.0 0.0 69.78 0.012 120.71 1.5 17.9 Vel = 3.86 3.340 2T 9.92 19.4 19.4 90 C=120 45.37 0.8 0.0 69.78 0.005 55.29 0.3 19.4 Vel = 2.58 C6 69.78 20.5 K = 15.43 PATH 15 FROM HYDRAULIC REFERENCE A7 TO C7 69.21 3.340 2T 7.60 18.1 18.1 A7 C=120 45.37 -0.7 0.0 See PATH 2 69.21 0.005 52.97 0.2 18.1 Vel = 2.56 2.731 23.21 17.7 17.7 91 C=120 0.00 0.0 0.0 69.21 0.012 23.21 0.3 17.7 Vel = 3.83 2.731 4.00 18.0 18.0 32 C=120 0.00 0.0 D.0 69.21 0.012 4.00 0.0 18.0 Vel = 3.83 2.731 8.00 18.0 18.0 31 C=120 0.00 0.0 0.0 69.21 0.012 8.00 0.1 18.0 Vel = 3.83 2.731 120.61 18.1 18.1 30 C=120 0.00 0.0 0.0 69.21 0.012 120.61 1.5 18.1 VeI = 3.83 3.340 2T 9.66 19.6 19.6 92 C=120 45.37 0.7 0.0 69.21 0.005 55.03 0.3 19.6 Vel = 2.56 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:O7-26-2010 Tyco Fire Products 7/2 7/1 D 11:4 7 Page 15 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn C7 69.21 20.5 K = 15.27 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 7( 6( 5~ 4i P S I 3~ 2 1 Job LES SCHWAB TIRE CENTER 805 EAST YELM AVE YELM, WASHINGTON Remote Area: 2 Water Static Pres: 53.0 psi Resid. Pres: 47.0 psi Flow: 1160 gpm Date: Loc: SITE Required Pressure: 39.5 psi Sys Flow: 1198 gpm Sys+Hose: 1448 gpm Safety Pres: 4.5 psi Hd Elv Pres: 10.5 psi Hose Allowance ln: 0 gpm Out: 250 gpm 250 gpm 300 450 600 750 900 1050 1200 Flow (gpm) 1350 1500 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 HYDRAULIC DESIGN INFORMATION SHEET Job Name: LES SCHWAB TIRE CENTER Location: 805 EAST YELM AVE YELM, WASHINGTON Drawing Date: 07-26-2010 Contractor: EMERALD FIRE PROTECTION 110210 CRAMER ROAD KPN GIG HARBOR, WASHINGTON 98329 Designer: MIKE/NICK Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: STEEL FRAME Reviewing Authorities:YELM SYSTEM DESIGN 7/27/10 I 1 : 4 7 Remote Area Number: 3 Telephone:l-800-673-8791 Occupancy:TIRE STORE Code:NFPA 13 Hazard:OH GP 2 System Type:WET Area of Sprinkler Oper. 1500 sq ftI Sprinkler or Nozzle Density (gpm/sq ft) 0.200 ~ Make: GLOBE Area per Sprinkler 120.0 sq ftI Model: GL5601 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: 589.8 psi Required: 44.0 @ City Supply WATER SUPPLY Water Flow Test I Pump Data I Date of Test I Rated Capacity 0 gpm I Static Pressure 53.0 psi I Rated Pressure 0.0 psi ~ Residual Pres 47.0 psi I Elevat ion 0 ~ At a Flow of 1160 gpm I Make: ~ Elevation 0" ~ Model: ~ Location: S Source of Information: SYSTEM VOLUME 1039 Gallons Notes: i LES SCHGVAB TIRE CENTER Drawinq Date:07-26-2010 HYDRAULIC CALCULATION DETAILS HYDRAULIC QTY DESCRIPTION LENGTH C ID Hydr Ref W Required at Hyd Area 3 1 6" Fingd Butterfly Valve CSC "A" 10' 120 6.065 Total Loss for Riser Hydr Ref Rl Required at Base of Riser 1 8" MJ Tee ?Take Out? 35' 120 8.071 1 10" x 8" Fingd Reducer 0' 120 10.140 1 8" Fingd Gate Valve CSC "722U" 4' 120 8.071 2 10" MJ 90 Ell 0' 120 10.140 1 Pipe 10" DIxl8 Cl 52 20' 140 10.750 2 10" MJ 45 E11 0' 120 10.140 1 10" Fingd Back Flow Valve WILKINS CHART LOSS 1 Pipe 10" DIxl8 Cl 52 60' 140 10.750 Fixed Flow Outside Hose Stream Total Loss for Underground 7/2 7/10 11:4 7 FLOW LOSS gpm psi TOTALS 340 38.7 psi 340 0.0 0.0 psi 340 38.7 psi 340 0.0 340 0.0 340 0.0 340 0.0 340 0.0 340 0.0 340 5.2 340 0.0 250 gpm Hydr Ref R2 Required at City Supply 590 Water Source 53.0 psi static, 47.0 psi residual @ 1160 gpm 590 gpm SAFETY PRESSURE Available Pressure of 51.3 psi Exceeds Required Pressure of 44.0 psi This is a safety margin of 7.3 psi or 14 $ of Supply Maximum Water Velocity is 19.1 fps 