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Home My WebLink AboutMULT DOCS PART 2 - 11-0390 - 37 S 2nd E - New Building - BeaumontCL"DIT'ICFOTIEB Cioveraor . .aY Stae of ldalo DEPARTMENT OF INSURANCS 7(X) W6t Stde Strcct' 3rd FIo P.O. Box 83720 Boise, Idabo s3if20{xJ4,3 Phonc (208)334'450 FAX#(20E)3A439t WII''AMW.DEAL Dirccbr MARKA-I,ARSOT{ $oFireldrsbal PI-AI,I REV .IEW FOR FIRE SPRINKLER SYSTETVIS derrrrqonem.rrtFonrF PI.AI\IS MelFletcher Ph 2Wq c $tr _o }1. .E o-U) o ir- o coO E _9 o) coE foom oo)cooo F F H fuq#xffi ;tr scrrE rnr 4!EEnt-f orrlco lggnr.Iro' "ol F n u Fax nV|@ APPRO\IED - If dcficicncies noted *o.'i ac concctcO ad snbject b a field inspcCion DXSAFPROVED - Rcs$'nit wi& items Dobd * cor€cted- ADDnoNAL - Ilftrmation reqpcstcd ffi'REONE-AN: ffi-BY-tmtrmpriscs CCTO: I\ddtllrson Idabo Sun'eYing & Rating' :' File AJIJ. 10-2005 hul Opportwity ErnPloYer nlT' iiit " 1201 14P l:I .-n State of Ldaho NEPAIITMENT OF TNS{JRANCE 70O Wes[ Sitte Saeet, 3rd Floor P.O" Box 83720 Boise, Idaho 8372&UX3 Phonc (208)334-4250 FAX I (20E)334-4398 cJ.-elBUrcH' oTrr& Governor VYII..I-IAMW. DEAJ- Dfuectot MANKA-LAASON Srate Flre Manhal pLAII Rrvr*w FoR FIRE SPRINKTER sYsrEMS SfOtnfUnPON PLAN: O dt'4 DATEONPLAN: *€YT ?S:L nacgl,olg rREfEsrrER rs ffi=ffir?;f iffi*"*wATER nunresps" nu.g ro rEE FGs seuroms:u RAaEf sratfis rmn xdEHal"dA;rFt€-E;.iin)-its lffisol$lg" noss Erst A'HPRSyE oF' er:t FGvgwsD nYt LIrH EnterPrises POBox 9 Fairficld, Idaho 83327 AFP*€IIED * If defi 'cierrcies soted abcve are coneged and Sobject to a' 6eld inspection- DISAPPROVED - Re$$mit with itsrrs noted * 6gilgcred' n AEEI4{Oi{AL-Infonaatioarequested CC T(J: Marklarsos Idaho SwveYing & Rating' Fde A}TJ. lvlr$rso-c.f CelLArurqF f.t&sUep* lo-2005 foul OpporttnitY EmPloYer 4130 AirPort Rd. Nampa, Idaho 83687 ffiffie,&W.'ffi* i&,rWe& ffi&{* 'j'j l wzvwogo&,oendxgP.olor. 9.20.2012 Mel, In regards to the review comments to the BEAUMONT MEDICAL CENTER' I have made the necessary changes and corrections' Phone: 208-468-9115 Fax: 208'461-9117 1. Address is on the first page of drawings 2. Added pendent sprinkler to utility room244 3. Added -hydraulic calculation for lease space D 4. Removei note from stairway, it was anoversite on my part that I forgot to erase' If you have any further comments, please let me know' Thank you Sincerely, Don Weland Phoenix Fire Protection 4130 AirPort Rd. Nampa,Idaho 83687 PO Box 242 Victor,ID 83455 whes$*w..ffi ss,i iwse' ss&*se wwwphoenixfP.-com psl psi gpm Phone: 208'468'9115 Fax: 208-461-9117 Phone: 208-313-6876 Fax: 208-787-2957 Wednesday, August 08, 2012 Project: Beaumont Medical Center 37 South 2nd East Rexburg, Idaho 83440 Re: Fire Flow Information To Whom It MaY Concern: on wednesday, August 0g,20rza fire flow test was taken from the nearest hydrant to the Beaumont Medical center located "t 37 j;;;;);Jeuri, n"xburg, Idaho. This test was taken by clint charles and Adam woolstenhulme, with Phoenix Fire Protecti6n and chuck' with the city of Rexburg' The following is the fire flow results given: Static Pressure: 82 Residual Pressure: 79 Flowing: \ 3-B$ PHOENIX FIRE PROTECTION rnR NAtvlF' BEAUMONT MEDICAL UtsN IEK JOB#:1237 NATtr.SFPT 2012 DRY SYSTEM VOLUME SYSTEM 1 SCHEDULE 40 PIPh PIPE SIZE FIffiETFEET oF PER FT. I PIPE VOLUME TOTAL 1 0.045 0 1-114 0.078 855 66.69 1-112 0.106 0 2 0.174 0 r PIPE SIZE VOLUME PER FT, FEET OF PIPE VOLUME TOTAL 1-114 0.085 0 1-112 0.115 0 2 0.19 0 2-112 0.283 0 3 0.433 151 65.383 4 0.74 91 67.34 6 1.649 0 8 2.776 0 OTAL 199.41 IF THE SYSTEM VOLUME OF THE DRY SYSTEM IS iso.oo cALLoNS, oR LESS, AND lF A QUIcK oPENING OEVICE IS USED THE 60 SECOND RULE IS NOT REQUIRED TO BE APPLIED. IF A QUICK OPENING oEvrce ts Nor usED THE 60 sEcoND RULE MUsr BE APPLIED. 1237 dry sYstem volume table'xls *Excludes tension-only bracing systems c 2006 National Fire Protection Association taterial Seismic Bracing Calculations Sheet 1 ot 2- ject: ,ress: BEAUMONT MEDICAL CENTER CONTTACTOT: PhOCNiX F|TE PTOtECtiON 37 SOUTH 2ND EAST Address: 4130 AirPort Road REXBURG,ID Nampa, ldaho 83687 3" Sch 10 LateralTable 9.3.5.3.2(a) Telephone: (2081199 {lt BRACING DISTANCE 20'= 1281 (208) 461-91 17 Brace Information Seismic Brace Attachments Length of brace: 10'6" Diameter of brace: Type of brace: Schedule 40 Angle of brace: 60-90 DEG Least radius of gYration:* 0.42 UR value:* 300 Maximum horizontal load: 713 Structure attachment fitting or tension-only bracing system: Make: Afcon Model: #077 Listed load rating: 2015 Adjusted load rating per 9.3 5.10.3: 1007 Sway brace (pipe attachment) fitting: Make: Afcon Model: "E" Listed load rating: 2015 Adjusted load rating per9.3.5.10 3: 1007 Fastener Information Seismic Brace Assembly Detail (Provide detail on Plans) .-.' [.,:t1:]ll'i[::: )i] :_:_.'- i-:r-r tjtiri-::i **_"".;t;,:*_ :i:.i i li.. i:iili:i:,.irt:!li ;t-t Tli';i, -*-..*- V I ..,' r.;...:' -'t __ii:,iA{ liitir-i. plii. 1' / " t\)'l iil '' i:Ai r-; r:'ir]^ 'f.. ./ ::rii:[ ii[]i!; [ff,;fil ':{.*. .i,.. i-;lrllfili-i-'r''t .'i 't. ,rt. -- liiii r r:iii;ill- jii'ilCi i[l[-l- ,'"r, rtt'i{ \ ' ", '/ Orientation of connecting surface: Fastener: Type: 3 1/2" THRU BOLT Diameter: 112" TOP CORD CONN. ANGLE F (60-90) Maximum load: 600 SEE CALCULATIONS FOR DEGREE FROM VERTICAL sptittklet svttet L"ad calculation [Fp= -'5- wp (default is 0':]l Diameter Type Length (ft)Total (ft)Weight per ft Wp Total Weight 1 in.Sch 40 n 0.00 ft 2.05 lb/fi 0.5 0.00 lb 1 114 in.Sch 40 200 200.00 ft 2.92 lb/fl 0.5 292.00 lb 1 112 in.Sch 10 0.00 fi 3.05 lb/f n6 0.00 rr 2in.Sch 40 0.00 5.11 lb/ft 0.5 51.07 lb 2 112 in.Sch 10 0.00 fl 5.89 lb/ft nc 0.00 tb 3 in.Sch 10 20 20.00 0 7.94 lb/fl nr 79.40 lb 4 in.Sch 10 0 0.00 ft 11.79 lb/fl 0.t 0.00 rb 6 in.Sch 10 f1 23.03 lb/fl 0.5 0.00 lb I in.Sch 10 40.08 lb/fl 0.5 0.00 lk Total weight 422.47 lt Fp x 1.15 485.84 tu FIGURE A. 9.3.5(a) Seismic Bracing Calculation Form NFPA 13 (P. 1 of 1) t.rr-itrtdinal Seismic Bracing Calculations sheet 1 ol J- ect: ress: BEAUMoNTMED|CALCENTERContractor:PhoenixFireProtection 37 SOUTH 2ND EAST Address: 4130 AirPort Road REXBURG,ID Nampa, ldaho 83687 3" Sch 10 Lateral Table 9.3.5.3.2(a) Telephone: (208) 468'9115 BRACING DISTANCE 4o'= 769 LBS (208) 461-9117 Brace Information Seismac Brace Attacnmenls Length of brace: 10'6' Diameter of brace: 1 in' Type ofbrace: Schedule 40 Angle of brace: 60-90 DEG Least radius of gYration:* 0'42 L/R value:* 300 Maximum horizontal load: 713 Structure attachment fitting or tension-only bracing system: Make: Afcon Model: #077 'isted load rating: 201 5 Adjusted load rating p", 9'3'5'19 !' -- 1 0U Sway brace (pipe attachment) fitting: Make: Afcon Model: "E" Listed load rating: 2015 Adjusted load rating per 9'3.5'10'3: 1007 Fastener Information Seismic Brace AssemblY Detail (Provide detail on Plans) Orientation of connecting surface: Fastener: T'nF' 3 1/2" THRU BOLT' t r- Diameter: 112" TOP CORD CONN. ANGLE F (60-90) Maximum load: 600 SEE CALCULATIONS FOR DEGREE FROM VERTICAL Sprinkler SYstem Load Calcuation [rp= -.s- wp (Oetault is o.:)] Diameter Type Length (ft)Total (ft)Weight per ft Wp Iotal Weight 1 in.Sch 40 0.00 ft 2.05 lb/fl 0.5 0.00 lb 1 114 in.Sch 40 0.00 fl 2.92 lb/ft nr 0.00 lb I 112 in.Sch 10 0.00 fl 3.05 tb/ft 0.t 0.00 rb 2in.Sch 40 0.00 ft 5.11 lb/fi 0.t 51 .07 lb 2 112 in.Sch 10 0.00 ft 5.89 lb/fl 0.5 0.00 ll 3 in.Sch 10 40 40.00 7.94 lb/fl 0.5 158.80 lt 4 in.Sch 10 0.00 fl 1't.79 lb/ft 0.5 0.00 lb 6 in.Sch 10 fl 23.03 rb/ft AE 0.00 lb I in.Sch 10 ft 40.08 tb/fi 0.5 0.00 lb Total weigh 209.87 lb Fp x 1.1 241.35 n "Excludes tension-only bracing systems c 2006 National Fire Protection Association FIGURE A. 9.3.5(a) Seismic Bracing Calculation Form NFPA 13 (p. 1 of 1) BEALMONT 'MEDICAL CENTER Drawing Date: SEPT' 2012 HYDRAULIC DESIGN INFORMATION SHEET JOb NAMC: BEAUMONT MEDICAL CENTER Location: 37 SOUTH 2ND EAST REXBURG, IDAHO 83440 Drawing DaLe: SEPT ' 20t2 Contractor: PHOENIX FIRE -1130 AIRPORT ROAD NAMPA IDAHO 83687 Designer: DON WELAND Calculated BY : SPrinkCADxuT i:'ux::: ;;: Lansdale, PA 19446 CoNStTUCIiON: UNOBSTUCTED NONCOMBUSTIBLE neviewing Authorities: STATE FIRE MARSHAL' 9/ 6/72 Remote Area Number: 1 Telephone 208 468 9115 OccuPancY : LIGHT HAZARD OWNER SvsreM DESTGN Hazard: LIGHT q\/ql-Fm 'l'rzno 'IilF.Tr v -v' ' " " - Code:NFPA 13 916 sq 0.100 225.0 sq o gpm 100 gPm fr fr Sprlnkler or Nozzle Area of SPri-nkler OPer Density (qPm/sq ft) Area Per SPrinkler Hose Altowance Inside Hose Allowance outside MaKC: GLOBE Model: GL5601 K-Factor: 5. 60 Temperature Rating: 155 CET,CUT,ATION SUMMARY 10 Flowrng Outfets 73.3 e SOURCEgpm Required: 344'3 psi Required: WATNN SUPPLY Date of Test Static Pressure Residual Pres At a Flow of Elevatron I Rated CaPacitY I Rated Pressure I Elevation I Make: I ModeI: Water Flow B-8-2072 a) fl nqiv-. v ye' /9.U ps] 1 2Q( dnmfJUv YI/!!, 0tt Pump Data 0 0.0 0 gpm nqi_v" - Locatron: Source of Information: ON SITE PHOENIX FIRE PROTECT]ON SYSTEM VOiUME 527 GAfIONS Notes: cn qfi;frs BEP=)8i2lli - ts -{rE6f; 6gx F9E58z-l mn 5EEdtr.€ ;:'. = d 6'q vz 1l-- 2- dfi -lm@8*ds ii('roo'"co o o P 2.e.= F$*Ege 9=T-o og-F EE Sire o nna oo= gdts_ o 6eHNd(,t('l55(l)EEEEE oo E Ct' tro{ GI ttI ooo- 1 cv, 999Cooo- Io€E GIT'3 BhJAUTVION'I' LVITJIJIUAI' UEN'IT.JR IJTAWINg DAIC: S!'iP,I ' IOLZ HYDRAULIC CALCULATION DETAILS 9/ b/ Lz LENGTH C at HYd Area 1'l' L20 2t 720 10' 120 M 1' r20 ''D CHART LOSS HYDRAULIC ID psi TOTALS eq 6 n<ivJ ' v I/v+ iR 0.1 0.7 0.1 6.0 73.1 Psi FLOW gpm QTY DESCRIPTION Hydr Ref 1 3" Grvd 1 Dina ?rt! r f l/v 1 3" Grvd 1 3" Grvd 1 3" Grvd BOR Required 90 EtI Firelock t0x27 ButterflY Valve "BFV" Other Valve TYCO "513" Back Flow Valve APOLLO 244 3.068 244 3.260 244 3.068 244 3.068 244 244 1 1 1 1 1 1 HYdr Ref SRC Water Source 82'0 Required at NRS Fixed FIow F]RST FLANGE 6t 140 14', 120 10' 140 T4' I2O 100' 140 3' ]-20 Ffow Loss h 11h 6.065 6. 338 6.065 6.338 6.065 344 1385 gPn 344 of 73.3 Psi 244 244 0.0 244 0.0 244 0.0 244 0.0 244 0 .2 244 0.0 100 gpm Hydr Ref FF lipe 6n DIxIB Cl 350 6'' MJ 90 EIl Pipe 6" DIx18 CI 350 6'' MJ 90 EII Pipe 6" DIx18 Cl 350 6" Flngd Gate Valve Required at SOURCE psi static, 19-0 Psi residual G ?3.3 Psi gpm 81. B Psr:::=::= 8.5 Psf Availabl-e Pressure of B1'8 This is a safetY margin of Maximum Water VelocitY is L6 "l SAFETY PRESSURE Exceeds Required Pressure psi or 10 % of SUPPIY fnc!i." nq 1v-* BEAUTVION'I' IVITjDIUAI' UEN'IER DTAW]-Ng DATE : SEP'I zu lz 9/ 6/ LZ FITTING NAME TABLE ABBREV. NAME ==: :::=: ::===:: :==:::::: C CouPling E 90' Standard El-bow F 45' Elbow 5 Straight Flow Thru Tee T 90' Flow Thru Tee V Valve HYD REF K FACTOR vd nt D It1 C Pf/ft PT PF, FTNG'S TOTAL Pt Pe YT Pv Pn NOTES: LEGEND Hydraulic reference' Refer to accompanying flow diagram FIow factor for open head ot pulft-wftlre-Flow (gprn) : K x -\/P FIow added or subtracteo Total flow Actual internal diameter ot PlPe Hur.t Witliams pipe roughness factor Friction loss Per foot ot PrPe Length of PiPe tlum6er or tittings ' See tabl-e above ' Total- length (PIPE + FTNG' S) Totat Pressure (Psi) at. fitting Pressure due to th.ttgu in elevation where Pe : 0 ' aS: " change in elevatron Friction l-oss (Psi ) to f itting where Pf = I x 4 '52 x (Q/C) ^1' 85 / ID^A '81 VelocitY Pressure lPsi) where pv : b.001123 x Q^2/rD^4 Normal pressure (psi), where Pn : Pt - Pv - Pressures 0.1 Psr. round off. are balanced to 0 ' 01 Addition maY varY bY Pressures are l-isted to psi due to accumufation of nq lt,"- n1 Calculations conform to VelocitY Pressures are NFPA 13. .rlt "on"idered in these Calcufations BUAULVION'r tvlErJ-LUA! ur;N,rER ljrawrng Date:sLjp'r. zoLz 9/ 6/ rz D2 ffo ===:::::===::::=::::--:=::::==:::--=:::==::::==::--:=::::==::==::::=:::==:::::==::: E T Et\/AT].T.,\] qPRTNKLER PRESSURE ACTUAL MINIMUM ACTUAL L\vuD ur-,.r'I IUI\ Jr^r!r!\!'EJ^ ET.^I^I rr nr,r DF,NSITY NUMBER K-FACTOR FLOW rt,uw uu' | trr \ (rrI2M / ( PSr ^%) ) (PSr ) (GPM) (GPM) (GPM/SQ ' FT ) .