5.3 psi 44.0 psi 51.3 psi 7.3 psi LES SCHWAS TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 FITTING NAME TABLE ABBREV. NAME C Coupling E 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 Page 3 i LES SCHItiAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 4 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/(PSI^'-f)) (PSI) (GPM) (GPM) (GPM/SQ.FT) 1 20.12 27.7 2 20.12 27.7 3 20.12 27.7 4 20.12 27.7 5 19.93 27.8 6 19.93 27.8 7 19.93 27.8 8 19.93 27.8 9 19.74 27.9 10 19.74 27.9 11 19.74 27.9 12 19.74 27.9 13 20.31 27.6 14 20.31 27.6 16 20.12 27.6 17 20.12 27.6 19 19.93 27.7 20 19.93 27.7 22 19.74 27.8 23 19.74 27.8 30 19.77 27.5 30S 9.00 5.60 27.9 29.6 16.0 0.37 31 19.77 27.5 31S 9.00 5.60 27.9 29.6 16.0 0.37 32 19.77 27.5 32S 9.00 5.60 27.9 29.6 20.0 0.30 33 20.03 20.1 33S 9.00 5.60 21.5 26.0 24.0 0.22 34 20.03 18.2 34S 9.00 5.60 19.8 24.9 24.0 0.21 35 20.28 19.9 35S 9.00 5.60 21.4 25.9 24.0 0.22 36 20.28 18.0 36S 9.00 5.60 19.7 24.9 24.0 0.21 37 20.12 18.3 37S 9.00 5.60 20.0 25.0 24.0 0.21 38 20.12 16.5 38S 9.00 5.60 18.4 24.0 24.0 0.20 39 19.93 19.1 39S 9.00 5.60 20.6 25.4 24.0 0.21 40 19.93 17.2 40S 9.00 5.60 18.9 24.4 24.0 0.20 41 19.74 19.8 41S 9.00 5.60 21.2 25.8 24.0 0.22 42 19.74 17.9 42S 9.00 5.60 19.5 24.8 24.0 0.21 70 19.74 27.8 71 19.74 27.8 72 19.74 27.7 73 19.74 28.0 74 19.93 27.7 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Page 5 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) {GPM/(PSI^~)) (PSI) (GPM) (GPM) (GPM/SQ.FT) 75 19.93 27.7 76 19.93 27.7 77 19.93 27.9 78 20.12 27.6 79 20.12 27.6 80 20.12 27.6 81 20.12 27.8 82 20.31 27.6 83 20.31 27.6 84 20.31 27.8 85 20.28 27.6 86 20.28 27.5 87 20.28 27.7 88 20.03 27.7 89 20.03 27.6 90 20.03 27.9 91 19.77 27.7 92 19.77 27.9 Al 18.17 28.5 A2 18.17 28.5 A3 18.17 28.5 A4 18.17 28.5 A5 18.17 28.5 A6 18.17 28.5 A7 18.17 28.5 A8 18.17 28.7 A9 2.00 36.0 A10 2.00 36.0 C1 18.17 28.7 C2 18.17 28.7 C3 18.17 28.7 C4 18.17 28.7 C5 18.17 28.7 C6 18.17 28.7 C7 18.17 28.7 W -4.00 38.7 Max velocity of 19.08 occurs in the pipe from 33 TO 89 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. I,ES SCF3fVAB ZIRE CENTER Drawing Date:07-26-2010 Tyco Fire Products 7/27/10 I 1 : 4 7 Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 FROM HYDRAULIC REFERENCE 38 TO W (PRIMARY PATH) 24.00 1.049 1T 11.12 18.4 18.4 K = 5.60 38S C=120 5.00 -4.8 0.0 24.00 0.182 16.12 2.9 18.4 Vel = 9.00 1.049 10.00 16.5 16.5 EqK = 5.91 38 C=120 0.00 0.0 0.0 24.00 0.182 10.00 1.8 16.5 Vel = 9.00 25.02 1.049 lE 6.57 18.3 18.3 EqK = 5.85 37 C=120 1T 7.00 0.0 0.0 49.02 0.683 13.57 9.3 18.3 Vel = 18.37 -23.20 2.731 56.76 27.6 27.6 80 C=120 0.00 0.0 0.0 See PATH 12 25.82 0.002 56.76 0.1 27.6 Vel = 1.43 2.731 9.33 27.7 27.7 4 C=120 0.00 0.0 0.0 25.82 0.002 9.33 0.0 27.7 Vel = 1.43 2.731 10.67 27.7 27.7 3 C=120 0.00 0.0 0.0 25.82 0.002 10.67 0.0 27.7 Vel = 1.43 2.731 9.33 27.7 27.7 2 C=120 0.00 0.0 0.0 25.82 0.002 9.33 0.0 27.7 Vel = 1.43 2.731 34.67 27.7 27.7 1 C=120 0.00 0.0 0.0 25.82 0.002 34.67 0.1 27.7 Vel = 1.43 3.340 2T 9.95 27.8 27.8 81 C=120 45.37 0.8 0.0 25.82 0.001 55.33 0.0 27.8 Vel = 0.95 52.34 6.357 8.67 28.7 28.7 C3 C=120 0.00 0.0 0.0 See PATH 2 78.16 0.000 8.67 0.0 28.7 Vel = 0.80 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAS TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11;47 Tyco Fire Products Page 7 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATS 1 FROM HYDRAULIC REFERENCE 38 TO W (PRIMARY PATH) 17.56 6.357 9.50 28.7 28.7 C4 C=120 0.00 0.0 0.0 See PATH 13 95.72 0.000 9.50 0.0 28.7 Vel. = 0.98 26.38 6.357 9.17 28.7 28.7 C5 C=120 0.00 0.0 0.0 See PATH 4 122.10 0.001 9.17 0.0 28.7 Vel = 1.25 26.52 6.357 9.17 28.7 28.7 C6 C=120 0.00 0.0 0.0 See PATH 5 148.62 0.001 9.17 0.0 28.7 Vel = 1.52 36.22 6.357 1.25 28.7 28.7 C7 C=120 0.00 0.0 0.0 See PATH 7 184.85 0.001 1.25 0.0 28.7 Vel = 1.89 154.96 6.357 lE 17.69 28.7 28.7 A8 C=120 1T 55.32 7.0 0.0 See PATH 6 339.80 0.004 73.01 0.3 28.7 Vel = 3.47 8.249 1.65 36.0 36.0 A9 C=120 0.00 0.0 0.0 339.80 0.001 1.65 0.0 36.0 Vel = 2.06 8.249 2E 14.85 36.0 36.0 A10 C=120 40.04 2.6 0.0 339.80 0.001 54.88 0.1 36.0 Vel = 2.06 W 339.80 38.7 K = 54.64 25.02 1.049 1T 11.12 20.0 20.0 K = 5.60 37S C=120 5.00 -4.8 0.0 25.02 0.197 16.12 3.2 20.0 Vel = 9.38 37 25.02 18.3 K = 5.85 PATH 2 FROM HYDRAULIC REFERENCE 44 TO C3 24.37 1.049 1T 10.93 18.9 18.9 K = 5.60 40S C=120 5.00 -4.7 0.0 24.37 0.188 15.93 3.0 18.9 Vel = 9.13 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSIj LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Paqe 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 2 FROM HYDRAULIC REFERENCE 40 TO C3 CONTINUED 1.049 10.00 17.2 17.2 EqK = 5.88 40 C=120 0.00 0.0 0.0 24.37 0.188 10.00 1.9 17.2 Vel = 9.13 25.40 1.049 lE 5.24 19.1 19.1 EqK = 5.82 39 C=120 1T 7.00 0.0 0.0 49.77 0.703 12.24 8.6 19.1 Vel = 18.66 - 23.76 2.731 56.76 27.7 27.7 76 C=120 0.00 0.0 0.0 See PATH 10 26.01 0.002 56.76 0.1 27.7 Vel = 1.44 2.731 9.33 27.8 27.8 8 C=120 0.00 0.0 0.0 26.01 0.002 9.33 0.0 27.8 Vel = 1.44 2.731 10.67 27.8 27.8 7 C=120 0.00 0.0 0.0 26.01 0.002 10.67 0.0 27.8 Vel = 1.44 2.731 9.33 27.8 27.8 6 C=120 0.00 0.0 0.0 26.01 0.002 9.33 0.0 27.8 Vel = 1.44 2.731 34.67 27.8 27.8 5 C=120 0.00 0.0 0.0 26.01 0.002 34.67 0.1 27.8 Vel = 1.44 3.340 2T 9.76 27.9 27.9 77 C=120 45.37 0.8 0.0 26.01 0.001 55.13 0.0 27.9 Vel = 0.96 26.33 6.357 8.67 28.7 28.7 C2 C=120 0.00 0.0 0.0 See PATH 3 52.34 0.000 8.67 0.0 28.7 Vel = 0.53 C3 52.34 28.7 K = 9.77 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHttiAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 II:47 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn 25.40 1.049 1T 10.93 20.6 20.6 K = 5.60 39S C=120 5.00 -4.7 0.0 25.40 0.202 15.93 3.2 20.6 Vel = 9.52 39 25.40 19.1 K = 5.82 PATH 3 FROM HYDRAULIC REFERENCE 42 TO C2 24.75 1.049 1T 10.74 19.5 19.5 K = 5.60 92S C=120 5.00 -4.6 0.0 24.75 0.193 15.74 3.0 19.5 Vel = 9.28 1.049 10.00 17.9 17.9 EqK = 5.85 42 C=120 0.00 0.0 0.0 24.75 0.193 10.00 1.9 17.9 Vel = 9.28 25.80 1.049 lE 3.90 19.8 19.8 EqK = 5.79 41 C=120 1T 7.00 0.0 0.0 50.55 0.723 10.90 7.9 19.8 Vel = 18.95 - 24.23 2.731 56.76 27.7 27.7 72 C=120 0.00 0.0 0.0 See PATH 8 26.33 0.002 56.76 0.1 27.7 Vel = 1.46 2.731 9.33 27.9 27.9 11 C=120 0.00 0.0 0.0 26.33 0.002 9.33 0.0 27.9 Vel = 1.46 2.731 10.67 27.9 27.9 10 C=120 0.00 0.0 0.0 26.33 0.002 10.67 0.0 27.9 Vel = 1.46 2.731 9.33 27.9 27.9 9 C=120 0.00 0.0 0.0 26.33 0.002 9.33 0.0 27.9 Vel = 1.46 2.731 32.17 27.9 27.9 12 C=120 0.00 0.0 0.0 26.33 0.002 32.17 0.1 27.9 Vel = 1.46 3.340 2T 12.07 28.0 28.0 73 C=120 45.37 0.7 0.0 26.33 0.001 57.44 0.0 28.0 Vel = 0.97 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/2 7/10 11:47 Tyco Fire Products Page 10 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ***** ** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 3 FROM HYDRAULIC REFERENCE 42 TO C2 CONTINUED 6.357 8.67 28.7 28.7 C1 C=120 0.00 0.0 0.0 26.33 0.000 8.67 0.0 28.7 Vel = 0.27 C2 