--l \\frtal \!ur zt t :::::::==:::=:=== :=::--:===:=:::=: =::::==:::===:== :--:::::::=i .1. 40.00 19'3 IL 1 Q A 1a dn,00 ru'= l-J 11 A1^ 40,00 r''= -Lt , ^.0015 av'vv 11 ?/ ^ ' 00lO :v'vv 10 A 11 40.00 ru'= lt aA A Ai ^n La. a18 tu ' uu .n /n.00 23.2 rY =v!vv Re q .A 11.83zv Aq ?nn aJ. J 2I zo'vv ^^ ?nn aJ. J 22 zo'vv (o G1 1 . 83ZJ LL'VJ rtr q A6 2.OO UJ ' J ^ n^ 65.6BOR z 'vv nl 4n. oo 30.4 i: on.oo 3o'4 bz =v n- do.oo 30'4 IJJ :v'vv ?n tr,'l .00 Jv ' J 84 +u'uu 2n 1 Bs 40.00 ;;' ;/ 0.00boe)l AC nn JL.L Bl e\J'uu Aq ?nn aJ. r/5'VVr1o -:':: LL IT-1 a? JU' ljY rr ' vJ qu ID'r ^ 11.83lffv ,4q ?nn aJ. J C1 zo.vv ^e ?nn aJ. J.'> /.o . vvwL Atr ?^ - Ad aJ . J C3 zo 'vv ^^ ?nn aJ. J C4 zo 'vv A^ ?nn tJ. J C5 zo 'vv A^ ?nn aJ. JC6 zo 'vv n1 11. 83 59 '1 UL trO ?na JJ. t DZ ! r ' v v na 1 1.83 59 "7DJ n4 11. 83 59 '1 DA nq 11.83 JJ'' UJ AA ?nn aJ. JF.l ZO. Vv26.00 26.00 Atr, ?26.00 25.00 Ar^ ?25.00 26.00 4tr.26.00 26.00 AC. ? 45.326.00 26.00 45.3 Aq ?26.00 40.00 Aq ? 2Q540.00 40.00 2Q5 oa ( 40.00 40.00 )Q ?40.00 40.00 28.740.00 40.00 a140.00 40.00 )1 q 20. I40.00 40.00 20. I /640.00 11. B3 zo .2 59 .611. B3 11. B3 . 83 11. B3'r 1 R? BE;AUIV]UN.1,y.ltjDIUAl,UE]N,I,E]RjjrawrngDate:StjP.I.zULz 9/ 6/ rz Da frar uY v ::::==== :::=::::===:::==::::==:::=::=:::::::--=::=::::::=:::==:=:::=::::= NODEELEVATIONSPRINKLERPRESSUREACTUALMINIMUMACTUAL NUMBER K-EACTOR FLOW FLOW DENSITY (FT)(GPM/tpsilrzt)(PSI)(GPM)(GPM)(GPM/SQ.FT) =:=:::::=::::=::::::=::::=::::=::=:--::=::::=:::==:::==:::::=:::: c4 11.83 59 '6 ^t 11.83 59'6 tr3 r!'vv qo Av. 11.83bo ll . r, 56.6 Hl rr ' uJ a1 11.83 59't rr 11 n :i8l' i9:33 5 ' 60 ;; ; 23 2 22 's o ' 10 s102 40.00 2t'1 s1O2S 37.83 5'60 21"8 26':' 22'5 0'r2 s103 40.00 23'r s103S 37. 83 5 ' 60 22 '5 26 '6 22 '5 0 '12 s1O4 40.00 23 '2 26 6 22.5^-.83 5'50 22'6 26'6 22'5 u'rz 5IV+J Jr.vr lq q 3i33' i?:33 5'60 ;; i 22 5 22'5 o'10 s106 40.00 16'3 s1o6s 37.83 5'60 16'5 22'B 22'5 0'10 s107 40.00 16'1 s1O7S 37.83 s'60 t6'4 22"1 22'5 0'10 s10B 40.00 23'0 ^rnoc ?7.B3 5.60 23'O 26'8 22'5 0'72 JIUOJ JI.VJ 16, q 3i33' i9:33 s ' 60 ;1 ; 23 '2 22 '5 o ' 10 s110 40. o0 r'7 '9 s11OS 37.83 5'60 1B'1 23'B 22'5 0'11 Max veroclry of .'6.6-r occurs in the pipe from 86 To 72 Nodes with "S" indicate a node at the of atop pendent' The node without an top of a sPrig or bottom r'gi' is on the branch. BgAuruoN,r' rvluDruAl, utiN'tLiR Drawrng ";;;:";ir"'1f1o""." :==:::==:::====::::==--:::::=====::::====::::::=====--::::::::====::::::===::::::: H? '":::?:+---';H;1" iiil:, i: i: *******NorES******* POINT Qt Pf/fI' TOTAL Pf PN :::==--:::===::===::::::===::======:=====:::::======--:::=====:::======--::=--==:::= 9/ O/LZ IJ: Page b PATH 1 FROM HYDRAULIC REFERENCE s10 5 TO BOR (PRIMARY PATH) . i1 i6 r 16.1 K : 5'ou S1O55 22.50 1.049 1E t-I O (\ W- L'v 22.50 0 -162 2. L I ro ' r ^ ^n -n q 0.0 i'\\ ;'; 16.1 Vel = B ' 43 1.Lt 3.g4 15.9 15'9 EqK = 5'65 5.00 0.0 0'0 B.g4 1-'4 15'9 VeI = 8'43 1.049 1T 5'rn LJ' s105 c:720 5'00 0'o 0'0 22'50 0'762 a'gq f i 15'9 vel = B'43 ^ i1 ') B.42 r'442 1E L3'26 71 '3 17'3 1 1) n O 0'0 See PATH 11 16 C:I20 r'tL A A,.' 16'98 f i 17'3 Vel : 6'13Lo ;;)" 16.98 t_.-L r/.J 30 '92 0 '062 Le ' Jv --------- 23.22 I-442 3E 29'1-6 18'4 18'4 11 c=1'20 1r ig::i g 9 ,:'? i:? :^Tt.;^11 s4.14 Z=.t|'^ 1r ffi'.lz ;:i 18 .4 ver : r0 "7 4- ;;' ;;- - - - ;z- ;- - - - ;z- ;- - F6 41.68 ?:lr7', "o.;; -o.o o.o SeePArHT 95.82 o'o?1 12'00 0'' 26'1 ver = B'50 I3 12.00 )1 q nn nq -22. '72. 0.00 L2.OC 0.92 2.r5-l ^-1 aAv- !aw 91 0.043 27q 0.0 See PATH 12 27 .5 VeI : 6'46.00 12.OO 28 .r'^ ^? 2 1\1 12'00 zo'L 4v-Lv.vJ n ^n n o 0.0 See PATH 13 2=:7\ tl'60 o:; 2B'r ver: 4'6e 52.88 v -vzr ^ oo ?12.OO 28 -3 28 '3-rB .2'7 7:i7i '6:f E ';:o ^l o see PArH 14 1' ^^ n 1 28'3 Vel- : 3'01 34.60 0.011 LZ 'vu v ' r -;; .;;--;--;;;-- 2r '7 4 '85 28 's 28 's ^-1')A tn 'uZ -o ' o 0 ' 0 l": PArH 1s C=!20 14'86 0'U u'u rsv 1'1 .42 0'021 ;;-'1t r's 28'5 Ver: 3'46 17.18 2.635 12'00 30'4 30'4 n ^^ n o 0'0 See PATH 15 34.60 3:1o3? 1;:;; ;:o 3o'4 Ver: 2'06 J= ' vv UNITS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BriAurvroN'r' LVrErrruA' uEiN'r'LiR Drawrng '.;;;:";iru'3|'oo,r.a" e/ o/ Lz rr: t nunu '7 =:=:::::::::::=:::::::====::::===:::=:::==:=:=== HYD. QA DIA. FITTING PIPE Pt Pt REF rrcrt rvnui FTNG'S Pe Pv ******* NOTES ******* POINT Qt Pf/ft TOTAL Pf Pn :==::::-- =::::=:===:::::====::::::==::::::====:::::==:::: ::==:::: PATHIFROMHYDRAULICREFERENCESI05ToBoR(PRIMARYPATH) 30.4 IJJ 78 .21 2 .635 ?-1 aiU_IAV s2. B8 0.009 12.00 0.00 30.4 0.0 0.1 0.0 30.4 0.SCC PATH 14 Vel : 3.1412.00 B4 20.03 2.635 c=12O 12.91 0.016 72.00 ?n 5 0.0 0.2 0.00 1,2.00 n ?n 5 0. O See PATH 13 30.5 Vel : 4'33 iJJ 22.92 2.635 C:1?O 95.82 0 .021 30.7 0.0 See PATH 12 30.7 Vel- : 5'69 12.00 0.00 12 .00 ?n -l nn U.J 12.00 31.1 31 ' 1 86 84'05 ?:fi| '6:i3 'o.o o.o seePArH2 1^ ^n .t n 31 -1 Vel : 10'6 64-44 2'635 2E :-4'84 32'r 32'7 B1 C:120 1T 32 'g5 6 'L O ' 0 See PATH 8 )' ^ 1 (n 4'7 '1g '1 '2 32 '7 Vel : 14 '52 --1 ')t\ v. vv ^' :-;;: 72'oo 1'o 31'1 ver : ru'b, I lY-60 v.vuJ ^AA 1t n 1(n 41 '19 '1 '2 z1'1.. JL 2 . 635 2E 11 "10 47'3" n: ' :2.635 'zl' rt'tv BB C=!20 16'4'1 6'1 0'0 244.32 0'150 34'11 5'1 45'3 Vel : t4'52 H1 ^ ^ad5.ZOV ^-1 aiw-Law .AA aa n n6?LAA. JL 1.00 0.00 1.00 30. o 0.0 0.1 nn 56.6 VeI =q dR -rg .46 3 .260 lE .:1 )n 1Tv-!4 v 224.86 0.046 ;;. f,o. / ;:0.0 J.U ro q? .52 .0 56.1 0.0 56.1 See PATH 16 Vel : 8.73 810 19 .46 3.260 C:1?O 244.32 0.053 q R? 20.16 )a qq nnqaou.v a l7^'1 3Y. I vgl PATH 16 9.48 qq 7 AO 0.00 0.81 q 4R ^ 6a 5. Z0V C:I20 244.32 0.053 0. B1 nn nn nn F l7^1 - b). f, vcr - UNITS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BblAujyloN'r tv.ltilJl-uAl, uuN'r'tiR Drawrng Date:5b;P'l ' zurz TYco Fire Products 9/ b/LZ l-J: Page o PATH 2 FROM HYDRAULIC REFERENCE S1O7 TO 86 22.68 1.049 1E 2'r't 16'4 16'4 K: 5'60 S107S C=!20 2'OO -0'9 0'0 22.68 0'164 4'L1 0'? 16'4 vel = B'50 1.049 1T 2'88 16'1 1'6'I EqK = 5'64 S1O7 C:L20 5'00 0'0 0'0 1 2 1G .1 \/el 8.50c:L20 5.00 0'0 0'0 22.68 0.164 7'88 1'3 !6'7 Vet : 8'50 T4 31 ?q 1 AA2 r-1)n| = | / | | v . v - ^? n nRA II'2I 1'0 11 '4 Vel = 7'35 L'J 4.00 18.4 18.4 L]-.2T 0.00 L'l .4 0.0 !1 .4 0.0 See PATH 3 1,4 13 .') '>1 1 AA?LJ.LL r-1 an 60.23 0.272 0.00 0.0 4.00 0. B 0.0 See PATH 4 tB.4 VeI : 11.95 23.82 r.442 C:I20 84.05 0.393 1T zz.Jo'7 .43 30.00 1q ? 0.0 11.8 PATH : 76. 19.3 0.0 See 19.3 VelL2 6 61 31.1 K: 15.08 84.05 =:::=::::=::::=::==:::::::=:::=:::==:===:=::::=::=:::::::::::::=::::::=::::::=:: PATH 3 FROM HYDRAULIC REFERENCE 5106 TO 14 uo S1O65 2.71 2.00 4.r'7 th 5 -0.9 n? s.60 8.54 22.'7'7 7.049 1E ^-1 anW_LLW 22.'11 0.165 16.5 K 0.0 16.5 VeI s106 7.049 C:L20 n 16q 0. .3 VeI : 8.54 L'7 .3 0.0 See PATH 11 L] .3 Vel- : 2.85 1T r.25 16.3 5.00 0.0 6.25 1.0 16.3 Eqt< : nn 22.'71 15 -8 74 A) 35 r.442 a-1 ai 0.015 '7 .61 0.00 1 .6r nn n1 FLOW PRESSURE (PSI) UNITS - DIAMETER (INCH)LENGTH (FOOT) BbiAUlylON'I' tvlEDIUAl' UEN'I'EiR Drawrng Date:5UPI ' ZUIZ TYco Eire Products L'7 .4 v : " AA t4 PATH 4 FROM HYDRAULIC REFERENCE S1O9 TO 13 9/ b/LZ -l-J: 5 Page 9 2.L] 2 .00 4 .11 71 .2 -0.9 0.7 11 .2 0.0 K: 5.60 S1O95 s109 3.50 5.00 8.50 _Lb.v nn 23.2r r.049 1E ^-1 a iw- lLw 23.21 0.171 1.049 1T n ZJ.ZL U. ^-1 a iW- LLV LlI I'7 .2 VeI = 8.70 16.9 EqK: 5.64 0.0 L6.9 VeI : 8.70 .J.1L 23.27 lB.4 K: 5.4113 PATH 5 FROM HYDRAULIC REFERENCE S1O1 TO 17 23 -22 1.049 1E 2 'I1 t1 '2 7't '2 K : 5 ' 60 S101S C:I2O 2'OO -0'9 0'0 :___: __r_::_r___o ._i11 __n__'_r______o__'_____!'_:____Y:1----1-13---- I.O4g 1T 3'20 17'0 17'0 Eqx: 5'64 s1o1 c:r2o 5'00 o'0 0'0 23.22 O'I12 B'20 1"4 17'O VeI : B'70 18.4 K=t- A) r'7 23.22 PATH 6 FROM HYDRAULIC REFERENCE S11O TO 72 .2 a) 1 n/q IF, 2-71 18'1 1B'1 K: 5'60 LJ.VL S110S C=!20 2'00 -U'e u'u 23.82 0.180 4'7'7 O'1 1B'1 vel : B'93 1.049 1T 2 '50 7'l 'g 77 '9 Eqx : 5 ' 63 s110 c:I2O 5'00 0'0 0'0 2? R2 0.180 7.50 1 ' 3 11 '9 VeI : B ' 93 LJ.VL UNITS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BtsAur,uN,r,,rvrurrr uAr, uEiN'r.'tiR Drawrng ";;;:" ;i r"' lfXo""." 9/ O/IZ IJ: Page ru K - 5.43 72 23.82 PATH 7 FROM HYDRAULIC REFERENCE S1O2 TO F6 S1O2S 26.r3 1.049 1E v-1)nU_IAV 26.13 0.2]-3 t2.00 4.11 f.ou o 79 2.]-'1 a1 e -nq nq 21.8 K 0.0 2I.8 VeI I.U4Y rr s102 c:!20 5'00 0'0 0'0 26 '73 O '2I3 '7 '06 r ' S 2I "t Vel : 9 "79 15. 55 r ' 442 1T 23 '20 23 '2 23 '2 rs 2:+72 ',1012\, 3:3 ,2.2 ;:i T': ;' -^ ^ 1n? 30.63 3'J zJ'z vsr 4L. oo v. rv ' 26.5 0.0 26.5 Vel =3.70nall a 1r^7 C=720 0.015 12.00 0.00 12.00 26.5 0.0 0.2 =:::=:===::::::::=:::========::==================::--::::::::--::=========--:=====: PATH B FROM HYDRAULIC REFERENCE S1OB TO B7 26'83 1'049 1E 2'I't 23'O 23'O K: 5'60 S10BS C=!20 2'OO -0'9 0'0 26'83 0'224 4'7'l O'9 23'O VeI : 10'06 1.049 1T 1'33 23'0 23'O EqK: 5'50 slOB C:r2o 5'00 o'0 0'0 26'83 0'224 6'33 t'S 23'O vel : 10'06 31 .67 I.442 1T 24'58 24'4 24'4 18 C:120 1'43 -0'0 0'0 See PATH 10 64'44 O'24I 32'OI -l '-1 24'4 Vel = 72"78 41.68 zo. I K : 8.07 E6 4I.68 K : 11.38 DI 64 .44 UNITS - DIAMETER (INCH)LENGTH (EOOT)FLOW (GPM)PRESSURE (PSI) Bt;AUIVtoN'r' tvlFjljruAL c!.jN'r'ER jjrawl-ng Date : StjP'f ' zQ rz 9 / b / Lz ' TVco Fire Products rdgv ff, D^I"H q F.ROM HYDRAUL]C REFERENCE S1O3 TO 19 rnlll / ! r\vrr .a 26.56 I.O4g 1T 2'l'7 22'5 22'5 K - 5'60 S103S C=!20 5'00 -0'9 0'0 26.56 0.220 7 ':_'1 I '6 22 '5 VeI : 9 '96 s103 r.442 c:t20 0.017 5.'l4 0.00 5.74 23.r 0.0 0.1 5.52 3.0B 23.I EqK 0.0 23.I Velr.5.55 K:?2? 15.55 C=720 0.00 0'0 0'0 3'7.61 0.089 13'19 1'2 23'2 Vel: 1'46 24.4 r\-1 .62 J /. OI PATH 10 FROM HYDRAULIC REFERENCE S1O3 TO 18 26.56 t.olg 11 2 '1"1 22 '5 22 '5 K : 5 ' 50 S103S C:720 5'O0 -0'9 0'0 26.56 0.220 '7 '7't t'6 22'5 vel : 9'96 7.442 8'15 23'L 23't Eqt<: 5'52 5103 C:I20 O'O0 0'0 0'0 11.01 0'009 8'15 0'1 23'I VeI = 2'78 26.60 I.442 13 ' 19 23 '2 23 '2 EqK = 5 '52 5104 C=720 0'00 0'0 0'0 i ^ .'> O \/a'l 7 46 l9 1B :=::::==:=:::=:: 26-60 1.049 1T 2'71 22'6 22'6 K: 5'50 S104S C:!20 5'00 -0'9 0'0 26.60 0.227 1'I7 l'6 22'6 Vel : 9'9'7 23.2 r\-5 .52 s104 26.60 PATH 11 FROM HYDRAULIC REFERENCE 15 TO 16 UNITS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BtsAutvroN'r ,tvrEirrruAr, u$N'rt;R Drawr;'";;::";ir"'313o,r.." e/ o/ Lz rr: ' ntnu t2 ::===::::::===:::===:::::===:::===:--:===--::::===:::==:::===:::::=::::--== HYD' QA DIA. FITTING PIPE Pt Pt REF rrcrr TYPES FTNG'S Pe Pv ******* NOTES ******* PO]NT Qt Pf/fL TOTAL Pf Pn :::::==:::=::::==:::::=:::::==:::'-===:::==--:::====:::==::::==:::==:::=:::::==:=: PATH 11 FROM HYDRAULIC REFERENCE 15 TO 16 CONTINUED 8-42 7'442 o'2-1 L-t '3 17'3 15 C--720 O'00 0'0 0'0 See PATH 3 B'42 0'006 O'2'7 0'0 11 '3 Vel: I'6'1 PATH 12 FROM HYDRAULIC REFERENCE F5 TO 85 22.s2 I.442 2T 14'85 21 '5 2'7'5 F5 C=L2O 14'86 0'0 0'0 See PATH 1 22's2 0'036 Bg'12 3'2 2'7'5 VeI: 4'55 K : 2.02 l6 x u/ ::--:::===:::::==::::::=::::===:::===:::==:::::=:::=--::::::::=::::=:::====::====: ?n '1 K : 4.73 tJJ .) a o.') PATH 13 FROM HYDRAULIC REFERENCE F4 TO 84 20.03 I.442 2T 74 ' 85 28 'r 28 'r F4 C:I2O 74'86 0'0 0'0 See PATH 1 20.03 0 ' 028 89 "72 2 '5 28 'I vel : 3 '9'7 30.5 K: 3.62 B4 20.03 PATH 14 FROM HYDRAULIC REFERENCE F3 TO 83 18 .2'7 1,.442 2T r-11nV- LLV r8.2'7 0.023 '7 4.85 14.86 89.'12 z6.J nn )1 )a? nn 2Q? SCC PATH 1 Vet: 3.52 30.4 K_3.31 11J 18.21 UNITS _ DIAMETER (INCH)LENGTH (FOOT)FL9W (GpM)PRESSURE (PSI) BtsAur,oN,r,,rvl'lr r uAr, eEN'r'uR Drawlng,";;;:";i r.' 3f Xo""." =::==:::::=:=:::::==:::==:::--:=::::==:::==::::===::===:::==::::==:::===::::==::: HYD. QA DIA. FITTING PIPE Pt, Pt pE r. r,Ctr TYPES FTNG'S Pe Pv ******* NOTES ******* :::::y:::=:?::: :::!=::--=::=:::::::==:::::=::=:::=::::=:::=:::==::==::::=::::=::: PATH 15 FROM HYDRAULIC REFERENCE F2 TO 82 CONTINUED 17.18 2.751 12 'oo 28 '5 28 '5 E2 C:I20 0'O0 0'0 0'0 See PATH 1 17.18 0'003 I2'OO 0'0 2B'5 Vel = I'52 9/ 6/LZ lJ: Page rJ r.442 r-1 )iV_LLV 17.18 0.027 2T 14.85 14.86 89.'72 aQ q nn tv 3.41 )Qq 0.0 28.5 Vel- =rt 2.635 1'2.00 30'4 30'4 81 C:!20 O'O0 0'0 0'0 11 1R 0.001 12'00 0'0 30'4 Vel = I / . !U r.02 30.4 f\-3.12 82 17.18 =::::::===:::::=::::=::::==:::===:::-_=::--===:::=::===::: PATH 16 FROM HYDRAULIC REFERENCE 89 TO B1O 56.'1 56.1L9.46 1.442 C:1?O 79.46 0 .026 2E 1T 70.93 I4. UO 85.79 0.0 2.5 0.0 See PATH 1 56.'7 VeI = 3.86 qRg 0.0 See PATH 17 58.9 Vel- : I'96 B9 -9. 59 1.442 c=l 2O 9.81 0.007 2E 2T bu. oo .a 2n a) aA hH I nn 0.620 LrO Z.13 I c:120 0.001 L2 .00 0.00 1,2 .00 nn no 0. 87 nn a \l^1 -5Y.O vs} - 9 .81 -2 7 4'7 39 2.I51 r-1 )a 0.001 12.00 0.00 12.00 59 .6 0.0 0.0 0. O See PATH 18 T^ . \ral : 0.665Y. o ver - -2 5 a1 , 1q1JL r-1tnU-IAV n ^ n nnnUO v. vwv 12.OO 59.6 59 ' 6 0.00 0'0 O'0 See PATH 19 72.00 0.0 59'6 Vel- = 0'45 . .') ) 1\'7.L.LJ .-1 tiv-L'v 2.85 0.000 12.00 0.00 12.00 nn 0.0 See PATH 20 . \r^1 - q.255Y.O ver - UNITS - DIAMETER (INCH)LENGTH (FOOT)E"T rrl^l /GPM\ PRESSURE (PSI) BEAULVION'r',LV.lt;DrUAl uljN'r'!iR Drawl-ng Date : sE;P'1'' ZU LZ Tyco Fire Products 9/ 6/rt IJ: 5 D:aa 1 A! qY v ::::=:=:: =::::: = HYD. QA DIA. EITTING PIPE Pt Pt REF rrcn TypES FTNGTS Pe Pv ******* NOTES ******* POINT Qt Pf/fI TOTAL Pf PN =: ::: :::::: :=:: :: : : :::= ::: : =:: :: : ::: :=:=:: ::= := : PATH 16 FROM HYDRAULIC REFERENCE 89 TO B1O CONTINUED UZ -r.32 I.442 1T v= !zv r.52 0.000 1 6.60 59 .6-1 .43 0. 0 84.04 0.0 59 .6 nnQao \9 h \/o I PATH 21 0.30 1?21A42 ^ I ^nV: IZV r a( n nn1L.VJ IT 61.59 7A? 69.02 59 .6 0.0 0.1 59 .6 0.0 See 59. b Vel- PATH 2123 D1 ) 6?q ?-1 a n r oq n nnnL.VJ 12.00 0.00 12 .00 nn nn 59.7 0.0 59.1 VEf, -0.17 D2 2-2.5 Z.OJJ r-1 ai tr. nQ n nnnJ. VU 12 .00 0.00 12 .00 59.-t 0.0 0.0 PATH 20 - n ?n qq '1 0.0 See 59.1 Vel D3 L.32 Z. OJ2 C:T2O 1 .39 0.000 t2 .00 0.00 12.00 59.1 0.0 0.0 6q 1 nnQoo qq ? \/ol PATH 19 0 .44 n/ 2.41 2 .635 ^ a ^nV: LZV 9.87 0.000 L2 .00 0.00 12.00 59.1 0.0 0.0 59.'7 nnQoa 59.'7 Vel- PATH 18 D5 9.59 Z. OJ] e= Lzv 19 .46 0.001 5.85 0.00 q R5 59.1 0.0 0.0 59.1 0.0 See 59.1 Vel- PATH 17 a 1a 3.260 C:720 19 .46 0. 000 1T n ,q 20.16 20 .4L 59.'7 0.0 0.0 nn I1 VEf -0 .16 B10 79.46 qq 7 K : 2.52 D^TLI 1'1 ED^M HYNRAIIT,TC REFERENCE 20 TO D5rAIr]' L I Llavl-l rr q qq 1 A42 --1 aAV_ LLW 9. s9 0. 007 87.53 14.86 L02 .39 58.9 0.0 See 58.9 VeI PATH 16 1 0n 2T 58.9 0.0 0.720 UN]TS - DIAMETER (INCH)LENGTH (FOOT) L4 ETALT /r:DM\!!vvr \v!!r/PRESSURE (PSI) BEAULVTON']' ,vrtiDr-uAr, (-tsN'I'HR Drawr-ns ";;;:";lr"'f130".." e/ b/ Lz Dida -1 6! sY v 9.59 59.1 K : I.24D5 Lrf, 2 2 41 r.442 2T c=1 )n 4'1 0.001 138.19 59.6 59.6 14.86 0.0 0-0 153.06 0.1 59 .6 SeC PATH 16 Vel- : 0 .49 2 .4'l 59.'t K:0 .32D4 ut 2.32 1.442 2T C:720 2.32 0.001 138.19 59.6 1-4.86 0.0 153.06 0.1 59 .6 0.0 See PATH l-6 59.6 Vel = 0-46 2.32 59 .1 r\-0.30D3 2 .23 1..442 2T r-1 )A 2.23 0.000 138.19 59.6 14.86 0.0 1s3.06 0.1 59 .6 0.0 See PATH 16 59 .6 Vef : 0 .44 2.23 59 .7 n-0.29D2 1.32 2.I51 G2 C=t2O t.32 0.000 hq h 5v h ^nnnv,v ^ n qq 6v.v See PATH 16 n 1^vej- : v. rz 12.00 0. 00 12 .00 UNITS - DIAMETER (INCH)LENGTH (EOOT) L5 FLOW (GPM)PRESSURE (PSI) BE;AULYION'I'IVITjUIUAI,UT.;N'I'!.;RDTAWINqDATC:SUP'I''ZUIZ9/b/IZlJ:5'l ' Tvco Erre Products Page !6 ::::::=: :::=:=::::::=::::=:=:::: ::::::=: HYD. QA DIA. FITTING PIPE Pt Pt REF rrcn TypES FTNGTS Pe Pv ******* NOTES ******* Dn r\Trn r-lr- Pf / ft TOTAL Pf Pn rwf!\f \zL ::::::=: ::=::::::::=:=:::::::::=::::::=: PATH 21 FROM HYDRAULIC REFERENCE G2 TO 23 CONTINUED 1 442 1E C=!20 2T 1,.32 0.000 88.60 18.58 107.18 59 .6 0.0 0.0 nn 0.26 L.32 59 .6 K : 0.1723 UNITS - DIAMETER (INCH)LENGTH (FOOT) 16 E"T.f.\Ial /(]PM)\vr+r/PRESSURE (PSI) - BEAUMONT MEEICAL CENTER Drawing Date:SEPT' 2Ol2 HYDRAULIC DESIGN INFORMATION SHEET e/ 6/12 Job Name Location Drawing Date Contractor BEAUMONT MEDICAL CENTER 37 SOUTH 2ND EAST REXBURG, IDAHO 83440 SEPT. 2OT2 PHOENIX FIRE 4130 AIRPORT ROAD NAMPA IDAHO 83687 Remote Area Number: TeIePhone:2OB 468 9115 Designer: DON WELAND Caf ".-,f ated BY: SPri-nkCAD www'sPrinkcad'com 451 N' Cannon Ave' Lansdale ' PA 19446 construction: irloesrucrED NoNCoMBUSTTBLE Reviewinq eutiro;ilit":STATE FIRE MARSHAL' OccuPancY : LIGHT HAZARD OWNER SYSTEM DESIGN q\rql-pm eJ v vv--'Type: DRY Hazaro: LrunlcooelurPn t: Area of Sprlnkler OPer ZOZS sq ft QnrvI.-nkler -T .\PE"g!vuu - trl^zzl eU! 0.100 130.0 sq ft o gpm 100 gPm Make: Density (gPm/sq ft) Area Per SPrinkler Hose attowance Inside Hose Allowance Outside Model: GL5615 K-Factor: 5 ' 60 TemPerature Ratrng: zvv celeuiattoN SUMMARY gpm Required: 4I9 '6 psi Required: 18 flowing Outlets 70.8 G SOURCE rrrrrrrrrrrrrrrrnsuPPLY Date of Test Stati-c Pressure Residual Pres At a Flow of El-evation Rated CaPacitY Rated Pressure 0 f,1 ^-.^t a nllICVAurvll Make: Model: B-B-2072 oa n nqlUL. v E v+ n *^ i/Y.u Prr 1 2Qq dnmIJvr Y!/"' 0tt PumP DataWater FIow o gpm al nq lv t/v+ 0 Location: Source of Informatron: ON SITE PHOENIX FIRE PROTECTION @7 Gallons Nl^l. 6q' ! dHTffiE*EPE- )8i2hi '- tu -'l ;E6f; dg=Ee>rftz--{ mv iFsg$F 2- gR -lm@Edds :i('roo'-to c o E o''' F$*EHe 9-Ff,8 d.F EE SJJE o 7Jnadd5 _! Jtt 9aj-e(/,t 0 ot(o t=ooo- dFtsd o@oo@EEEEE oo(oEpa 3-' ooo'o'o o Io€s aOGItt3 }JE]AUIVION.l. luBlJlUAL Ut';N'1.8]R Drawlng Date: SE;P'1.'. /'0Lz HYDRAULIC CALCULATION DETAILS 9/ 6/ rz r{. h QTY DESCRIPTION Hydr Ref 1 3" Grvd 1 Pipe 3" 1 3" Grvd 1 3" Grvd L t 1 1 1 1 BOR Required 90 EII Firelock I0x2t ButterflY Valve "BFV" Back Fl-ow Valve APOLLO Required at 320 - 1C.4 320 0.0 320 0.1 320 0.0 320 0.1 320 0.3 320 0.0 100 gpn 420 70.8 420 not ::=11:1 10. B Hydr Ref FF Pipe 6" DIxIB Cl 350 6" MJ 90 Etl Pipe 6" DIxIB Cl 350 6" MJ 90 EtI Pipe 6" DIx1B CI 350 6" Flngd Gate Valve NRS Fixed FIow FIRST FLANGE 61 140 741 r20 10' 140 74' r20 100' 140 3' r20 Elow Loss LENGTH C at Hyd Area 2'l' L20 2', r20 10' !20 ''D CHART LOSS 320 3.068 320 3.260 320 3.068 320 320 b.5JO 6.065 6.338 6.065 6.338 6.065 HYDRAULIC ID FLOW gpm of 70.8 Psi LOSS psi TOTALS 62.1 Psi nq 0.2 r.z 6.0 psf HYdr Ref SRC Water Source 82.0 Required at SOURCE psi static , 19.0 psi residual G 1385 gpm nql-v" * nei-v" * nq l-v" *SAFETY PRESSURE Avail-able Pressure of 81'7 psi Exceeds Required This is a safety margin of 10 ' B psi or 13 % of Maximum Water Velocity is I'7 '3 fps D16qaltra Qrrnn-l rlv 4E E - J B!.JAUTV.ION'I IVIT.JIJIUAI, UEN'IER DTAWTNq DATC:5EP'I ' ZOIZ 9/ b/ rz l{. 5 ABBREV. FITTING NAME TABIJE NAME HYD REF K FACTOR uo nt UIN (. DF /fT PI PE FTNG'S TOTAL Pe YT Pv Pn NOTES: (- E F T V Coupling 90' Standard E]bow 45' Elbow Straight Fl-ow Thru Tee 90' FIow Thru Tee VaIve LEGEND Hydraulic reference. Refer to accompanying riow factor for open head or path where Flow FIow added or subtracted Total flow flow diagram. (gpm) :Kx-\/P Pressures are listed to psi due to accumulation of Actual- internaf diameter of PiPe Hazen Williams pipe roughness factor Friction J-oss Per foot of PiPe Length of PiPe Num6er of fittings. See table above ' Total length (PIPE + FTNG'S) Total Pressure (Psi) at fitting Pressuie due to change in el-evation where Pe : O ' 433 x change in elevatron Friction loss lPsi) to fitting where Pf : I x 4.52 x (a/C)^1'85 / ID^4'B'7 VelocitY Pressure (Psi) where Pv : 0.001123 x Q^2/ID^4 Normal pressure (psi), where Pn : Pt - Pv Pressures are balanced to 0 ' 01 Psr 0.1 psi. Addition may vary bY 0 ' 1 round off. Calculations conform to NFPA 13 ' VelocityPressuresarenotconsideredintheseCalculatrons - BEAUIVTON'1'IVl!.;IJI.UALUEN'1'gRDTAW]'NgDATC:SEP'1''ZULZ' 9/ 6/ rz Da do! syv ::::=::=:::=::=:::--=::=: ::::=::=:::=::==:::=::=: r\.I^N!' F,T,EVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL r\vuc. --_.,r'I IU,n :r:i:l::.. FL'W FLOW DENSTTY NUMBER (Fr) ,.f")i;3?lr, , (psr) (GpM) (GpM) (GPM/'Q' Fr) :==:::=:::=::::==::==:==:==--:::=:::=::=:=:=:::=::=:::=::::::=:::::--=::==:::=::==Atr. E.1. 1n,00 aJ'J Lz =v'vv AC' r-/n'00 EJ'J IJ AQ tr. 1A 40.00 aJ'J .lLa /E ( 1q 40.00 =J'J rJ Atr' tr' 4. /n.00 aJ'J -LO =v ' vv -t1 40.00 q3'f, ! I Atr. q/ n.00 4J ' J 10 :v'vv Ar R/n'00 aJ'J IY av ' vv .^ 11.83 f,/'oZV .1 26.00 3r'o ZL . .. t6.OO f,r'o ZZ o .1 11.83 l/'o zJ 1'1 1 A1 45.50 rt't 11 a A) 45.50 r/':u nL ie -1 n. 1C.50 LU'! AJ 10 o AA 45.50 La'J fla .^ nt nn oz'v AO ''vv .^ i^ nn OZ.L BOR z'vv AC. tr hl /0.00 .rJ'J ttJ- :v'vv Atr, tr no 40.00 'tJ'J bz AE c r. /0.00 eJ.J bJ =v'vv Ac' E 84 40.00 +J'r AC- t 85 40'00 +J'J Atr, q/0'00 =J'J I1O :v'vv /c. q n? n0.00 =J'J bI av.vv E_l C-o 25.00 Jr'v 11o nn 11.83 5/'o bJ ni^ 11.83 f,/'o ul.u rr ' vv ^1 )6.00 5r'o UI trl C r) ?6.00 Jr r u 7i 7e.oo s1'6 LJ c4 26.00 :l' : r-( ?6.00 5r-'o 7'^ 7a.oo s1'6 uo E't o11'83 JI 'u lJl rr'uJ q-l an. 11.83 Jt'v DZ rr'vv E-l a n? 11.83 J/ru uJ tr? o n4 11.83 Jt'ov ua^ nq 11.83 3/'o uJ c, l A ?6'00 Jf,'v t!-L 'v ' vv E,'> 2.6.00 rr- ' o LZn- 26.00 5r'b I5J 'v ' vv r--t A ?6'00 Jr'v 1,4 z Es 26 'oo ?+ 2 tr6 26.00 J! ' v B|.;AULVION,t.ylElJIUAl,UEN.IE;RDrawrngDate:SEP.I.l0Lz 9/ b/LZ -LJ: 5 Page 5 ::=::::===:::::::::=::::==::::::--=::::=::::==:::::=::::: NODEELEVATIONSPRINKLERPRESSUREACTUALMINIMUMACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT)(GPM/(psi^le)1(eSI)(GPM)(GPM)(GPM/SQ.FT) ===::::::=:::--==:::::=::::===--::===::::==::::==::::=::::==:::====:::--==: nn 45.5 T1 4u'uu q.? a -1 11.83 JI'v \Jr(?a ^. 11.83 ::':VZ h/ x-') 1 1 .83uJ(?a I I . dJ(Jzt (? a, ' . bJb3 !r'vv (? R' ' ' dJbO^ Hf 11'83 5/'o 57'B' ' ' oJlI Atr, q s1O3 40.00 aJ'J s104 40.00 45'5 s201 4s.50 5'60 -l '4 15'3 14'B o'I2 s2O2 45.s0 s';o '7"7 1s's 14'8 o'12 s2o3 45.s0 s';0 8'6 16's 14'B o'13 s2O4 45.50 s';0 10'7 18'3 14'B o'14 s20s 4s.s0 5';o 14'6 2t'4 14'B 0'16 s2O6 4s.s0 s';0 l't 15'0 74'8 o'r2 s2O1 4s's0 s';0 '7'4 r5'2 r4'B o'72 s20B 4s.so 5';0 B'3 76'\ 14'B o'72 s2os 4s.50 5';o 10'3 1B'0 14'B o'14 s21o 45.50 s';o 14'o 2O's 14'B 0'16 s27r 4s.50 s';0 '7'O 14'8 14'8 0'11 s2r2 4s.50 s ';o '7 '2 1s ' 1 14 ' 8 o '!2 s2r3 4s.50 5';o B'1 16'0 14'8 o'r2 s2r4 45.s0 s';o 1o'i r'7'B r4'8 o'14 s275 45.50 s'oo 73'i 2O'1 14'8 0'16 s2!6 45.50 s'oo 13'3 2O'4 L4'8 0'16 s2r'7 4s.50 s';0 1'3'1 2O'7 14'B 0'16 s21B 45.50 s'oo 15'3 27'g 14'8 o'11 Max verocity of r-r.2s occurs in the pipe from s205 To A4 BEJAUIV,ION'I' JYJ!jIJIUAI, CEN'IT.;R UTAWTNg DAIE:S$PI ' ZUIZ ' TYco Fire Products PATH 1 FROM HYDRAULIC REFERENCE 5211 TO BOR (PRIMARY PATH) 9/ 6/tz IJ: 5 Page 6 74-82 t'442 10'33 7'O 7'0 K = 5'60 d.i1 C:100 0.00 0'0 0'0 J'LL 74.82 0'022 10'33 0'2 7'O Vel : 2'94 lq 06 !'442 11'00 '7'2 7'2 K: 5'60 ^'1' '':1 nn 0'00 0'0 0'0>z!L zg.Bi ;.0;i 11'00 o'9 1'2 vel: s'93 1q 96 I.442 11.00 B'1 B'1 K: 5'60 s273 c:100 0'00 0'0 0'0 Ac 84 0.180 11-00 2'O B'1 VeI : 9'09 aJ.va 11.00 0.00 10.1 0.0 10.1 0.0 r\-5. 6017.80 I.442 C:100S2I4 63.63 ;.t;; 11.00 3'6 1o'1 Vel = 12'62 s215 20 .15 r.442 1T C=100 84.38 0. s55 2.00 13.1 s.30 0.0 7.30 4.r 73.'7 K: 5.60 0.0 13.'7 VeI : 16.'l4 n,)AL 63.09 3.260 C:100 74'1 .41 0.029 11.00 0.00 11.00 71 .8 0.0 0.3 17. B nnSao 11 .B Vel- rA r .Fl 'r AJ 85.17 3.260 ^-1 nnu-fvv 232.64 0 . 068 11.00 0.00 11.00 18.1 0.0 0.8 18.1 0.0 See PATH 2 18.1 Vel : 9.03 86.98 3.260 ^-1 n nU_IVV 3r9 .62 0 .I23 5E 1T L49.82 4'7 .96 79'7.'78 tx Y 1a a .A ? -r R q 0.0 See PATH 3 18.9 VeI : 12-41A4 A6 3.260 C:100 3r9.62 0.r23 0.81 0.00 0. B1 oz.v 0.0 0.1 62 .0 0.0 oz.v VeI : 12.47 62.r K: 40.55 BOR 3\9.62 PATH 2 FROM HYDRAULIC REFERENCE S2O5 TO A3 UNITS _ DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BEAUTVION'I' IV]TJDIUA! UE;N'IER DTAWf Ng DATC : STjPI ' ZU IZ' 9 / b / LZ , i ' TYCo Fire Products |Ja.fo I PATH 2 FROM HYDRAULIC REEERENCE 5206 TO A3 CONTINUED s206 14.96 r.442 c:100 14.96 0.023 10.33 '7 .7 0.00 0.0 10.33 0.2 1.r 0.0 1.r V: vgf - 5.60 2.9'7 1A lr 1 aa2 11'00 8'3 8'3 K: 5'60 fvtf+ 15.20 r.442 11'00 '7'4 1'4 K: 5'60 s2O1 c:100 0'00 0'0 0'0 30.16 0.083 11'00 0'9 1'4 vel: 5'98 1A | | | ll4,/ rr.vv S2OB C:100 O'00 0'0 0'0 46.21 0.183 11'00 2'0 B'3 Vel- : 9'18 11.00 10.3 0.00 0.0 11.00 3.1 - aAK: f,.OUr'7.96 r.442 C:100 64.23 0.335 20 .94 r.442 1r C:100 8s.17 0. s6s 10 0 10 n Vel- : 12.'7 4s209 s270 2 .00 5.30 7.30 14.0 0.0 4.r 5.60 = 16.90 14.0 K 0.0 14.0 Vel- 18.1 K : 20.0285.17 c:100 0.00 0.0 u ' v A1 '1 n lqn 11'00 2'L 8'6 Vel: 9'38 al-Lt K: 5.6018.34 65.51 Vel- : 13.02 PATH 3 FROM HYDRAULIC REFERENCE S2O1 TO A4 15.28 7.442 10'33 '7'4 1'4 K - 5'60 S2O1 C:100 O'00 0'0 0'0 1c ?B 0.024 10.33 O'2 1'4 Vel-: 3'03 LJ.19 1( q? 1 aa2 11'00 1"1 1"t K: 5'60 S2O2 C:100 O'O0 0'0 0'0 30.81 0'086 11'00 0'9 7"7 Vel-: 6'II 16.46 r.442 11'00 8'6 8'6 K: 5'60 s2O3 c:100 0'00 0'0 0'0 o . \7n1 q ?R AJ r.442 C:100 0.349 11.00 0.00 11.00 10.7 0.0 3.8 10.7 0.0 10.1 UN]TS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) uh;AUlv.LUN'1' vltiDf uAl, uLlN'I'!.iR Drawrng Date:stiP'1'. zuLz 'l ' TYco Fire Products Qa DIA. FITTING 'ICII TYPES Qr Pf/fL PIPE Pt, ETNGr S Pe TOTAL Pf PN 9/ b/ rz ptdo x Drr ******* \IO'Ftrq *******E v rrvf !u HYD. REF POINT :=:::=:: :::::=:= PATH 3 FROM HYDRAULIC REFERENCE S2O1 TO A4 CONTINUED s205 2.00 5.30 7.30 74 .6 0.0 4.3 14 .6 0.0 14 .6 2I.31 r.442 1T C=100 86.98 0.587 K - 3.OU Vel- : 71 .25 A4 86.98 18.9 K : 20.03 :::=:::: =::::::= PATH 4 FROM HYDRAULIC REFERENCE 5216 TO A2 )ZIO 11.00 0.00 11.00 13.3 0.0 0.4 13.3 0.0 13. 