26.33 28.7 K = 4.91 25.80 1.049 1T 10.74 21.2 21.2 K = 5.60 41S C=120 5.00 -4.6 0.0 25.80 0.208 15.74 3.3 21.2 Vel = 9.67 41 25.80 19.8 K = 5.79 PATH 4 FROM HYDRAULIC RE FERENCE 36 TO C5 24.86 1.049 1T 11.28 19.7 19.7 K = 5.60 36S C=120 5.00 -4.9 0.0 24.86 0.195 16.28 3.2 19.7 Vel = 9.32 1,049 10.00 18.0 18.0 EqK = 5.86 36 C=120 0.00 0.0 0.0 24.86 0.195 10.00 1.9 18.0 Vel = 9.32 25.90 1.049 lE 3.40 19.9 19.9 EqK = 5.80 35 C=120 1T 7.00 0.0 0.0 50.76 0.729 10.40 7.6 19.9 Vel = 19.03 - 24.38 2.731 120.71 27.5 27.5 86 C=120 0.00 0.0 0.0 See PATH 9 26.38 0.002 120.71 0.2 27.5 Vel = 1.46 3.340 2T 10.17 27.7 27.7 87 C=120 45.37 0.9 0.0 26.38 0.001 55.54 0.0 27.7 Vel = 0.98 CS 26.38 28.7 K = 4.92 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHTvAB TIRE CENTER Drawing Date:07-26- 20I0 7/27/10 11:47 Tyco Fire Product s Page 11 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn 25.90 1.049 1T 11.28 21.4 21.4 K = 5.60 35S C=120 5.00 -4.9 0.0 25.90 0.210 16.28 3.4 21.4 Vel = 9.71 35 25.90 19.9 K = 5.80 PATH 5 FROM HYDRAULIC REFERENCE 34 TO C6 24.92 1.049 1T 11.03 19.8 19.8 K = 5.60 345 C=120 5.00 -4.8 0.0 24.92 0.196 16.03 3.1 19.8 Vel = 9.34 1.049 10.00 18.2 18.2 EqK = 5.85 34 C=120 0.00 0.0 0.0 24.92 0.196 10.00 2.0 18.2 Vel = 9.34 25.98 1.049 1E 3.24 20.1 20.1 EqK = 5.79 33 C=120 1T 7.00 0.0 0.0 50.90 0.733 10.24 7.5 20.1 Vel = 19.08 -24.38 2.731 120.71 27.6 27.6 89 C=120 0.00 0.0 0.0 See PATH 11 26.52 0.002 120.71 0.3 27.6 Vel = 1.47 3.340 2T 9.92 27.9 27.9 90 C=120 45.37 0.8 0.0 26.52 0.001 55.29 0.0 27.9 Vel = 0.98 C6 26.52 28.7 K = 4.95 25.98 1.049 1T 11.03 21.5 21.5 K = 5.60 338 C=120 5.00 -4.8 0.0 25.98 0.211 16.03 3.4 21.5 Vel = 9.74 33 25.98 20.1 K = 5.79 PATH 6 FROM HYDRAULIC REFERENCE 31 TO A8 29.60 1.049 1T 10.77 27.9 27.9 K = 5.60 31S C=120 5.00 -4.7 0.0 29.60 0.269 15.77 4.2 27.9 Vel = 11.10 UNITS - DIAMETER (INCH) LEN GTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHlNAB TIRE CENTER Drawinq Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Page 12 HYD. Qa DIA. FTTTTNG PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv *** **** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 6 FROM HYDRAULIC REFERENCE 31 TO A8 CONTINUED 2.731 4.00 27.5 27.5 EqK = 5.64 31 C=120 0.00 0.0 0.0 22.98 0.002 4.00 0.0 27.5 Vel = 1.27 29.60 2.731 23.21 27.5 27.5 EqK = 5.64 32 C=120 0.00 0.0 0.0 52.58 0.007 23.21 0.2 27.5 Vel = 2.91 3.340 2T 7.60 27.7 27.7 91 C=120 45.37 0.7 0.0 52.58 0.003 52.97 0.1 27.7 Vel = 1.94 102.37 6.357 lE 171.13 28.5 28.5 A7 C=120 1T 55.32 0.0 0.0 See PATH 8 154.96 0.001 226.45 0.2 28.5 Vel = 1.58 A8 154.96 28.7 K = 28.91 29.60 1.049 1T 10.77 27.9 27.9 K = 5.60 328 C=120 5.00 -4.7 0.0 29.60 0.269 15.77 4.2 27.9 Vel = 11.10 32 29.60 27.5 K = 5.64 PATH 7 FROM HYDRAULIC REFERENCE 31 TO C7 29.60 1.049 1T 10.77 27.9 27.9 K = 5.60 318 C=120 5.00 -4.7 0.0 29.60 0.269 15.77 4.2 27.9 Vel = 11.10 2.731 8.00 27.5 27.5 EqK = 5.64 31 C=120 0.00 0.0 0.0 6.62 0.000 8.00 0.0 27.5 Vel = 0.37 29.60 2.731 120.61 27.5 27.5 EqK = 5.64 30 C=120 0.00 0.0 0.0 36.22 0.004 120.61 0.4 27.5 Vel = 2.00 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW {GPM) PRESSURE {PSI) .LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Page 13 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 7 FROM HYDRAULIC REFERENCE 31 TO C7 CONTINUED 3.340 2T 9.66 27.9 27.9 92 C=120 45.37 0.7 0.0 36.22 0.001 55.03 0.1 27.9 Vel = 1.34 C7 36.22 28.7 K = 6.76 29.60 1.049 1T 10.77 27.9 27.9 K = 5.60 30S C=120 5.00 -4.7 