3 K Vel 5.60 4.05 20.4r r.442 ^-1 nnU-AUV 20.41 0.040 S2I1 11.00 0.00 11.00 L3 .1 0.0 t.6 73.1 0.0 ]-3.1 K Vel 5.60 8.16 20.15 r.442 C:100 47.16 0 .r4'7 s218 2.00 5.30 7.30 nn CA 15.3 0.0 15.3 2r.94 1.442 c:100 63.09 0.324 1T 11 - 3.OU VeI : 12.52 A1 3.260 c:100 63.09 0.006 11.00 0.00 11.00 11 .'7 0.0 0.1 71 .7 0.0 11 .'7 ) Ar- A2 53.09 17. B K:74.96 UN]TS _ DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) - BEAUMONT IqEDICAL CENTER Drawing Date:SEPT' 2012 HYDRAULIC DESIGN INFORMATION SHEET BEAUMONT MED]CAL CENTER 3'7 SOUTH 2ND EAST REXBURG, IDAHO 83440 SEPT. 2QI2 PHOENIX FIRE 4130 AIRPORT ROAD NAMPA IDAHO 9/r8/12 1".a2 Remote Area Number: 3 Telephone:2OB 468 9115 Job Name Location Drawing Date Contractor 83687 Designer: DON WELAND Calcul-ated BY : SPrinkCAD www'sPrinkcad'com 451 N' Cannon Ave' Lansdale, PA 19446 Construction: UNOBSTUCTED NONCOMBUSTIBLE nu.ri"tittg Authori-ties : STATE FIRE MARSHAL' OccuPancY : LIGHT HAZARD OWNER SYSTAU DESIGN Hazard: LIGHT System TYPe:WET Code:NFPA 13 Aree-of SFrinkler oPer Density (gPm/sq ft) Area Per SPrinkler Hose allowance Inside Hose Allowance Outside qnr vl!-nkier or Nozzle Make:.T r\QE Model: GL5615 K-Eactor: 5. 60 Temperature Rating: 200 1109 sq 0.100 130.0 sq o gpm 100 gpm fr fr eer,cul,arroN SUMMARY 13 Flowing Outlets 50.3 G SOURCEgpm Required: 302 '3 psi Required: WNTSN SUPPLY Date of Test Static Pressure Residual Pres At a Flow of Elevation Water FIow 8-B-2072 oa O nqiaL. v I'vL 79.0 Psr 1385 gPm 0tt PumP Data CapacitY Pressure 0 ion n^!^l|\'d. LUU n^!^lt(d Leu I"ld. [E . TrilnAa l . 0 .0 0 gpm nq lv"* Locatron: Source of Information: ON SITE PHOENIX FIRE PROTECTION STsTEM voLUME 521 Garlons N]^l-aq' -aa r$*Egf, dFeuForc'll$NO)EEEEE qfi;Fs BEP=xBiZl'i -p-{773ft 6S=pq9! A5R z-{mv tp E2I tB 9g= E6'qru3:oii,9. ^--r- H@N)6bb (o!EP e.e. 3 9=T:a8 d.FEE 5o nna oo= 3Fi2/r')= o Iot GIT'I ooo- T oo Eoooo ooo- oo(o! o(, 3 rclH9;.(D z 2*t+ l\)o N) lo{ (a tt3 BT.JAULVIUN'I' LVITjIJIUAL Ub;N'I'TJR DTAW]-Nq DATC : STJP'1'' ZU IZ HYDRAULIC CALCULATION DETAILS 9/ rv/ rz L3i4Z LENGTH C at Hyd Area 3'71 r20 2' r20 10' r20 ''D CHART LOSS HYDRAULIC ID T n qq psi TOTALS 43. Z psr iA 0.1 n6 6.0 50.2 Psi FLOW gpmQTY DESCRIPTION Hydr Ref BOR Required 1 3" Grvd 90 Ell Firel-ock 1 Pipe 3" I0x2I 1 3" Grvd Butterfl-y Valve "BFV" 1 3" Grvd Back Flow Val-ve APOLLO Hydr Ref FF Pipe 6" DIx18 Cl 350 6" MJ 90 E]] Pipe 6" DIxIB Cl 350 6" MJ 90 Ell Pipe 6" DIxIB Cl 350 6" Flngd Gate Vafve Required at 1 1 1 1 1 1 HYdr Ref SRC Water Source 82.0 Required at ^^.: ^f -f .i ^ '7Q O nci LrSr JLOLru, tJ. v I/v+ SAFETY PRESSURE 202 3.068 202 3.260 202 3.068 202 202 NRS Fixed Flow FIRST FLANGE 6' 140 r4' 120 10' 140 74', 720 100' 140 3' r20 Flow Loss 6.338 6.065 6.338 6.065 6.338 6.065 302 1385 gpm 302 202 202 0.0 202 0.0 202 0.0 202 0.0 202 0.1 202 0.0 100 gpm SOURCE residual G 50.3 Psino* :=:11:1 o"' 31.5 Psr Availabte Pressure of B This is a safetY margrn Maximum Water VelocitY 1. B psi Exceeds of 31.5 Psi or is 12.0 fps Required Pressure 38 % of SuPPJ-Y of 50.3 psi- BT.JAUIVION,I' IVIEIJIUAj, UEN,ITJR DTAWfNg DATC : 5BP,I,ZU TZ.9/ rE/ rz L3:42 rcrgE J ABBREV. FITTING NAME TABLE NAME Coupling 90' Standard Elbow 45' El-bow Straight Fl-ow Thru Tee 90' Fl-ow Thru Tee VaIve LEGEND Hydraulic reference. Refer to accompanying fl-ow diagram Ffow factor for open head or path where FIow (gpm) : K x -\/P Flow added or subtracted Total flow Actuaf internal- diameter of PiPe Hazen Williams pipe roughness factor Friction loss Per foot of PiPe Length of Pi-Pe Number of fittings. See table above ' Total length (PIPE + ETNGTS) Totat pressure (Psi) at fitting Pressure due to change in el-evatron where Pe : 0.433 x change in el-evation Friction foss (Psi) to fitting where pf : f x 4.52 x Q/C)^1'85 / ID^4'8'7 Velocity Pressure (Psi) where Pv : 0.00II23 x Q^2/ID^4 Normal pressure (psi), where Pn : Pt - Pv (- E F T V HYD REF K FACTOR Qr DIA r- Pf/ft PI PE FTNG ' S TOTAL PT Pe rL Pv Pn NOTES: Pressures are balanced to 0.01 psi' Pressures 0.1 psi. Addition may vary by 0'1 psi due to round off. Calculations conform to NFPA 13 ' Veloci-ty Pressures are not considered in these are fisted to accumulation of Calculatrons BEAUIVIUN,I,LVj|jIJIUA|UtjN.I't.jRDrawrngDate:StjP.]..2ut29/LE/IzL3i42 :::=:::: ::::-.:=::::::::= =::::::: NODE ELEVATION SPRINKLER PRESSURE ACTUAL MINIMUM ACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (Fr) (GPM/ (PSI^%) ) (PSI) (GPM) (GPM) (GPM/SQ' FT) ::==:::=::::::=: :=:::::: =::::::: I2 13 I4 15 I6 7'7 18 19 20 2I 22 23 A6 BOR B1 DZ IJJ B4 -IJ J lJO B1 ud B9 810 a'l C2 C3 rA C5 UO D1 D2 D3 D4 D5 E1 E2 LJ t4 r-f, -LO F1 E2 -EJ E4 TJ F6 F1 -1gI aag- bJ 40.00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 11.83 26.00 26 .00 11. B3 2 .00 2 .00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 26 .00 11.83 11. B3 26.00 26 .00 26 .00 26 .00 26 .00 26 .00 11.83 11. B3 11. B3 11. B3 11. B3 26 .00 26.00 26 .00 26 .00 26 .00 26 .00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 11.83 11. B3 11. B3 12 .6 12 .4 12.0 II.1 ]-1".1 11.0 12 R 11.1 31 .2 25 .8 25 .8 A? ') 43.2 12.L t2.r 12.3 12.5 13.0 13.'7 I4.7 25 .8 35. 6 37. B 25 .8 25.8 25.8 25 .8 25 .8 25 .8 31 .'7 31 .'7 3'7 .'7 31 .1 25.8 25.8 25 .8 ,\ R )\ R 25 .8 8.1 8.0 R.l 8.3 8.9 a) 9.3 31 .1 31 .'7 31 .1 BEAUIVIUN.l.. lvlt.jlJ.LUAL uEN,1.HR jjrawlng Date : SE]P.1'. z0 Lz.9/ rv/ rz L3i42 n^^^ q rdgs J ::=:::::::::--::=:::::::=::::::=::=::=:::::=::=::=::::::::::=::::: NODEELEVATIONSPRINKLERPRESSUREACTUALMINIMUMACTUAL NUMBER K-FACTOR FLOW FLOW DENSITY (FT) (GPM/ (psi^") ) (PSr ) (GPM) (GPM) (GPM/SQ ' Fr) :::=:::::::::::= :::::::= :::=:::= ^A 1.1 83 3'7'1 (f q rr ' vv -- a G5 11'83 rt'l -. 11,83 3-1 '1UO ul 11,83 rr'o NI r.r 11,83 5t't I..l- J1 40.00 d'u K1 40.00 B'1 s1O3 40.00 11'5 iro+ 4o.oo r2'o s301 40.00 5'60 7'0 14'8 14'8 0'11 s302 40.00 5'60 -1 'g 15'7 14'B o']-2 s303 40.00 5 ' 60 7 'g 75 "7 14 ' B 0 'I2 s304 40.00 5'50 8'0 15'9 14'B 0'r2 s305 40.00 5'60 7'0 14'8 14'B o'11 s3O6 40.00 5'50 '1 'g 15'8 1-4'B o'12 s307 40.00 5'60 't'g 15'B 14'B o'r2 s3OB 40.00 s'50 B'O 15'9 14'8 o'1'2 s309 40.00 5 ' 60 '1 'r 1'4 'g 14 ' B 0 ' 11 s31O 40.00 5'60 -1 '2 15'0 14'B 0'I2 s311 40.00 5'60 B'1 16'0 14'B 0'r2 s3r2 40.00 5'60 8'1 16'0 14'8 0'r2 s313 40.00 s ' ;0 I ' 3 16 '7 t4 '8 o '72 MaxvelocrtyofT2.o2occursinthepipefromBTToBS BEAULV]ON'1' LVITJIJI-UAT UUN'I'TJR JJTAWINq DATC : SEP']'' ZO LI TYco Fire Products 9/ Ld/ Lz LJi42' Page o PATH 1 FROM HYDRAUL]C REFERENCE S3O]. TO BOR (PRIMARY PATH) 1 .0 K: 5.60 s301 L4.82 r.049 1T .-1 an t4.82 0.075 9.00 '7 .0 5.00 0. 0 14.00 1.0 0.0 l.u vel:5.55 See vel-F2 11.04 2.r51 --1 a6w-rav 25.86 0.006 L2.00 0.00 L2 .00 8.0 0.0 0.1 8.0 0.0 8.0 PATH 11 AND 6 2.29 L.442 ^ I ^nL= !ZV 25.86 0.044 2T 14.85 14.86 89.'72 R1 0.0 4.0 5.13 8.1 0.0 U.I VC.L =F1 B1 2 .635 c:120' 25.86 0.002 12.00 0.00 ]-2.00 12.t 0.0 0.0 L2 .1. 0.0 12.1 1 trA DZ ?1 RT ) 6?^ r.-1 ) AU-IAV 51 .36 0.010 12.00 0.00 12 .00 12.T 0.0 0.1 72.7 0.0 See PATH 5 I2.I Vef = 3'41 B3 ?-r on ) A?\JL. JV ^ I ^n| = | /tt aa )G n n??vJ.-v 12 .00 0.00 72.00 72.3 0.0 n? 72.3 0.0 See PATH B !2.3 Vel : 5.30 See Vel-B4 32.!9 2 .635 r-1 anv- L-v r2r.45 0.041 L2 .00 0.00 12 .00 1) q nn nq 12.5 0.0 t2 .5 PATH 10 1 .22 TJf, 26.39 2.635 r--1 1iV_ LLV r41 .84 0.059 72.00 0.00 12 .00 13.0 0.0 0.7 13.0 0.0 See PATH 12 13.0 Vel : 8.78 uo .2 0Q 2 6?\LJ. JV i-1)i 111 a2 n n?Qf / I. uJ v. v I v 12 .00 0.00 72.00 nn no 0.0 See PATH 13 1? ? \/c1 = 1O.27LJ. I B'7 30. 45 2.635 ^-1 aA .^. )Q n 1n6LVL.LU vtf vv 2E 1T l.4.84 A1 ?o 1A 7 a1 hl I4.1 0.0 See PATH 2 I4.1 Vel : 12.02 2.635 r-1 )i .A. tQ n Tn6LVL. L 2E I'7.10 16 .4'7 34.11 a1 25.8 0.0 25 .8BB Vel- : 12.02 UNITS - DIAMETER (INCH)LENGTH FLOW (GPM)PRESSURE (PSI) BEAULVION'1' LVIT;]JICAIJ UT,JN'I'!jR DTAWTNg DAIE : SEP'1'' ZU IZ TYco Fire Products 9/ IV/ IZ 13i4/. D.da '1 L sYv H1/n REF Qa DIA. FITTING PI PE Pt Pt ilcrt TYPES E'FNIC I q Pc Pv ******* NOTES ******* POINT Qt Pf./ft TOTAL Pf PN :=:::--:: :::::::=:=::::::=::::=::::=:=::=:=::::=:::::::=: PATH 1 FROM HYDRAULIC REFERENCE S3O1 TO BOR (PRIMARY PATH) H1 3.260 c:120 .>n) )Q n n?RLV'. L 1.00 0.00 1.00 35. 6 0.0 0.0 35.6 0.0 35. 6 7. B5 B9 ^ ^ad-lb.lI J.zov 786.11 0.032 1E 1T 35. 95 29 .51 65 .52 35. 6 0.0 2.r 3s. 6 0.0 See PATH 14 35. 6 Vel : '7 .23 810 q R? 20 .1,6 29 .99 37. B A') 1.1 15.11 3.260 ^-1 ai 202.28 0.038 1T 37. B nnQao 37.8 VeI nnmrr 1A " aR A5 3.260 ^-1 aiW.LLW 202.28 0.038 0.81 0.00 0. B1 Aa ) 0.0 0.0 43 .2 0.0 A'7 )VUf -? R5 BOR 202.28 43.2 K : 30.78 s305 1.0 0.0 7.0 I\ Vel s. 60 5. 55 L4.82 I.049 1T c:l 20 L4.82 0.075 9.00 7 .0 s.00 0.0 14.00 1.0 J1 4.18 2.r5'7 c=l ?O 19. 60 0.004 4.00 0.00 4.00 8.0 0.0 0.0 8.0 nnQoa 8.0 Vel PATH 11 1 1Ar. /= IJ 15.50 2.r51 ?-1 ') nv- L-v 35.10 0.011 4.00 0.00 4.00 R.l 0.0 0.0 nn(aa 8.1 Vel PATH 7 a 11 K1 14.81 2.r51 r.-1 aA9- L-V 49.91 0.021 8.00 0.00 8.00 R-1 0.0 0.2 R1 nnQoo a 1 \/ol PATH 3 A Aaa.:J E4 30. B5 2.151 r-1 Ci 80.82 0.051 12 .00 0.00 72.00 8.3 0.0 0.5 nn See VeI PATH 9 AND 4 - 1a UNITS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BEAUrvroN'r' vlr.:rrruAL utsN'IER Drawrng ";;;:";lr"'|i'"o".r" ::::=:=::=::::=::=:::=:: =::::=:: HYD. QA DIA. FITT]NG PIPE Pt PI REF rrcrr TYPES FTNG'S Pe PV ******* NOTES ******* ^n rrrn .\+ Df / f I TOTAL Pf Pn =::::::==:==::=:=::=:=:: ::==--=:=:::--==:= PATH 2 FROM HYDRAULIC REFERENCE S3O5 TO 87 CONTINUED 9/ IV/ IZ I3'-42 8.9 0.0 See PATH 12 8.9 Vel- : 4. 83 n^-^ OrdVE u 39 43 r5 -26 54 2.751 C:I20 0.025 12.00 0.00 72 .00 8.9 0.0 n? -23.98 2.r51 --1 anw- L-w 30.45 0.008 12.00 0.00 12.00 9.2 0.0 0.1 9.2 0.0 See PATH 13 9 .2 Vel : 2 --10F6 1 a'a) 11 23.20 9'3 9'3 L-aa- na C:720 7.43 0'0 0'0f/ 30.45 0.060 30'63 1'B 9'3 Vel 5.'7 4 11.1 0.00 0.0 5.'74 0.3 6.04 19 r.442 c=12O 30.45 0.060 11.1 0.0 11.1 VEf -6.04 s103 1, .442 ^ a dAv: Lzv 30.45 0.060 R 15 ll 'l nn -t-L.3 n0.0 11.5 n0.00 a 1q h \/a | =6.04.15 s104 r.442 C:720 0.060 1? 1q n nn l< tv 12.0 0.0 0.8 6 .04 12.0 0.0 L2.0 Vel = 30.45 r.442 E= LZV 0.060 24 .58 1 .43 32.07 72.8 0.0 1.9 6.04 1T 12.8 0.0 12.8 Vel :1B 30.45 1A r K: '7.94 na ?n 45 La' t b I Jv ' - :=:::::: ::=::=:: PATH 3 FROM HYDRAULIC REFERENCE S3O9 TO K1 1T 1.\ 0.0 1.1 '7 .r 0.0 K: 5.601A a'i 1 ndgrt. v I ^ a ^n| : | / It 9.00 5.00 14.00s309 1.I Vel: 5.58I4B'7 0.075 8.1 tr aat\ - J.L- K1 74 .81 DATFI.I d trROM HYDRAULIC REFERENCE S31O TO F4 INII! : NDUCCTTD[' UNITS _ DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) BEAUTVION,I,LVIT.JIJIUA],UE;N,I.!'JRDTAW].NqDAIC:STJP,T..Z.UIZTyco Fire Products 9/ 16/ LZ )-3:.42 9AdA V ::::::== :=::=::: HYD. QA DIA. F]TTING PIPE Pt Pt REF 'Crr TYPES FTNGTS Pe Pv ******* NOTES ******* nnr\rm nr- Pf /ff TOTAL Pf Pn rvft\r ve :==::::= :=:=:::: :::===:=::=:=::::=:=:=::::::::== PATH 4 FROM HYDRAULIC REFERENCE S31O TO F4 CONTINUED s 310 9.00 5.00 14.00 0.0 1'1 7.2 0.0 1.2 n VeI 5. 60 s. 63 15.03 7.049 1T ^ a 4n.= IZV 15.03 0.011 F4 15.03 8.3 r\ - J.LL :==:--:::=::::::: ::=:=::: =------- PATH 5 FROM HYDRAULIC REEERENCE S3O3 TO B2 lc ?3 7.442 7.00 1-9 '7'9 K: 5'60 S3O3 C:I2O 0'00 0'0 0'0 1q 65 0.018 7.O0 0'1 1'9 Vel: 3'10 s304 8.0 0.0 8.0 K Vel- 5. 60 6.25 15.86 r.442 1T r-1 aAv- L-w 31. 51 0.064 56. 85 8.0 1.43 0.0 64.29 4.1, Itz 31.51 12.I K : 9.04 PATH 6 FROM HYDRAULIC REFERENCE S3O2 TO E2 s302 1.00-t .43 8.43 ?q 0.0 0.2 1.9 0.0'7 .9 K Vel 5.60 3.14 15.73 r.442 1T r-1 1iV- LLV 15.82 0.018 F2 75 .82 8.0 K : 5.58 :=::::::=::::=:: ::::::=: PATH 7 FROM HYDRAULIC REFERENCE 5306 TO F3 s306 1.00'7 .43 B.43 nn n1 1q 0.0 1.9 K Vel 5.51 3.07 15.50 I.442 1T C:l20 15.50 0.017 UN]TS - DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PSI) B!,JAULV]ON'I IV]HIJIUAI' CL;N'I'UR DTAWINq DAIC:SEP'I- ' ZUIZ TYco Fire Products 8.1 V: \ At-l 15.50 9/ rv/ rz r3t42 Paqe 10 PATH B FROM HYDRAULIC REFERENCE 5306 TO 83 0.26 L.442 10'00 1'g 1'9 K: 0'09 s306 C:120 0'o0 0'0 0'0 0-26 0'000 10'00 0'0 7'9 Vel: 0'05 1tr' 1G 1 aa2 7'00 1'9 1'9 K: aJ. , v ^.n' .:1)n 0.00 0'0 0'0 \ {lt/ v-rav- : :;: ^ 1 ? q VeI : 16.02 0.018 /.uu u.-L 5.60 3.18 15.88 1.442 1T 56'85 8'0 8'0 K: s308 c:rzo 1'43 9'9 :: \7^,c:IzO 1.43 0.0 u'u 31.90 0.066 64 '29 4 '2 B ' 0 VeI : 5. 60 6. 33 IZ. J K:9.11 IJJ 31.90 PATH 9 FROM HYDRAUL]C REFERENCE 5311 TO F4 s 311 00 43 43 8.1 0.0 0.2 5.5s 3.14 15.82 7.442 1T ?-1 )nu-!av 15.82 0.018 1.'7. R R 1 K: 0.0 8.1 VeI : 8.3 r\-5. 50 E4 15 .82 ::=:::::::::=::: DA'FI{ TO F'ROM HYDRAUL]C REFERENCE 5311 TO 84 rdtrl s 311 r.0.00 0.00 10.00 8.1 0.0 0.0 0.05 0.03 0. 14 7.442 r-1 )^v- L-v 0.14 0.000 8.1 K 0.0 8.1 Vel 7.00 R-l 0.0 0.1 n0.00 7.00 8.1 K: 5.60 s372 15.96 r.442 C:1?O 16.10 0.019 0.0 8.1 Vel : 3.19.00 UN]TS _ DIAMETER (]NCH)LENGTH (FOOT)rr .\T^l / l.]DM \!lvvv \v!!r/PRESSURE (PSI) BtiAulvluN'I', lvlElJruAL UbiN'l'tiR iJrawlng Date : siiP'l''' z'u Lz TYco Fire Products 9/ L8/ rz r3t42 Page 11 PATHI0FROMHYDRAULICREFERENCES3IITo84CONTINUED 16.09 1.442 11 56'85 B'3 B'3 K: 5'60 5313 C:72Q 1'43 0'0 0'0 32.Ig 0.067 54'29 4'3 B'3 VeI : 6'39 B4 32.19 72 .5 n-9.09 ::::=:::=:=:::::::::::=: ::=::::: DATNH T-1 F'ROM F]YDRAULIC REFERENCE F2 TO J1 rNIIT !I 4.18 2.151 F2 C=120 4.18 0.000 8.00 8.0 0.00 0.0 8.00 0.0 8.0 0.0 See PATH 1 AND 6 8.0 Vel : 0-42 4 .'18 8.0 .|\-1.68J1 PATH 12 FROM HYDRAULIC REFERENCE F5 TO 85 F5 26.39 r.442 2T i-1 anw-!Lw 26.39 0.046 14.85 T4.86 89.'72 8.9 0.0 4 .1. 8.9 nnq6av.v 8.9 Vel- PATH 2 - ^A 85 26.39 13.0 K: -l .37 :::::::= =:=:=:=:=:=:=:::::::::=:=:=::::::--:::::=:=:::::: PATH 13 FROM HYDRAULIC REFERENCE F6 TO 86 23.98 r - 442 3E 29 '16 9 '2 9 '2 F5 C:720 1T 18'58 0'0 0'0 See PATH 2 23.98 0.039 41 '74 1'B 9'2 vel-: 4"t6 11.0 11.0 0.0 0.0 0.7 11.0 Vel : 4.16L7 I.442 1E r-1 tiv- L4V 23.98 0.039 )-5. ZO 3.'72 16.98 UNITS - DIAMETER (INCH)LENGTH (FOOT)Er ATrl //]DM\MYv \v!!r/PRESSURE (PSI) rvrErr-LUAr, uuN,rr.jR rrrawrng r.ffi;:";lr",ii3o""."9/ IE/ rz r3i42 BEAUIVION'1'D2da 1?! gyv PATH 13 FROM HYDRAULIC REFERENCE F6 TO 85 CONTINUED L5 r.442 r-1 ai 0.039 0.2'7 0.00 0.21 TI.1 0.0 0.0 II.7 0.0 IT.1 VEf -4 .1623 .98 15 L.442 ^ I ^nV: IZV 23.98 0.039 '7 .6r 0.00'7 .67 LI.1 0.0 0.3 II.'7 0.0 71.'7 VEf 4.'7 6 I4 L.442 ?-11n, 23.98 0.039 L!.27 0.00 LI.2I L2.0 0.0 0.4 12.0 0.0 1-2.0 4.'76 13 r.442 ?-1 aA 0.039 4.00 0.00 4.00 72 .4 0.0 0.2 4 .16 12.4 0.0 1.2 .4 VeI :23 .98 r.442 r'-1 1Av- L-v 23.98 0.039 1T '1 Aa 30.00 12 .6 0.0 L.2 L2.6 nnI2 VE.L -4 .16 86 23.98 K: 6.47 B9 16.11 r.442 2E C:I20 1T 16.11 0.019 70.93 14.86 85.79 35. 6 0.0 1a 35.6 nnQaav,v ?q 6 \/al PATH 1 - 4n- J.-V 20 -1.94 1.442 r-1 '>a v- L-v B .17 0.00s 2E 2T 60 .66 22.30 82 .96 3'7 .2 0.0 0.4 31 .2 0.0 See 31 .2 Vel PATH 15 bo .. lJ I v- L-v o 'r? n nn1u.fl L2 .00 0.00 L2 .00 3'7 .1 0.0 0.0 37 .'l 0.0 3'7 .1 0."12 -2.05 2.15'7 c:12n' 6.12 0.000 12 .00 0.00 12.00 3'7 .1 0.0 0.0 31 .1 nnQaav.v 3'7 .1 VeI PATH 16 i r.A UNITS - DIAMETER (INCH)LENGTH (FOOT) L2 FLOW (GPM)PRESSURE (PSI) BEAUruuN,l, rvlurrr- uAr, urjN,l,rjR Drawlng r.;;;:" ;i r., Hf 10u"." 9/ ra/ rz 13i42 Page 13 PATH 14 FROM HYDRAULIC REFERENCE 89 TO B1O CONTINUED -1.92 2.t51 ..-1 tiV_LLV 4.20 0.000 12.00 0.00 1,2 .00 3'7 .1 0.0 0.0 31 .1 0.0 See PATH 17 37 .'7 Vel- : 0.37 2.36 ;. oo; 12 -oo o ' o 31 '1 ver : o '2r -1.85 2.151 C:I20 -1.10 I.442 1T c:1"20 1.26 0.000 84.04 0.0 0.0 See PATH 19 31 .'7 Vel : 0.25 12.00 0.00 '7 6.60 1 .43 nn 31 .'l 31 .'7 0.0 n n Qoa PATH 1RU. v uuu !zrrrr UZ 1.10 r.442 .--1 ) nU_IAW 2.36 0.001 1T h I 5V '7 .43 69 .02 3't .1 0.0 0.0 31 .1 0.0 See PATH 19 31 .1 Vel : 0 .4123 D1 2 .635 r-1 aiv- L-v 2.35 0.000 L2 .00 0.00 12.00 31 .1 0.0 0.0 11 ? \/al :JI.I 0.14 D2 I. U5 Z. OJJ ^ I ^n A ai n nnna-Lw L2.00 0.00 12 .00 3'7 .1 0.0 0.0 31 .1 0.0 See PATH 18 3'7 .1 Vel = 0.25 D3 r.92 2.635 --1 1iV- LLW 6.72 0.000 12.00 0.00 12.00 31 .'7 0.0 0.0 3'7 .1 nnQaav.v 3'7 .1 VeI PATH 17 0.36 D4 2.05 2.635 r-1 Cnv- L-v 8.17 0.000 12 .00 0.00 72.00 3'7 .7 0.0 0.0 31 .1 0.0 See PATH 16 3'1 .1 Vel : 0 .49 D5 '7.94 2.635 r-1 ai 1 . 1i n nnlIO.af u.vvr s.85 0.00 s.85 3'7 .1 0.0 0.0 31 .7 0.0 See PATH 15 31 .'1 Vel : 0.96 J.ZOV 0 .25 20.16 20 .41 a'7 1 0.0 0.0 0.63 1T 31 .'l 0.0 ?? ? \/olI1 16.11 tJIU 15.11 37.8 K_2 .62 DATT] 16 F'ROM HYDRAULIC REFERENCE 20 TO D5 rnf lr r UNITS - D]AMETER (INCH) LENGTH (FOOT) FLOW (GPM) PRESSURE (PSI) bgAulvloN'1' LUt;lJl-uAl, utjN't't;R Drawfng Date : sljP'1'' zu rz TYco Fire Products 9/ 16/ L2 13:42. Drao 1 A! eY v PATH 15 FROM HYDRAULIC REFERENCE 20 TO D5 CONTINUED JI.Z nnQao 3'1 .2 Vel '7 .94 7.442 2T 20 c:120 1 .94 0.005 87.53 3'7 .2 14.86 0.0 L02.39 0.5 1A 1 q? Uf,1 .94 31 .'l K - r.29 PATH 16 FROM HYDRAULIC REFERENCE G5 TO D4 gJ 2.05 r.442 2T c=l?O 2.05 0.000 138.19 I4.86 153.06 3'7 .1 0.0 0.1 nn 37 .1 See PATH 14 VeI : 0.41 D4 2.05 K : 0.33 ::::=::: :::=:=::::=:=::= PATH 17 FROM HYDRAULIC REFERENCE G4 TO D3 I.92 1.442 2T ^-1 aAw-!Lv r.92 0.000 138.19 3'7.'7 74.86 0.0 153.06 0.1 31 .1 0.0 See PATH 14 3'7 .1 Vel : 0.38 L .92 31 .7 K: 0.31 D5 :==::::: :::::=::::::::=::::::=:: PATH 18 FROM HYDRAULIC REFERENCE G3 TO D2 nn UJ 1.85 r.442 2T r-1riv-r-v 1. Bs 0.000 138.19 74.86 153.06 31 .1 0.0 0.1 See PATH 14 Vel- : 0.37 D2 1.85 3'7 .1 K : 0.30 PATH 19 FROM HYDRAULIC REFERENCE G2 TO 23 UNITS _ DIAMETER (INCH)LENGTH (FOOT)FLOW (GPM)PRESSURE (PS]) B|jAULVIUN'l' lv.Lt;lJIUAl, UHN'l'tiR ljlawlng Date : St;P'1'. Z'U IZ Tvco Fire Products I'CII TYPES Qr Pf/ft FTNG'S Pe TOTAL Pf Pn 9/ 16/ rz L3: 42. Page 15 rL Dxr ******* \]^TF'q *******rV Qa DIA. FITTING PIPE rLHYD. REF POINT ::::==::::::=::: PATH 19 FROM HYDRAULIC REFERENCE G2 TO 23 CONT]NUED UZ 1.10 2.r51 F_1 'A 1.10 0.000 12 .00 0.00 12.00 3'7 .1 0.0 0.0 ?7 '1 0.0 See PATH 14 31 .7 Vel- : 0.10 G1 r.442 ^ I4nL: IZU 1.10 0.000 1E 2T 88.60 18.58 107.18 31 .1 0.0 0.0 31 .'7 0.0 0 .22 1.10 3'7 .1 K:0.18 UNITS - DIAMETER (INCH)LENGTH (FOOT) L5 FLOW (GPM)PRESSURE (PSI) ,. Model DC4SG Model DC4SGN DOUBLE CHECK VALVE Contractor:Job Name:P.O. Number:Job Location:Representative: \N|.rolesale Distributor: DESCRIPTION i[. nporrot Model DC4sG, Dc4sGN Double check Vatve'is designed to prevent contamination of the ootable water supply due to back-siphonage or 6".f.pi.=ui" from'substances that are non-health ["i"ioi. in" modular check valves have replaceable .""G - ".0 reversible EPDM seat discs' Grooved connections on an epoxy-coated ductile iron body allow for easy connection to butterfly valves or gate urilur.-rvot" i UoaA DC4SG replaces Modgl 4S-100 fiiio no*n as ModetDC) in attsizes except 10"' FEATURES . Lightweight . Short lay length . Low pressure loss . Modular check valves . lndividual access to check valves . Corrosion resistant epoxy-coated ductile iron body . US Patents #5,711,341 and #6,343'618 . MADE IN THE USA MATERIAL SPECIFICATIgNS ORDERING INFORMATION 4SG-1XX-OXX STRATNER oPTroN --l ISIZE - rl I L- FLow (oPTloNAL) SHUT.OFF VALVES Y.STRAINER O 0-None(Standard) O 1 - Wth Y-strainer (Flanged only, shipped loose) slzE Tg-z%' o c-6' tr 0-3' o E-8' o A-4', C| oo tr J oo . D 0 PERFORMANCE RATING Maximum Working Pressure 175 Psi Temperature Range 33 " F - 140 " F Hydrostatic Test Pressure 350 Psi APPROVALS nisi rors, APMo, csA 864.5, uL*, FM*, AI{vJ/A c-510' "nJusC't icccaHn' All approvals in horizontal and vertical fl ow-uP configurations' *UL and FM installations must include indicating-type shut- off valves. conbraco lndustries, tnc. 701 Mafthews Mint Hill Rd' Matthews NC 28105 usA; Wlvlv'aBo1!0-velveg'caln; 704-841-6000 *,";o"igT,i"[[".3i?[tl,j;i:ffi"JH?i:'H""-:'3Jiff!i",,?:#:lEJigi:3#:ffi3lli"",lj:i]"J'r:i"':H:'*i1".:il:"*' SSIO4O @ 3/10 Page 1 of 3 lsO 9001 Nama Material Body EFoxfcoated (FDA) Ductile lron Covers (2%"-6")E p o-- coate d ( F DA)S!99! Covers (8")Epoxy-coatet(F DA) Ductile lron Elbows Epoxy-coated (FDA) Ductile lron Check Valves (2%"-6")Glass-Filled Noryl- Check Valves (8)Bronze Springs Stainless Steel Seat Discs Chloramine-resislent EtqM SHUT-OFF VALVES (lnlet x Outlet) O 't - t""s Shut-off Valves (see notes) 2 - NRS Flg x NRS Flg 3 - OS&Y Flg x OS&Y Flg I - OSaV Fl! x MonitoreO lMon'1 Bufterfly Vlv Grv 6 - OS&Y Flg x Post Indicator Flg 1t'lot in2%" size) 7 - OS&Y Flg x OS&Y Grv 8 - OS&Y Grv x OS&Y Grv S - tVlon. Butterfly Vlv Grv x Mon' Butterfly Vlv Grv 10 - OS&Y Flg x Post lndicator Grv 1t'tot in 2'A' size) 11 - NRS Grv x NRS Grv 12 - NRS Flg x NRS Grv FLOW o N-Model DC4SGN Exampte: 4SG-10A'07 = 4" size with OS&Y flanged x grooved shut-off valves (shown above)' Model DC4SG Model DC4SGN DOUBLE CHECK VALVE DIMENSIONS (in.) - WEIGHTS (lbs.) Size 2Y2"3"4"6"8', A (Butterflv Valves)"29 29%29%32%43 A (Gate Valves)*32 33 34%39 50 B (Grooved-end bodY)17 17 16%18 27 C (ButterflY Valves)8 8%9%10%12 C (OS&Y OPen)16%18%22%30%37% D (Butterflv Valves)4%4%4%4%6% D (Gate Valves)3%3%4%5%6% E (Butterflv Valves)I I 9%12 15 E (Gate Valves)9%10%11%14%16% F (Butterflv Valves)18%19%20%22%31 F (Gate Valves)20 21 23 26 34% G 23 23%24 Y2 29 40% H (Post lndicator)Not Avail.12%14%19 22% Test Cocks (NPT)%%%%% Net \M. (Less Valves)53 53 53 60 375 Net \Aft. (W ButterflY Valves)80 83 97 128 506 Net Wt. (w/ OS&Y Gate Valves)149 174 208 309 852 Notes: 1. Nominal dimensions are shown. Allowances must be made for manufacturers' tolerances. 2. Internal body connections are grooved on 21/"" - 8" sizes' Conbraco Industries, Inc. TOl Matthews Mint Hill Rd. Matthews NC 28105 USA; wwtry'apollovalveq.ccnr; 704-841-6000 This specifi€tion is provided for referen@ only. Conbraco reserues the right to change any portion of this specification without notice and without tniuning obtig"tion to ;,"k" such changes to Conbraco prcduc'ts previously or subsequently sold. SS1040 @3/10 Page 2 of3 E t uffi-ffi i' rn oJA f,i5 u- togq o8 J7 56 L Model DC4SG Model DC4SGN DOUBLE CHECK VALVE 3'21t2" 150 ?00 250 300 350 400 Floli\rrde {gpm) FLOW CURVES 810=q J7 g!5 [+ 200 300 400 500 600 Fto,!\,rate (gpm) 4" E r,t 5ro g6 i4 600 800 1000 1200 1400 1600 Flowrale (gpm) -HodzontaWedical Up -.--- N-Flow "---7.5 tls . - * , Rated FIow Notes: 1. Flow curves directly reflect data collected by USC's Foundation for Cross-Connection Control and Hydraulic Research Approval curve documents. 2. Flow curves shown were recorded with butterfly shut-off valves'* 3. Alldata points are based on USC increasing flow data, from zero GPM to rated flow (opening curve). 4. Refer to Apollo Model DC4S (Formerly 4S-100 Series) for 10" valve information. * Flow curves with gate valves are slightly lower. Contact factory for more information. Conbraco Industries, Inc. 7O'l Matthews Mint Hill Rd. Matthews NC 28105 USA; vrww.apptlovalves.eqnl; 704-841-6000 This specifistion is provided for referen@ only. Conbraco reseryes the right to change any portion of this specifi€tion without notice and without inafiing obligation to make such changes to Conbraco prcducls previously or subsequently sold. SS1040 O 3/10 Page 3 of3 8" .- 40 o14 oJ10 p^ o.