0.0 29.60 0.269 15.77 4.2 27.9 Vel = 11.10 30 29.60 27.5 K = 5.64 PATH 8 FROM HYDRAULIC REFERENCE 72 TO A7 24.23 2.731 22.40 27.7 27.7 72 C=120 0.00 0.0 0.0 See PATH 3 24.23 0.002 22.40 0.0 27.7 Vel = 1.34 2.731 11.00 27.8 27.8 22 C=120 0.00 0.0 0.0 24.23 0.002 11.00 0.0 27.8 Vel = 1.34 2.731 1.51 27.8 27.8 23 C=120 0.00 0.0 0.0 24.23 0.002 1.51 0.0 27.8 Vel = 1.34 3.340 1T 6.21 27.8 27.8 71 C=120 22.69 0.0 0.0 24.23 0.001 28.89 0.0 27.8 Vel = 0.90 3.340 1T 1.57 27.8 27.8 70 C=120 22.69 0.7 0.0 24.23 0.001 24.26 0.0 27.8 Vel = 0.90 6.357 8.67 28.5 28.5 Al C=120 0.00 0.0 0.0 24.23 0.000 8.67 0.0 28.5 Vel = 0.25 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 14 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 8 FROM HYDRAULIC REFERENCE 72 TO A7 CONTINUED 23.76 6.357 8.67 28.5 28.5 A2 C=120 0.00 0.0 0.0 See PATH 10 47.98 0.000 8.67 0.0 28.5 Vel = 0.49 23.20 6.357 8.67 28.5 28.5 A3 C=120 0.00 0.0 0.0 See PATH 12 71.18 0.000 8.67 0.0 28.5 Vel = 0.73 -17.56 6.357 9.50 28.5 28.5 A4 C=120 0.00 0.0 0.0 See PATH 13 53.61 0.000 9.50 0.0 28.5 Vel = 0.55 24.38 6.357 9.17 28.5 28.5 A5 C=120 0.00 0.0 0.0 See PATH 9 77.99 0.000 9.17 0.0 28.5 Vel = 0.80 24.38 6.357 9.17 28.5 28.5 A6 C=120 0.00 0.0 0.0 See PATH 11 102.37 0.000 9.17 0.0 28.5 Vel = 1.04 A7 102.37 28.5 K = 19.17 PATH 9 FROM HYDRAULIC REFERENCE 86 TO A5 24.38 2.731 35.11 27.5 27.5 86 C=120 0.00 0.0 0.0 See PATH 4 24.38 0.002 35.11 0.1 27.5 Vel = 1.35 3.340 2T 8.11 27.6 27.6 85 C=120 45.37 0.9 0.0 24.38 0.001 53.49 0.0 27.6 Vel = 0.90 A5 24.38 28.5 K = 4.57 PATH 10 FROM HYDRAULIC REFERENCE 76 TO A2 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) I,ES SCHWAB ?IRE CENTER Drawinq Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 15 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv **** *** NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 10 FROM HYDRAULIC REFERENCE 76 TO A2 CONTINUED 23.76 2.731 22.40 27.7 27.7 76 C=120 0.00 0.0 0.0 See PATH 2 23.76 0.002 22.40 0.0 27.7 Vel = 1.31 2.731 11.00 27.7 27.7 19 C=120 0.00 0.0 0.0 23.76 0.002 11.00 0.0 27.7 Vel = 1.31 2.731 1.71 27.7 27.7 20 C=120 0.00 0.0 0.0 23.76 0.002 1.71 0.0 27.7 Vel = 1.31 3.340 1T 6.00 27.7 27.7 75 C=120 22.69 0.0 0.0 23.76 0.001 28.69 0.0 27.7 Vel = 0.88 3.340 1T 1.76 27.7 27.7 74 C=120 22.69 0.8 0.0 23.76 0.001 24.45 0.0 27.7 Vel = 0.88 A2 23.76 28.5 K = 4.45 PATH 11 FROM HYDRAULIC REFERENCE 89 TO A6 24.38 2.731 35.11 27.6 27.6 89 C=120 0.00 0.0 0.0 See PATH 5 24.38 0.002 35.11 0.1 27.6 Vel = 1.35 3.340 2T 7.86 27.7 27.7 88 C=120 45.37 0.8 0.0 24.38 0.001 53.23 0.0 27.7 Vel = 0.90 A6 24.38 28.5 K = 4.56 PATH 12 FROM HYDRAULIC REFERENCE 80 TO A3 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:47 Tyco Fire Products Page 16 HYD. Qa DIA. FITTING PIPE Pt Pt * REF "C" TYPES FTNG'S Pe Pv **** *** NOTES ****** POINT Qt Pf/ft TOTAL Pf Pn PATH 12 FROM HYDRAULIC REFERENCE 80 TO A3 CONTINUED 23.20 2.731 22.40 27.6 27.6 80 C=120 0.00 0.0 0.0 See PATH 1 23.20 0.002 22.40 0.0 27.6 Vel = 1.28 2.731 11.00 27.6 27.6 16 C=120 0.00 0.0 0.0 23.20 0.002 11.00 0.0 27.6 Vel = 1.28 2.731 1.71 27.6 27.6 17 C=120 0.00 0.0 0.0 23.20 0.002 1.71 0.0 27.6 Vel = 1.28 3.340 1T 6.00 27.6 27.6 79 C=120 22.69 0.0 0.0 23.20 0.001 28.69 0.0 27.6 Vel = 0.86 3.340 1T 1.95 27.6 27.6 78 C=120 22.69 0.8 0.0 23.20 0.001 24.64 0.0 27.6 Vel = 0.86 A3 23.20 28.5 K = 4.34 PATH 13 FROM HYDRAULIC REFERENCE A4 TO C4 17.56 3.340 2T 2.15 26.5 28.5 A4 C=120 45.37 -0.9 0.0 See PATH 8 17.56 0.000 47.52 0.0 28.5 