- noaa 573 (13t Riser Manifioid'i'-78 thru i ii"n (DN4o thru DN75o, For NFPA 73 SPrinkler SYstems I A lFire&BuildingI Praducts Technica|ServiceslTe|:(800)381.9312/Fax:(800)791.5500 General DescriPtion Data Technical Approvals r[J iiqrr" 513 (13) Riser Manifolds *iin a ioue, tamper switch for the wa- i"itrot alarm sriritch are UL Listed' ijtc tisteo, and FM APProved' The Figure 51 3 (13) Riser Manifolds without-a cover timper switch for the *ui"ttfo* alarm swiich are UL Listed and FM APProved. Maximum Working Pressure 175 psi (12,1 bar) Test Orifice 5.6K (8oK) AssemblY fn'e miniiotO body of the Figure 513 is ductile iron, whereas the manllolo O"Jv "t the Figure 13 is cast iron' The fwo'assemOti6s are completely inter- chanqeable in function, appllcatlon' and e-nd-to-end laYing length' Finish Red oainted. Installation The Riser Manifolds may be installed in either the horizontal (flow switch on too) or vertical (flow going up): ll9 iniet of the Riser Manifold may be ol- rectiy connected to a shut-off control valve. NOIES Where appticable pipe thread sealant ii nb"'"pptied iparingly' Use. of a non-hardening pipe thread sealant ts recommended. Never remove any piping compon.en.t nor correct or modify any piping deil- ciencies without first depressurtztng and draining the sYstem' Step 1' lnstall the manifold body with in.ifo* arrow pointing in the down- itr"am position using threaoeo con- The Fiqure 513 (13) Riser Manifolds o"r"iinlo in this iechnical data sheet oiouiO" the necessarY waterflow alarm. pressure gauge, alarm test ort- iitu. .itlin, and slghiglass equipmenl i;;';";i; assem-blY lor use in NFPA 13 sprin'i<ler systems as follows: NFPA 13* . 1-112lnch (DN40) Male Thread x Female Thread . 1-1l2thru 6 Inch (DN40 thru DN150) Groove x Groove -Although the Riser Manifold described in tirit J"6 sheet is intended for NFPA 13 rorinGi "vtt"ms, it may be used for NFPA iSO or tSR residential sprinkler systems' *i'r"r" " test orifice of 5.6K (80K) is accept- able. The varietv of sizes and grooved end connectioris allow cost effective and easy transition to check valves, control valv'es, and system piping' The Riser Manifolds may be installed in eltner Ine horizontal (flow switch on top) or verti- cal (flow going uP) for both srngle ioiirirr"f rli"" ino itbor control in high nses. WARNING The Riser Manifolds described herein ;;ti b; instatled and maintained in comPliance with this document' as i"ii-"" with the applicable standards'oi th" N"tional Fire Protection Asso-""itii'in,'ii addition to the standards of iii-oh", authorities having iurisd.i.c- tioh. Faiture to do so maY im?a'r tne performance of these devices' The owner is responsible for maintain' i i i ti " i i i i, " p r o t e cti o n s y s t e Y -12!,!e--vilces in proper operating conctttto,n'- The instatling contractor or spnnKter manufacturer should be contacteo with anY questions' Page 1 of 6 nections and/or listed mechanical groould connections, as aPPlicable Step 2. Connect the drain line, and then close the drain valve' Step 3. Refer to Figure 3 for wiring ouiilance. All wiring must be Per- ioimeO in accordance with the Author- itv ftavinq Jurisdiction and/or the Na- ti6nal Electrical Code. Step 4. Refer to Figure 4 for optional relief valve. Step 5' Place the system in service by iiriin-o in" ivstem with water' when fill- ino t"ne svsiem, partially open the con- tro-l valvd to slowly fill the system' rrlt-. ino the svstem slowly will help avot.o dimaginil the waterfiow alarm switch' After the system is fully pressurized' completely open the control valve' Step 6. Secure all suPPlY valves open. APRIL,2006 TFP962 Page 2 of 6 TFP962 NO. DESCRIPTION QTY. P/N N/A N/A 971-096-00 '1 976-519-02 NOTES: 1. Approximateweight, 11 2lbs (5'1 kg)' 2. ULC Listed Manifolds are equipped with. cover Tamper Switches installed intemal to the Waterflow Alarm Switches' 3. CH: Common Hardware 14-114" (362,0 mm) 10" (254,0 mm) Male x Female NPT' Groove x Groove Manifolds lnspecto/s Test & Orain Valve (Normally set to "Drain") Drain Valve (NormallY Closed) 314"('19,1 mm) 12-518" (320,7 mm) FIGURE 1 1-1/2 tNcH (DN4O)R'SER UeitFoto essEMBLY AND DTMENSTONS 11-1l8" (282,6 mm) Male x Male NPT Manifolds Page 3 of 6TFP962 2INCH (DN50) MANIFOLD NO. DESCRIPTION QTY. P/N 1 2" Manifold BodY, GroovexGroove....... 1 N/A WaterflowAlarm Switch: VSC with Paddle, uuFM ............... 1 976-357-01 vsc with Paddle and Cover Tamper Switch, uLc/FM.............. 1 976-520-01 300 psi/2000 kPa WaterPressurecauge .. 1 2341 4 rNCH (DN100) MANIFOLD NO. DESCRIPTION QTY. P/N 1 N/A 976-357-04 ... . 1 976-520-04 2341 6 |NCH (DN150) MANIFOLD NO. DESCRIPTION Qry. P/N 1 6" Manifold BodY, GroovexGroove....... I N/A 3 300 psi/2000 kPa WaterPressureGauge .. 1 2341 Waterflow Alarm Switch: VSC with Paddle, uuFM .. ........ ..... 1 976-357-05 VSC with Paddle and Cover Tamper Switch, uLc/FM.............. 1 976-520-05 2-112 lNcH (DN65) MANIFOLD NO. DESCRIPTION Qry. P/N 1 2-112" Maniiold BodY, GroovexGroove.......'l N/A 2 WaterflowAlarmSwitch: VSC with Paddle, uuFM ...............'l 976'357-02 VSC with Paddle and Cover Tamper Switch, uLc/FM.............. 1 976-520'02 3 300 psi/2000 kPa WaterPressureGauge .. 1 2341 NOTES: '1. ULC Listed Manifolds are equipped with Cover Tamper Switches installed internal to the Waterflow Alarm Switches. 2. CH: Common Hardware FIGURE 2 2 thru 6 |NCH (DN5O thru DN150) R,SER MANTFOLD ASSEMBLY AND DIMENSIONS Manilold Size Nominal lnstallation Dimensions in lnches and (mm)Drain Size Weight lbs. (kq)B D 2 lnch /nN50\ 16-3t4 (425 5\ 13 {330.2) 9/16 (14 3\ 5-3/8 (136,5) 6-3/8 /161 q\13-1t't61331 8)3-'v2 t88.9)1" NPT 13.5 (6,1) >--112lnch {DN65) 17-3116 1436 6l 13(330.2 1 Itq a 5-314(146.1 ) 6-718(174.6\ 13-3t4 /i4q 3l 3-1t2 r88 9\1-114'NPT16.8(7 6\ 3 lnch lDN80l 17-3t16(436.6)13/330 2l 1 (25 4\ o 152.4\ 7-1t8 (181.0) 14-1t4 1362.01 3-112 1AR q\1-1l4" NPT 18.7 fA 5t 4 lnch (DN'100) 20-112 (1)O 7\ 13 /330 2l 4-5t16 /,|nq 5\ 7-9116 n92.1\ 9-1/16(230.2\1 6-5/8 tLtt a\ 4-112 ('114.3)2" NPT 32.7 /14 a) 6 Inch (DN150) 20-1t2 l5?o 7\ '13 (1an 2\ 4-5116(109.5) 8-1t2 12 t 5.9I 10 I25d O\ 18-'lt2 /46C C) 6-5/8 /tAR ?\2" NPT 41.6 rlR qt 3INCH (DN8o) MANIFOLD DESCRIPTION Qry, P/N 1 3" Manifold BodY, GroovexGroove....... 1 N/A 2 WaterflowAlarmSwitch: VSC with Paddle, uuFM .. .......... ... 1 976-357-03 VSC with Paddle and Cover Tamper Switch, uLc/FM.............. 1 976-520'03 3 300 psi/2000 kPa WaterPressurecauge .. 1 2341 TFP962Page 4 of 6 UNINSULATED LOOPED SECTION SWITCH TERMINAL CONNECTIONS c CAUTION: An uninsulated section of a T single conductor is not permitted to be looped around the terminal and serue as two separate connections. The wire must be severed to serve as two separate connections, thereby providing supervision of the connection in the event that the wire becomes dislodged from the terminal. SEPARATE CONDUCTORS CLAMPING PLATE TERMINALP OUTGOING PROPER CONNECTION METHODIMPROPER CONNECTION METHOD WATERFLOW SWITCH TYPICAL ELECTRICA CONNECTIONS CONTACTS . . SPDT (Form C) CoNTACTRATING .... 5A@ 125VAC 2.sA @ 30 VDC No . ,,5 nc //a coM A ,o"o. I I stcnnl \_y'/ DEVT.E tl lNos /l-{ I l"o' POWER END OF LINE RESISTORr*1I ri'" /* l--J cot',t ll CONTROL PANEL NO FLOW CONDITION NON-SUPERVISED CIRCUIT SryLE B/CLASS B SUPERVISED CIRCUIT (sEE NOrE) NOTE: For supervised circuits, see ',switch Terminal connections" above. The waterflow Alarm Switch has two switches, one can be used to operate a central station, proprietary or remove signaling unit, while the other contact is used to operate a local audible or visual annunciator. COVER TAMPER SWITCH (ULC ASSEMBLIES ONLY) CONTACTS .. SPDT(Form C) CoNTACT RATING . . . . 34 @ 250 VAC 5A @ 125 VAC 1mA@5VDCmin No\ . Nc\\a coM CONTACTS SHOWN WITH COVER IN PLACE FIGURE 3 WIRING GUIDANCE TFP962 Care and Maintenanc'e 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 comoliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.9., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stalling contractor or product manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified lnsoection Service in accordance with local requirements and/or national cooes. NOTES No attempt is to be made to repair any Riser Manifold component in the field. Only the pressure gauge, waterflow alarm switch, or relief valve can be replaced. lf 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 owner and the fire 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 fire protection sys- tem that it controls, permission to shut down the effected fire 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 and advise those responsible for moni- toring proprietary and/or central sta- tion alarms. Alarm/Flow Test Procedure Step 1. Place the test & drain Valve in the "test" oosition. 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 atarms. 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. Page 5 of 5 DESCRIPTION QTY. P/N 1 3/8" Copper Tubing, 2'(DN50)Manifolds .... I 971-124-01 2-112" (DN65) and 3'(DN80)Manifolds .... 1 971-124-02 4'(DN100) and 6'(DN150) Manifolds . .. 1 971-124-03 OESCRIPTION QTY. P/N 2 PressureRsliefValve, lT5psi,Nonadjustable .. 1 198-066-00 3 90'CompressionFitting Fifting... .............2 CH 1" x 1/2" Reducing H€x ..............1 CH CH: Common Hardware 1-112" (DN40) Manifold Only: To install oolional Pressure Relief Trim on a 1-1l2" (DN40) Manifold, a 1/2" NPT outlet must be provided by the installer on the system outlet piping, and a connection back to the manifold drain lrim must be fabricated with installer supplied 3/8" copper tubing. Oiscard unused trim comDonents. 1/2" NPT Outlet Installer Provided System Outlet Piping lnstaller Fabricated 3/8" Copper Tubing 2' (DN50), 2-112" (DN6s), 3" (DN80),4' (DNr00), or 6" (DN150) Manifold r-r12" (DN40) Manifold FIGURE 4 OPTIONAL PRESSURE RELIEF VALVE Page 6 of 6 LimiJed UL/ULC/FM Assemblles With Cover Tamper Switch 1-112 Inch (DN40) MTxFT. 1-1l2 Inch (DN40) MTXMT 2 Inch (DN50) GxG.. 2-1l2 Inch (DN65) GxG.. 3 Inch (DN80) GxG... 4 Inch (DN'100) GxG... 6 Inch (DN150) GxG.. UUFM Assemblies Without Cover Tamper Swltch'1-112 Inch (DN40) MTxFT. 1-1l2 Inch (DN40) MT X MT. 2 Inch (ON50) GxG.. 2-112 Inch (DN6s) GxG.. 3 Inch (DN80) GxG.. 4Inch (DN100) GxG.. 6 Inch (DN1s0) GxG.. P/N 4086 P/N 4087 P/N 4090 P/N 4091 P/N 4092 P/N 4095 P/N 4096 P/N 4055 P/N 4056 P/N 4060 P/N 4061 P/N 4062 P/N 4065 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, P/N (specify). 1-112" ot2". P/N 4063 2-112" ot 3" . PIN 4072 4" or 6'. . P/N 4073 Replacement Parts: Specify: (description) for use with Fig- ure 513 or 13 Riser Manifold, P/N (Ref. Figure 1 or 2, as applicable). TFP962 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 or repaired in accordance with ap- olicable 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. of any and all other warranties. ex-press or implied. including warranties ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not atfect 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). A/OrES 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. lf a ULC Listing is required, the Riser Manifold must be ordered with a cover tamper switch for the waterflow alarm switch. TYGO FIRE & BUILDING PRODUGTS,451 North Cannon Avenue, Lansdale, Pennsylvania 19446 ttl s o I {;{:of-f;ir*ins Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 -Iltlodel DPV-7 Dry Pipe Valve, External ReseJting 2-7f2 thru 6 lnch (DN65 thru DN75O) 25O psi (77,2 bar) General Description The Tvco@ Model DPV-1 DrY PiPe Valvegare differential valves used to automatically control the flow of water into dry pipe fire protection sprinkler svstems upon oPeration of one or niore automatic sprinklers. The DPV-1 also provides for actuation of fire alarm3 upon system oPeration. The Model DPV-1 features are as follows: . External reset. . 