Vel = 0.65 3.340 6.00 27.6 27.6 g2 C=120 0.00 0.0 0.0 17.56 0.000 6.00 0.0 27.6 Vel = 0.65 2.731 1.71 27.6 27.6 83 C=120 0.00 0.0 0.0 17.56 0.001 1.71 0.0 27.6 Vel = 0.97 2.731 11.00 27.6 27.6 14 C=120 0.00 0.0 0.0 17.56 0.001 11.00 0.0 27.6 Vel = 0.97 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:47 Tyco Fire Products Page 17 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 13 FROM HYDRAULIC REFERENCE A4 TO C4 CONTINUED 2.731 143.16 27.6 27.6 13 C=120 0.00 0.0 0.0 17.56 0.001 143.16 0.1 27.6 Vel = 0.97 3.340 2T 10.15 27.8 27.8 84 C=120 45.37 0.9 0.0 17.56 0.000 55.52 0.0 27.8 Vel = 0.65 C4 17.56 28.7 K = 3.28 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) 7i 6C 5C Job LES SCHWAB TIRE CENTER 805 EAST YELM AVE YELM, WASHINGTON Remote Area: 3 Water Required Hose Allowance Static Pres: 53.0 psi Pressure: 44.0 psi In: 0 gpm Resid. Pres: 47.0 psi Sys Flow: 340 gpm Out: 250 gpm Flow: 1160 gpm Sys+Hose: 590 gpm Date: Safety Pres: 7.3 psi Loc: SITE Hd Elv Pres: 5.6 psi gpm 4C P S I 3C 2C 1C iau «0 3uu si5 45D 525 600 Fiow (gpm) 675 !5U LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 HYDRAULIC DESIGN INFORMATION SHEET Job Name: LES SCHWAB TIRE CENTER Location: 805 EAST YELM AVE YELM, WASHINGTON Drawing Date: 07-26-2010 Contractor: EMERALD FIRE PROTECTION 110210 CRAMER ROAD KPN GIG HARBOR, WASHINGTON 98329 Designer: MIKE/NICK Calculated By:SprinkCAD www.sprinkcad.com 451 N. Cannon Ave. Lansdale, PA 19446 Construction: STEEL FRAME Reviewing Authorities:YELM Remote Area Number: 4 Telephone:l-800-673-8791 Occupancy:TIRE STORE 7/27/10 11:48 SYSTEM DESIGN Code:NFPA 13 Hazard:OH GP 1 System Type: Area of Sprinkler Oper. 1950 sq ft~ Sprinkler or Nozzle Density (gpm/sq ft) 0.150 I Make: GLOBE Area per Sprinkler 107.0 sq ftl Model: GL5615 Hose Allowance Inside 0 gpm I K-Factor: 5.60 Hose Allowance Outside 250 gpm ~ Temperature Rating: 155 CALCULATION SUMMARY 19 Flowing Outlets gpm Required: 575.3 psi Required: 47.3 @ City Supply Water Flow Test I Pump Data I Date of Test I Rated Capacity 0 gpm I Static Pressure 53.0 psi I Rated Pressure 0.0 psi I Residual Pres 47.0 psi I Elevation 0 I At a Flow of 1160 gpm I Make: I Elevation 0" ~ Model: Location: Source of Information: SYSTEM VOLUME 1039 Gallons Notes: LES SCHYVAB TIRE CENTER Drawing Date:07-26-2010 HYDRAULIC CALCULATION DETAILS QTY DESCRIPTION HYDRAULIC LENGTH C ID Hydr Ref W Required at Hyd Area 4 1 3" Grvd Butterfly Valve CSC "BFV" 10' 100 3.068 1 3" Grvd Dry Valve VICTAUL "756" CHART LOSS Total Loss for Riser 7/27/10 11:48 FLOW LOSS gpm psi TOTALS 325 38.1 psi 325 1.7 325 2.2 3.9 psi Hydr Ref R1 Required at Base of Riser 1 8" MJ Tee ?Take Out? 35' 120 8.071 1 10" x 8" Fingd Reducer 0' 120 10.140 1 8" Fingd Gate Valve CSC "722U" 4' 120 8.071 2 10" MJ 90 E11 0' 120 10.140 1 Pipe 10" DIx18 Cl 52 20' 140 10.750 2 10" MJ 45 E11 0' 120 10.140 1 10" Fingd Back Flow Valve WILKINS CHART LOSS 1 Pipe 10" DIx18 C1 52 60' 140 10.750 Fixed Flow Outside Hose Stream Total Loss for Underground Hydr Ref R2 Required at City Supply Water Source 53.0 psi static, 47.0 psi residual @ 1160 gpm SAFETY PRESSURE 325 42.0 psi 325 0.0 325 0.0 325 0.0 325 0.0 325 0.0 325 0.0 325 5.2 325 0.0 2S0 gpm 5.3 psi 575 47.3 psi 575 gpm 51.4 psi 4.1 psi Available Pressure of 51.4 psi Exceeds Required Pressure of 47.3 psi This is a safety margin of 4.1 psi or 8 $ of Supply Maximum Water Velocity is 12.6 fps LES SCHGuAB TIRE CENTER Drawing Date:07-26-20.20 7/27/10 11:48 Page 3 FITTING NAME TABLE ABBREV. NAME C Coupling E 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 LES SCHWAB TIRE CENTER Drawinq Date:07-26-2010 7/27/10 11:48 Page 4 NODE NUMBER ELEVATION (FT} SPRINKLER K-FACTOR (GPM/(PSI^~)) PRESSURE (PSI) ACTUAL FLOW (GPM) MINIMUM FLOW (GPM) ACTUAL DENSITY (GPM/SQ.FT) 1 20.12 27.6 2 20.12 27.6 3 20.12 27.6 4 20.12 27.6 5 19.93 27.7 6 19.93 27.7 7 19.93 27.7 8 19.93 27.7 9 19.74 27.8 10 19.74 27.6 11 19.74 27.8 12 19.74 27.8 13 20.31 27,5 14 20.31 27.5 16 20.12 27.6 17 20.12 27.6 19 19.93 27.7 20 19.93 27.7 22 19.74 27.8 23 19.74 27.8 30 19.77 27.8 31 19.77 27.8 32 19.77 27.8 43 18.17 5.60 8.2 16.1 16.1 0.15 44 16.17 5.60 8.3 16.2 16.1 0.15 45 18.17 5.60 8.8 16.6 16.1 0.16 46 18.17 5.60 9.0 16.8 16.1 0.16 47 18.17 5.60 8.8 16.7 16.1 0.16 48 17.75 5.60 8.2 16.0 16.1 0.15 49 17.75 5.60 8.3 16.2 16.1 0.15 50 17.75 5.60 8.8 16.6 16.1 0.16 51 17.75 5.60 9.0 16.8 16.1 0.16 52 17.75 5.60 8.8 16.6 16.1 0.16 53 18.17 5.60 8.9 16.7 16.1 0.16 54 18.17 5.60 9.0 16.8 16.1 0.16 55 18.17 5.60 9.5 17.3 16.1 0.16 56 18.17 5.60 9.7 17.5 16.1 0.16 57 17.75 5.60 11.4 18.9 16.1 0.18 58 17.75 5.60 11.5 19.0 16.1 0.18 59 17.75 5.60 11.2 18.7 16.1 0.18 60 17.75 5.60 11.0 18.6 16.1 0.17 61 18.17 5.60 9.6 17.3 16.1 0.16 70 19.74 27.8 71 19.74 27.8 72 19.74 27.8 73 19.74 27.8 74 19.93 27.7 75 19.93 27.7 76 19.93 27.7 77 19.93 27.7 78 20.12 27.6 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:48 Page 5 NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/(PSI^~)) (PSI) (GPM) (GPM) (GPM/SQ.FT) 79 20.12 27.6 80 20.12 27.6 81 20.12 27.6 82 20.31 27.5 83 20.31 27.5 84 20.31 27.5 85 20.28 27.5 86 20.28 27.5 87 20.28 27.5 88 20.03 27.7 89 20.03 27.7 90 20.03 27.7 91 19.77 27.8 92 19.77 27.8 93 17.75 9.7 94 18.17 9.7 95 18.17 10.5 96 17.75 12.1 Al 18.17 28.5 A2 18.17 28.5 A3 18.17 28.5 A4 18.17 28.5 A5 18.17 28.5 A6 18.17 28.5 A7 18.17 28.5 A8 18.17 28.5 A9 2.00 35.5 A10 2.00 35.5 Bl 16.29 12.4 B2 16.29 12.7 B3 16.29 13.6 B4 16.29 13.7 B5 16.29 14.5 B6 16.00 26.0 Cl 18.17 28.5 C2 18.17 28.5 C3 18.17 28.5 C4 18.17 28.5 C5 18.17 28.5 C6 18.17 28.5 C7 18.17 28.5 W -4.00 38.1 Max velocity of 12.63 occurs in the pipe from B6 TO B5 LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:48 Tyco Fire Products Page 6 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 1 F ROM HYDRAULIC REFERENCE 48 TO W (PRIMARY PATH) 16.05 1.682 10.13 8.2 8.2 K = 5.60 48 C=100 0.00 0.0 0.0 16.05 0.012 10.13 0.1 8.2 Vel = 2.34 16.17 1.682 10.13 8.3 8.3 K = 5.60 49 C=100 0.00 0.0 0.0 32.22 0.044 10.13 0.4 8.3 Vel = 4.70 16.60 1.682 1T 2.24 8.8 8.8 K = 5.60 50 C=100 7.07 0.0 0.0 48.82 0.095 9.30 0.9 8.8 Vel = 7.12 33.41 1.682 1T 1.46 9.7 9.7 93 C=100 7.07 0.6 0.0 See PATH 3 82.23 0.250 8.52 2.1 9.7 Vel = 11.99 2.635 10.50 12.4 12.4 Bl C=100 0.00 0.0 0.0 82.23 0.028 10.50 0.3 12.4 Vel = 4.89 82.26 2.635 9.00 12.7 12.7 B2 C=100 0.00 0.0 0.0 See PATH 2 164.49 0.101 9.00 0.9 12.7 Vel = 9.77 3.260 1.50 13.6 13.6 B3 C=100 0.00 0.0 0.0 164.49 0.036 1.50 0.1 13.6 Vel = 6.38 85.60 3.260 10.50 13.7 13.7 B4 C=100 0.00 0.0 0.0 See PATH 5 250.10 0.078 10.50 0.8 13.7 Vel = 9.71 75.24 3.260 4E 59.70 14.5 14.5 B5 C=100 1F 29.73 0.1 0.0 See PATH 7 325.33 0.127 89.43 11.4 14.5 Vel = 12.63 3.340 1T 14.00 26.0 26.0 B6 C=100 16.19 6.1 0.0 325.33 0.113 30.19 3.4 26.0 Vel = 12.03 8.249 2E 14.85 35.5 35.5 A10 C=100 28.57 2.6 0.0 325.33 0.001 43.42 0.1 35.5 Vel = 1.97 UNITS - DIAMETER (INCH) LENGTH (FOOT} FLOW (GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:48 Tyco Eire Products Page 7 HYD. 