250 psi (17,2bar) pressure rating. . Unique offset single clapper design enabling a simPle comPact valve to minimize installation labor. . Ductile iron construction to ensure a lightweight valve to minimize ship- ping cost. . A variety of inlet and outlet connec- tions. o Compact, semi-Preassembled or fully assembled, and easy to operate valve trim. . Simple reset procedure through the elimination of Priming water. Dry pipe sprinkler systems are used in unheated warehouses, Parking ga- raqes. store windows, attic spaces' loiding docks, and other areas ex- posed to freezing temperatures, where water filled pipe cannot be utilized. When set for service, the dry PiPe sprinkler system is pressurized with air (or nitroqen). The loss of pressure ihrouqh dn operated automatic sprin- kler i-n response to heat from a fire oermits the DPV-1 DrY PiPe Valve to boen and allow a flow of water into the sirrinkler system piping. Table B es- tablishes the minimum required sys- tem air pressure that includes a safety factor to help prevent false operations that might occur due to water supply fluctuations. Page I ol 20 o N/A Available Not Available WARNING The Model DPV-1 Dry PiPe Valves de- scribed herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may imfiair the pertormance of these de' vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or manufac- turer should be contacted with anY questions. Available End Connections and Sizes End Connection Nominal Valve Size 2-112|ncn (DN65) 3 Inch (DN8o) 4 Inch (DN100) 6 lnch (DN150) Flange x Flange N/A N/A o o Flange x Groove N/A N/A o o Groove x Groove o o o o AUGUST,2OO7 TFP1O2O TFP1O2O Page 2 ol 20 o-g- V 6-/\:z RESET PLUNGER PARTS IIIII 15, 18 NR: Not Replaceable CH: Common Hardware FIGIJREl-Part1of2 MODEL DPV.I DRY PIPE VALVES 2-1/2, 3, and 4 INCH (DN65, DN80, and DN|00) _ ASSEMBLY _ NO. DESCRIPTION Ory. REF. 1 ValveBodY.......1 NR 2 Air and Water Seat...........'1 NR Handhole Cover . .. 1 NR Handhole Cover Gasket .......... 1 See(b) 5 112-13 UNC x 1" Hex Head CaP Screw: 2-112 & 3 lnch Va|ves...........5 CH 4lnchValve......6 CH 6 Clapper.......... 1 See(a) 7 Clapper Facing . . . . 1 See (a) or (b) 8 Clapper Facing Retaining Plate ... 1 See (a) 9 2-112 and 3 Inch Valves: 1/4" x 3/8" Long #10-32 Shoulder Screw...........5 See(a) 4 lnch Valve: 114-20 UNQ x 112" Socket Head CaP Screw.. .........7 See(a) 10 Clapper Hinge Pin ...... ...... 1 See(a) '11 ResetKnob ...... 1 See(c) 12 ResetSpring ..... 1 See(c) 13 ResetBushing .... 1 See(c) 14 Reset Bushing O-Ring........... 1 See(b)or(c) 15 Reset Plunger O-Ring ..........'l See(b)or(c) 16 ResetPlunger..... 1 See(c) 17 Reset Latch SubassemblY ..... 1 See(c) 18 Dow Corning FS3452 Flourosilicone Grease, 1.5g...'.1 See(b) or(c) REPLACEMENT PARTS NO. DESCRIPTION P/N (a) ClapperAssemblY lncludes ltems 6-'10: 2-1t2 &3lnch Valves . ' 92-309-2-203 4 lnch Valve 92-309-2403 (b) Repair Parts Kit lncludes ltems 4,7, 14,15, & 18: 2-112 & 3 lnch Valves . . 92-309-1-204 4 lnch Valve . 92-309-1404 (c) Reset Plunger Parts Kit lncludes ltems: 11 through 18 ........ 92-309-1405 TFP1O2O Page 3 ot 2O NO. DESCRIPTION QTY. REF 1 ValveBody.......1 NR Air and Water Seat ............ 1 NR 3 Water Seal O-Ring ..........1 NR 4 AirSeal O-Ring....1 NR NO. DESCRIPTION QTY. REF. 5 3/8-16 UNCx 1" Socket Head CaP Screw...........8 NR Handhole Cover . .. 1 NR 7 Handhole Cover Gasket . ......... 1 See(b) Ory. REF. I 10 11 12 CH See (a) See (a) or (b) See (a) See (a) See (a) See (c) See (c) See (c) See (b) or (c) See (b) or (c) See (c) See (c) 13 14 15 16 17 18 19 'l See (b) or (c) o- F- V { 14 II CLAPPER ASSEMBLY I___l 15 RESET 17 PLUNGER PARTS 18,21 NR: Not RePlaceable CH: Common Hardware %.=r FIGIJREl-Part2of2 MODEL DPV.I DRY PIPE VALVES 6 INCH (DNl50) _ ASSEMBLY _ REPLACEMENT PARTS NO. DESCRIPTION P/N (a) ClapperAssemblY lncludes ltems: gthrough 13......'.. 92-309-2-603 ) Repair Parts Kit lncludes ltems: 7, 10, 17, 18,21 . .. . . . 92-309-1-604 (c) Reset Plunger Parts Kit lncludes ltems: 14 through 21 ....'. .. 92-309-1-405 Page 4 ol 20 Technical DAJA Aoorovals: Ul'ano C-UL Listed. FM APProved. NYC under MEA 172-Q2-E (4 and 6 inch). Drv Pipe Valve: fn-e v6oet DPV-1 Drv Pipe Valves are for vertical installations (flow going uo). and thev are rated for use at a nidximum seivice pressure of 250 psi (17 ,2 bar). The Valve dimensions are shown in Figure 7. Flanqed connections are available drillei per ANSI, lSO, AS, and JIS specifiiations (Ref. Table A)' The orooved outlet connections, as appli- 6able, are cut in accordance with standard groove specifications for steel pipe. They are suitable for use with cirdoved end pipe couplings that are lGted or approved for fire protec- tion svstem service. Available combi- nations of inlet and outlet connections are detailed in the Ordering Procedure section. Threaded port connections of valves havinq flanqes drilled to ANSI, AS' or JIS s6ecifications are NPT threaded oer ANSI Standard B1 .20'1. Threaded bort connections of valves having ilanqes drilled to ISO are available eith6r threaded Per ISO 7/1 or NPT threaded per ANSI Standard 81 .20.1 . Valves with NPT threaded ports will readilv accept the trim arrangements detail6d in Figures 4, 5, and 6. Comoonents of the DPV-1 Valves are shown in Figure 1. The BodY and Handhole CoVer are ductile iron. The Handhole Cover Gasket is neoprene' and the ClaPPer Facing is EPDM. The Air/Water Seat Ring is brass, the Clap- oer is bronze or aluminum bronze, and both the Clapper Retaining Plate and Latch are bronze. The Hinge Pin is aluminum bronze, and the fasteners for the Handhole Cover are carbon steel. Valve Trim: lnstallation dimensions are given in Fioure 7, and the Valve Trim is illus- tra'ted in Figures 4, 5, and 6. The Valve Trim forms a Part of the laboratorY listings and aPProval of the DPV-1 Valve and is necessary for the proper ooeration of the DPV-1 Valve. Each pbckage of trim includes the following items: . Water Supply Pressure Gauge . System Air Pressure Gauge . Air Supply Connections r Main Drain Valve . Low Body Drain Valve . Alarm Test Valve . Automatic Drain Valve . Drip Funnel . Connections For OPtional Quick Opening Device (Accelerator) NOTE When the svstem pressure is greater than 175 pii (t2,1 bar), provision is to be made to replace the standard order 300 psi (20,7 bar) Water Pressure qauqie with a separately ordered 600 bsi (lt,l bar) Water Pressure Gauge. Air SupPlY: Table B shows the system air pressure reouirements as a function of the water suiplv pressure. The air (or nitrogen) pri:islre in the sprinkler system is rec- TFPlO2O ommended to be automatically main- tained by using one of the following pressure maintenance devices, as ap- propriate: . Model AMD-1 Air Maintenance De- vice (pressure reducing tYPe). . Model AMD-2 Air Maintenance De- vice (comPressor control tYPe). . Model AMD-3 Nitrogen Mainte- nance Device (high pressure reduc- ing type). The Pressure Relief Valve provided with the valve trim is factory set to relieve at a Pressure of approxi- mately 45 psi (3,1 bar). lf the normal svstem air Pressure is less than or elceeds 40'Psi (2,8 bar), then the Dressure Relief Valve must be reset to i'elieve at a pressure that is in accord- ance with the Authority Having Juris- diction. Quick OPening Device: As an option, the Model DPV-1 DrY Pipe Valve maY be equiPPed with the Mbdel QRS Electronic Dry PiPe Valve Accelerator (4 and 6 inch size-s) as detailed in Technical Data Sheet TFP110O or the Model ACC-1 Me- chanical Dry Pipe Valve Accelerator Q-112,3,4, and 6 inch sizes) as de- tailed in Technical Data Sheet rFP1112. The QRS or the ACC-1 is used to re- duce the time to valve actuation fol- lowing the oPeration of one or more automatic sprinklers. In some cases the use of a quick opening device such as the QRS or the ACC-1 may be re- quired to meet the requirements of the National Fire Protection Association to meet water delivery times. Patents: U.S.A. Patent No. 6,557'645 Nominal Dimensions in Inches and lSame drilling as forANS| 816.5 (Class 150) and ANSI B16 42 (Class 150)' 2 Same drilling as for BS 4504 Section 3.2 (PN16) and DIN 2532 (PN16)' Dim. A Bolt Circle Diameter Dim. B Bolt Hole Diameter Oty.N Number of Bolt Holes TABLE A DIM E N SI O N AL S P ECI F I C ATI O N S FOR SELECTION OF FLANGE DRILLING TFPlO2O Page 5 ol 20 Fr-ow Rlre lN LITRES PER MINUTE (LPM) (1 GPM = 3.785 LPM) =aI I 2ro UJ f duJ o zf 1.0 a 0.9z ; 0.8 E 0.7 uJd 0.6lofi o.:t(! J t o.a= z 0,10 0,09 0,08 0,07 0,06 0,05 0,04 dl z (Ldo< On d6 U'O@rtIJ _ta J- <Jz z 400 500 The approximate friction losses, based on the Hazen and williams formula and expressed in equivalent length of schedule 40 pipe with C=100 are as follows: 2.2feetfor the 2-1t2 inch valve at a typical flow rate of 250 GPM 4.9 feet for the 3 inch valve at a typical flow rate of 350 GPM 8.9 feet for the 4 inch valve at at typical flow rate of 600 GPM 22 feet lor the 6 inch valve at a typical flow rate of 1 500 GPM FIGURE 2 MODEL DPV-| DRY PIPE VALVES _ NOMINAL PRESSURELOSS YERSUS FLOW- FLOW RATE IN GALLONS PER MINUTE (GPM) TFP1O2O Page 6 ol 20 Operating Principfes The Model DPV-1 DrY PiPe Valve is a differential type valve that utilizes a substantiallylbwer system (air or nitro- oen) oressure than the supply (water) Sredsure, to maintain the set position shown in Figure 3A. The differential nature of the DPV-1 is based on the area difference between the air seat and the water seat in combination with the ratio of the radial difference from the Hinqe Pin to the center of the Water Slat and the Hinge Pin to the center of the Air Seat. The difference is such that 1 psi (0,07 bar) of system air oressure can hold approximately 5.5 fsi (0,38 bar) of water supply pres- sure. Table B establishes the minimum re- quired system air pressure that in- cludes a-safety factor to help prevent false operations that occur due to water supPlY fluctuations. The Intermediate Chamber of the DPV-'I is formed bY the area between the Air Seat and Water Seat as shown in Fiqure 38. The Intermediate Cham- ber iormally remains at atmospheric pressure through the Alarm Port con- nection and the valve trim to the nor- mallv open Automatic Drain Valve (Fiq.-4, 5, or 6). Having the Intermedi- itdChamber, Figure 38, oPen to at- mosphere is critical to the DPV-1 Valvb remaining set, otherwise the full resultinq pressure of the system alr pressur-e dn top of the Clapper Assem- bly cannot be realized. For example and assuming a water supply pressure of 100 P9i (qP b?t), Ithe'svsiem air pressure is 25 psi (1'7 bar) and there was 15 Psi (1'0 bar) prelsure trapped in the Intermediate Chamber, the resulting Pressure across the toP of the ClaPPer would onlv be 10 psi (0,7 bar). This pressure *ould be insufiicient to hold the Clap- oer Assembly closed against a water bupplv pressure of 100 psi (6'9 bar). lt is for inis reason that the plunger of the Automatic Drain Valve must be de- pressed during several ofthe resetting lteps, as well as during inspections, making certain that the Automatic Drain Valve is open. When one or more automatic sprin- klers operate in response to a fire, air Dressure within the system piping is relieved through the open sprinklers. When the air pressure is sufficiently reduced, the water Pressure over- comes the differential holding the Clapper AssemblY closed and the Clapper Assembly swings clear of the watei seat, as shown in Figure 3C' This action permits water flow into the system piping and subsequently.to be discharged from any open sprinklers. Also, with the Clapper Assembly open, the intermediate chamber is pressur- ized and waterflows through the alarm port (Ref. Figure 38) at the rear of the bPV:1 Valve to actuate system water flow alarms. The flow from the alarm oort is also sufficient to close the oth- brwise normally open Automatic Drain Valve in the valve trim. After a valve actuation and upon sub- sequent closing of a system main con- trol valve to stop water flow, the Clap- oer Assembly will latch open as shown in Figure 30. Latching oPen. of the DPV-1 will permit complete draining of the system'(including any loose scale) through the main drain Port. During the valve resetting procedure and ifter the sYstem is comPletelY drained, the external reset knob can be easily depressed to externally un- latch the Clapper Assembly as shown