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FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn W 325.33 38.1 K = 52.68 PATH 2 FROM HYDRAULIC REFERENCE 43 TO B2 16.06 1.682 10.13 8.2 8.2 K = 5.60 43 C=100 0.00 0.0 0.0 16.06 0.012 10.13 0.1 8.2 Vel = 2.34 16.18 1.682 10.13 8.3 8.3 K = 5.60 44 C=100 0.00 0.0 0.0 32.23 0.044 10.13 0.4 8.3 Vel = 4.70 16.61 1.682 1T 2.29 8.8 8.8 K = 5.60 45 C=100 7.07 0.0 0.0 48.84 0.095 9.30 0.9 8.8 Vel = 7.12 33.43 1.682 1T 1.88 9.7 9.7 94 C=100 7.07 0.8 0.0 See PATH 4 82.26 0.250 8.94 2.2 9.7 Vel = 11.99 B2 82.26 12.7 K = 23.06 PATH 3 FROM HYDRAULIC REFERENCE 52 TO 93 16.64 1.682 10.13 8.8 8.8 K = 5.60 52 C=100 0.00 0.0 0.0 16.64 0.013 10.13 0.1 8.8 Vel = 2.43 16.77 1.682 1T 7.89 9.0 9.0 K = 5.60 51 C=100 7.07 0.0 0.0 33.41 0.047 14.95 0.7 9.0 Vel = 4.87 93 33.41 9.7 K = 10.74 PATH 4 FROM HYDRAULIC REFERENCE 47 TO 94 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW {GPM) PRESSURE (PSI) LES SCHWAB TIRE CENTER Drawing Date:07-26-2010 7/27/10 11:48 Tyco Fire Products Page 8 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 4 FROM HYDRAULIC REFERENCE 47 TO 94 CONTINUED 16.65 1.682 10.13 8.8 8.8 K = 5.60 47 C=100 0.00 0.0 0.0 16.65 0.013 1.0.13 0.1 8.8 Vel = 2.43 16.77 1.682 1T 7.89 9.0 9.0 K = 5.60 46 C=100 7.07 0.0 0.0 33.43 0.047 14.95 0.7 9.0 Vel = 4.87 94 33.43 9.7 K = 10.74 PATH 5 FROM HYDRAULIC REFERENCE 53 TO B4 16.71 1.682 10.13 8.9 8.9 K = 5.60 53 C=100 0.00 0.0 0.0 16.71 0.013 10.13 0.1 8.9 Vel = 2.44 16.84 1.682 10.13 9.0 9.0 K = 5.60 54 C=100 0.00 0.0 0.0 33.55 0.048 10.13 0.5 9.0 Vel = 4.89 17.28 1.682 1T 2.24 9.5 9.5 K = 5.60 55 C=100 7.07 0.0 0.0 50.82 0.103 9.30 1.0 9.5 Vel = 7.41 34.78 1.682 1T 1.88 10.5 10.5 95 C=100 7.07 0.8 0.0 See PATH 6 85.60 0.269 8.94 2.4 10.5 Vel = 12.48 B4 85.60 13.7 K = 23.13 PATH 6 FROM HYDRAULIC REFERENCE 61 TO 95 17.33 1.682 10.13 9.6 9.6 K = 5.60 61 C=100 0.00 0.0 0.0 17.33 0.014 10.13 0.1 9.6 Vel = 2.53 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) LES SCHGVAB TIRE CENTER Drawing Date:07-26- 2010 7/27/10 11:48 Tyco Fire Products Page 9 HYD. Qa DIA. FITTING PIPE Pt Pt REF "C" TYPES FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn PATH 6 FROM HYDRAULIC REFERENCE 61 TO 95 CONTINUED 17.45 1.682 1T 7.89 9.7 9.7 K = 5.60 56 C=100 7.07 0.0 0.0 34.78 0.051 14.95 0.8 9.7 Vel = 5.07 95 34.78 10.5 K = 10.75 PATH 7 FROM HYDRAULIC REFERENCE 60 TO B5 18.61 1.682 10.13 11.0 11.0 K = 5.60 60 C=100 0.00 0.0 0.0 18.61 0.016 10.13 0.2 11.0 Vel = 2.71 18.75 1.682 1T 7.89 11.2 11.2 K = 5.60 59 C=100 7.07 0.0 0.0 37.36 0.058 14.95 0.9 11.2 Vel = 5.45 37.88 1.682 1T 1.46 12.1 12.1 96 C=100 7.07 0.6 0.0 See PATH 8 75.24 0.212 8.52 1.8 12.1 Vel = 10.97 B5 75.24 14.5 K = 19.75 PATH 8 FROM HYDRAULIC REFERENCE 57 TO 96 18.87 1.682 10.13 11.4 11.4 K = 5.60 57 C=100 0.00 0.0 0.0 18.87 0.016 10.13 0.2 11.4 Vel = 2.75 19.01 1.682 1T 2.24 11.5 11.5 K = 5.60 58 C=100 7.07 0.0 0.0 37.88 0.060 9.30 0.6 11.5 Vel = 5.52 96 37,88 12.1 K = 10.90 UNITS - DIAMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) Job LES SCHWAB TIRE CENTER 805 EAST YELM AVE YELM, WASHINGTON Remote Area: 4 70 60 50 40 P S I 30 20 250 qpm hose Water Static Pres: 53.0 psi Resid. Pres: 47.0 psi Flow: 1160 gpm Date: Loc: SITE Required Pressure: 47.3 psi Sys Flow: 325 gpm Sys+Hose: 575 gpm Safety Pres: 4.1 psi Hd Elv Pres: 9.4 psi Hose Allowance In: 0 gpm Out: 250 gpm iou ~~0 3uU 3/5 450 525 600 675 750 Flow (gpm)