in Fiqure 3E. As such, the ClaPPer Asseitblv is returned to its normal set oosition io facilitate setting of the dry bipe sprinkler system, without having io'remove the Handhole Cover. Maximum Water SupPlY Pressure, psi System Air Pressure Range, psi 20 10 60 15-23 80 20-28 100 25-33 120 30-38 145 35-43 165 40-48 185 45-53 205 50-58 225 55-63 250 60-68 TABLE B SYSTEM AIR PRESSURE REQUIREMENTS TFP1O2O Page 7 ol 2O AIR PRESSURE TO SYSTEM Att WATERFLOW TO SYSTEM Al-l 1" NPT AIR SUPPLY PORT CLAPPER ASSEMBLY IN SET POSITION CLAPPER ASSEMBLY FULLY OPEN ,1/2" NPT WATER SUPPLY PRESSURE & ALARM TEST PORT CLAPPER LATCH PIVOTS TOALLOW CLAPPERASSEMBLY TO FULLY OPEN 3/4" NPTALARM PORT OPEN TO ATMOSPHERE ALARM PORT WATERFLOW TOALARMCLAPPER ASSEMBLY FROM WATER SUPPLY FIGURE 3A SET POSITION DRAIN FROM SYSTEM \-lv WATER SEAT ALARM PORT FROM WATER SUPPLY FIGURE 3C OPERATED POSITION DRAIN FROM SYSTEM COMPLETEVALVE WATERWAY INTERMEDIATE CHAMBER PUSH HERE TO RESET VALVE t-l {, RESETV KNOB FIGURE 38 SET POSITION INTERMEDIATE CHAMBER CLAPPER ASSEMBLY LATCHED OPEN RESET ASSEMBLY CLAPPER LATCH CLAPPER LATCH PIVOTS TO UNLATCH CLAPPER ASSEMBLY 3/4'NPT LOW BODY DRAIN PORT MAIN DRAIN PORT: 1-1l4'NPT. (2-112 INCH & 3 INCH VALVES) 2'NPT (4 INCH VALVE) -DN4O FOR VALVES WITH ISO THREADED PORTS CLAPPER ASSEMBLY RESEATED WATER SUPPLY SHUT OFF FIGURE 3D DRAIN POSITION WATER SUPPLY SHUT OFF FIGURE3-Partl of 2 MODEL DPV.I DRY PIPE VALVES 2-1/2, 3, and 4INCH (DN65, DN80, and DN100) _ SET AND OPEN POSITIONS _ TFPlO2OPage 8 ol 20 AIR PRESSURE TO SYSTEM CLAPPER ASSEMBLY FULLY OPEN 1" NPT AIR SUPPLY PORT CLAPPER LATCH PIVOTS TO ALLOW CLAPPERASSEMBLY TO FULLY OPEN CLAPPER ASSEMBLY IN SET POSlT|0N 3/4'NPTALARM PORT OPEN TO ATMOSPHERE 1/2" NPT WATER SUPPLY PRESSURE &ALARM TEST PORT CLAPPER ASSEMBLY ALARM PORT WATERFLOW TOALARM FROM FROM WATER SUPPLY FIGURE 3C OPERATED POSITION DRAIN FROM SYSTEM COMPLETE ilV WATER SUPPLY FIGURE 3A SET POSITION DRAIN FROM SYSTEM ltV WATER SEAT ALARM PORT INTERMEDIATE CHAMBER VALVE WATERWAY PUSH HERE TO RESET VALVE t-'? { I RESErV KNOB CLAPPER ASSEMBLY LATCHED OPEN 3/4" NPT LOW BODY DRAIN PORT FIGURE 38 SET POSITION INTERMEDIATE CHAMBER RESET ASSEMBLY CLAPPER LATCH PIVOTS TO UNLATCH CLAPPER ASSEMBLY 2'NPT MAIN DRAIN PORT CLAPPER LATCH WATER SUPPLY SHUT OFF FIGURE 3D DRAIN POSITION WATER SUPPLY SHUT OFF FIGURE 3E RESET POSITION FIGURES-Part2of2 MODEL DPV-I DRY PIPE VALVES 6 iNCH (DNl50) _ SET AND OPEN POSITIOA'S _ TFP1O2O Page 9 ol 20 NOTES: 1. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. 2. ROUTE 1/4" TUBING, ITEM 14, TO DRIP FUNNEL, ITEM 12. 1E 25 31 '18 31 26 2-1l2 |NCH (DN65) or 3 INCH (DN80) MODEL DPV-1 DRY PIPE VALVE NO, DESCRIPTION Qry. P/N 13 3/32" Vent Fitting ...........1 92-032-1-002 14 114"fube, 15 16 17 18 19 20 21 zz 23 24 18"Long.........1 CH 1/4" Plug . . . ... ...2 CH 112"P1u9.........2 CH 1"Plug..........'l CH 1/2"Union........1 CH 112" x 114" Reducing Bushing.........1 CH 1i2"90'Elbow....3 CH 3/4"90"E|bow....1 CH 1-114"90"E|bow...1 CH 1/2"Cross........2 CH 112"x112"x114" ReducingTee.....1 CH 12"fee .........1 CH 112"x114"x112" Reducing Tee . . ...2 CH 25 zo FIGURE4-Partl of 2 2-1/2 and g INCH (DN65 and DNSO) MODEL DPV'1 DRY PIPE VALVES _ EXPLODED VIEW OF VALVE TRIM _ LOCATION FOR OPTIONAL ELECTRICALLY SUPERVISED N.O.ALARM CONTROL VALVE (BVS-1/2") 32 ,|? NO. DESCRIPTION QTY. P/N 1 25O psi/ 1750 kPa Air Pressure Gauge........... 1 92-343-1-012 2 300 osi/ 2000 kPa Water Pressure Gauge.. .........1 92-343-1-005 3 114'Gauge Test Valve... .........2 46-005-1-002 Model AD-1 Automatic Drain Valve 1 52-793-2-004 5 114'Pressure ReliefValve....... 1 92-343-'l-020 6 112' Ball Valve....2 46-050-1-004 7 3/4"AngleValve ... 1 46-048-1-005 8 1-114"AngleValve .1 46-048-1-007 9 1/2" Swing CheckValve ......2 46-049-1-004 10 Drip Funnel Connector 1 92-2l1-1-005 11 Drip Funnel Bracket.......... 1 92-211-1-003 12 DrioFunnel....... 1 92-343-1-007 NO. 27 28 '112" x'112" x314" ReducingTee.....1 CH 1"x1"x112" ReducingTee.....1 CH Not Used 114" x3" Nipple . . . .2 CH 1/2" x Close Nipp|e...........4 CH 112" x 1-112" Nipp|e...........8 CH 1l2"x2"Nipple....1 CH 112" x4-112" Nipp|e...........1 CH 1l2"x6"Nipple....1 CH 3/4" x Close Nipp|e...........1 CH 314" x'l-112" Nipp|e...........1 CH 314" x2-112" Nipp|e.. .........'l CH l"xCloseNipple..l CH 1-114" x Close Nipp|e...........1 CH 1-114"x4" Nipple..1 CH TION QTY. P/N All Fittings and Nipples are Galvanized CH: Common 32 29 30 31 34 JJ 36 37 38 39 40 41 TFP1O2OPage 1O ol 20 AIR SUPPLY CONTROLVALVE(NORMALLY OPEN) 1/2 INCH NPT CONNECTION FOR SYSTEM AIR SUPPLY 1/2 INCH NPT CONNECTION FOR WATERFLOW PRESSURE ALARM SWITCH 1.1/4 INCH NPT CONNECTION TO DRAIN 1 INCH NPT CONNECTION FOR LOCAL SPRINKLER ALARM TEST VALVE (NORMALLY cLosED) 1/2 INCH NPT CONNECTION FOR OPTIONAL ACCELERATOR SYSTEM WATER SUPPLY PRESSURE GAUGE AUTOMATIC DRAIN VALVE 1/2 INCH NPT CONNECTION FOR OPTIONAL AIR PRESSURE SWITCH 1. NOTES: INSTALL TRIM ASSEMBLIES IN ALPHABETICAL ORDER. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. ROUTE 1/4'TUBING TO DRIP FUNNEL. 2. SYSTEM AIR SUPPLY PRESSURE GAUGE MAIN DRAIN VALVE A 't?Buibi 3/4 INCH NPT CONNECTION TO DRAIN 2-112 INCH (DN65) or 3 INCH (DN80) MODEL DPV-1 DRY PIPE VALVE LOW BODY DRAIN VALVE (NORMALLY cLosED) B FIGURE4-Part2of2 2-1/2 and 3 INCH (DN65 and DNS0) MODEL DPV'I DRY PIPE VALVES _ ASSEMBLY PROCEDURE FOR VALVE TRIM _ TFPlO2O Page 11 ol 20 15 (GREEN TINT) NOTES: 1. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. 2. ROUTE 1/4" TUBING, ITEM 16, TO DRIP FUNNEL, ITEM 14. 3. SLOPE 3/4" ANGLE VALVE, ITEM 9, DOWN TOWARD BACK OF VALVE TO FACILITATE SUFFICIENT LOW BODY DRAINAGE. 4 |NCH (DN100) MODEL DPV-1 DRY PIPE VALVE 34 -\12 z5 43 NO. DESCRIPTION QTY. P/N 15 3/32"Vent Fifting ...........1 92-032-'l-002 16 1/4"Tube, 't7 18 1q 20 2'l 22 23 24 25 zo 27 zo 29 24"1on9.........1 CH 1/4"Plug.........2 CH 1/2"Plug.........2 CH 3/4"P1u9.........1 CH 1"P1u9..........1 CH 112" x'114" Reducing Bushing.........1 CH 1/2"Union........1 CH 3/4"Union........1 CH 1/2"90"E|bow....1 CH 1/2"45'Elbow....1 CH 1/2"Cross........1 CH 1l2"Tee .........2 CH 112"x114"x112" Reducing Tee .. ...2 CH 112"x112"x114" ReducingTee.....1 CH FIGURE5-Partl of 2 4 /NCH (DNl00) MODEL DPV-| DRY PIPE VALVES _ EXPLODED VIEW OF VALVE TRIM _ LOCATION FOR OPTIONAL ELECTRICALLY SUPERVISED N.O. ALARM CONTROL VALVE (BVS-3/4") NO. DESCRIPTION QTY. P/N I 250 psi/ 1750 kPa Air Pressure Gauge........... 1 92-343-1-012 2 300 psi/ 2000 kPa Water Pressure Gauge........... 1 92-343-1-005 3 114'Gauge Test Valve... .........2 46-005-1-002 1/4" Pressure ReliefValve....... 1 92-343-1-020 5 1/2"AngleValve ... 1 46-048-1-004 6 ModelAD-1 Automatic DrainValve....... 1 52-793-2-004 7 1t2. BallValve .... 1 46-050-1-004 8 1/2" Swing CheckValve ...... 1 46-049-1-004 9 3/4"AngleValve...1 46-048-1-005 10 3/4" Swing CheckValve ...... 1 46-049-1-005 1'l 2"AngleValve .... 1 46-048-1-009 12 Drip Funnel Connector I 92-211-1-005 13 Drip Funnel Bracket..........1 92-211-1-003 14 DrioFunnel.......1 92-343-1-007 NO. 30 31 32 e2 34 JC JO 37 38 39 314" x112" x314" ReducingTee.....3 CH 1"x1"x112" ReducingTee.....1 CH 1l4"x3"Nipple....2 CH 1/2" x Close Nipple .. .....,...2 CH 112" x 1-112" Nipp|e...........7 CH 112"x2"Nipple....1 CH 112" x2-112" Nipp|e...........1 1l2"x3"Nipple....1 112" x3-112" Nipp|e...........1 3/4" x Close Nipple.......-...2 314" x 1-112" Nipp|e...........2 3l4"x2"Nipple....1 314" x3" Nipple . . . . 1'l"x4"Nipple.....1 2" x4-112" Nipp|e...........1 ION QTY. P/N All Fittings and Nipples are Galvanized CH: Common CH CH CH CH CH CH CH CH CH 40 41 42 43 44 TFPlO2OPage 12 oI 2O 1/2 INCH NPT AIR SUPPLY CONNECTION CONTROLVALVE FOR OPTIONAL (NORMALLY ACCELERATOR OPEN) 1/2 1NCH NpT CONNECTION FOR OPTIONAL AIR PRESSURE SWITCH t-rt \- 2INCH NPT CONNECTION TO DRAIN 4 rNCH (DN100) MODEL DPV-1 DRY PIPE VALVE NOTES: 1. INSTALLTRIM ASSEMBLIES IN ALPHABETICAL ORDER. SYSTEM AIR SUPPLY PRESSURE GAUGE MAIN DRAIN VALVE (NORMALLY cLosED) 3/4 INCH NPT CONNECTION FORWATER MOTORALARM 1/2 INCH NPT CONNECTION FOR SYSTEM ArR SUPPLY C ALARM TEST VALVE (NORMALLY cLosED) SYSTEM WATER SUPPLY PRESSURE GAUGE 3t4 INCH NPT CONNECTION TO DRAIN DRIP FUNNEL 1 INCH NPT B coNNEcroN FOR LOCAL SPRINKLER 1.1/4 INCH NPT CONNECTION TO DRAIN FIGURES-Part2of2 4 INCH (DNl00) MODEL DPV-I DRY PIPE VALVES _ ASSEMBLY PROCEDURE FOR VALVE TRIM _ SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. ROUTE 1/4" TUBING TO DRIP FUNNEL. SLOPEASSEMBLY B DOWN TOWARD BACK OF VALVE TO FACILITATE SUFFICIENT LOW BODY DRAINAGE. LOW BODY DRAIN VALVE (NORMALLY cLosED) 2. ? 4. TFP1O2O Page 13 ol 20 NOTES: 1. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. 2. ROUTE 1/4" TUBING, ITEM 16, TO DRIP FUNNEL, ITEM 14. 3. SLOPE 3/4" ANGLE VALVE, ITEM 9, AND 3/4" x 4-112" NIPPLE, fiEM 42, INTO DRIP FUNNEL, ITEM 14, TO FACILITATE SUFFICIENT LOW BODY DRAINAGE. 16 15 (GREEN TINT)\18 127 6 |NCH (DN150) MODEL DPV.1 DRY PIPE VALVE QTY. P/N 33 1l4"x3"Nioole....2 CH 17 114'Plug.........2 CH'18 1l2"Plug... ......2 CH 19 3l4"Plug... ......1 CH 20 1" Plug ..........1 CH 21 112" x 114" Reducing Bushing.........1 CH 22 112'Union.. ......1 CH 23 314"Union........1 CH 24 112'90"Elbow ....1 CH 25 1l2"45"Elbow ....1 CH 26'll2'Cross .......1 CH 27 1l2"Tee .........2 CH 28 112" x 114" x 112" ReducingTee.....2 CH 29 '112" x 112" x 114" ReducingTee.....1 CH 30 314"90'Elbow ....1 CH 31 314" x 112" x314" ReducingTee.....3 CH 32 '1" x 1" x 1/2" ReducingTee.....1 CH FIGURE6-Partl of 2 6 |NCH (DN150) MODEL DPV-I DRy ptpE VALVES_ EXPLODED VIEW OF VALVE TRIM NO. DESCRIPTION QTY. P/N 1 250 psi/ 1750 kPa Air Pressure Gauge........... 1 92-343-1-012 2 300 psi/ 2000 kPa Water Pressure Gauge........... 1 92-343-1-005 3 114" Gauge Test Valve... .........2 46-005-1-002 4 114" Pressure ReliefValve. ...... I 92-343-1-020 1/2"AngleValve ... 1 46-048-1-004 Model AD-1 Automatic DrainValve ....... 1 52-793-2-004 112" BallValve .... 1 46-050-1-004 1/2" Swing CheckValve ...... 1 46-049-1-004 3/4"AngleValve ... 1 46-048-1-005 3/4" Swing CheckValve ......1 46-049-1-005 2"AngleValve .... 1 46-048-1-009 Drio Funnel Connector 1 92-211-1-005 Drio Funnel Bracket . . . . . . . . . . 1 92-211-'l-003 14 DrioFunnel....... 1 92-343-1-007 15 3/32" Vent Fitting ...........'l 92-032-1-002 16 1/4"Tube, 24"Lono.........1 CH o 7 I I 10 1',l 12 13 34 ?4 36 37 38 39 40 41 42 43 44 1/2" x Close Nipp|e...........1 112" x 1-112" Nipp|e...........8 1l2"x2"Nipple....1 112" x2-112" Nipp|e...........1 112"x3" Nipple....1'112"x6"Nipple....1 314" x 1-112" Nipp|e...........5 314"x2" Nipple....1 314" x 4-'112" Nipp|e...........2 1"x4"Nipple.....1 2" x 4-112" Nipp|e...........1 CH CH CH CH CH CH CH CH CH CH CH All Fittings and Nipples are Galvanized CH: Common Hardware TFPlO2OPage 14 ol 20 1/2 INCH NPT CONNECTION FOR OPTIONAL AIR PRESSURE SWITCH 1/2 INCH NPT CONNECTION FOR SYSTEM AIR SUPPLY NOTES: 4. SLOPE 3/4'ANGLE VALVE AND 314" x 4-'t12" NIPPLE (OF ASSEMBLY B) INTO DRIP FUNNELTO FACILITATE SUFFICIENT LOW BODY DRAINAGE. LOW BODY 1/2 INCH NPT DMIN VALVE CONNECTION (NORMALLY FOR OPTIONAL CLOSED) ACCELERATOR AUTOMATIC DRAIN VALVE B.-@ I(ffi'- \m'///r -/- DRtp # - FUNNEL---\JJ I--E_l sLoPE. TO FIT 1/2 INCH NPT CONNECTION FOR WATERFLOW PRESSURE ALARM SWITCH 3/4 INCH NPT CONNECTION FOR WATER MOTORALARM ALARM TEST VALVE (NORMALLY closED) SYSTEM AIR SUPPLY PRESSURE GAUGE 1 INCH NPT CONNECTION FOR LOCAL SPRINKLER MAIN DRAIN VALVE (NORMALLY closED) 2INCH NPT CONNECTION TO DRAIN NOTES: AIR SUPPLY CONTROLVALVE (NORMALLY OPEN) D 6 rNCH (DN150) MODEL DPV-1 DRY PIPE VALVE J. 1.INSTALL TRIM ASSEMBLIES IN ALPHABETICAL ORDER. SEE FIGURE 3 FOR VALVE PORT IDENTIFICATION. ROUTE 1/4" TUBING TO DRIP FUNNEL. 1.1/4 INCH NPT CONNECTION TO DRAIN SYSTEM WATER SUPPLY PRESSURE GAUGE FIGURE6-Part2of2 6 INCH (DN150) MODEL DPV-I DRY PIPE VALVES _ ASSEMBLY PROCEDURE FOR VALVE TRIM _ TFP1O2O Page 15 oi 20 14-7t8" (380 mm) 9-',v4" (235 mm) 1 6-9/1 6' (420,7 mm) 12-114" (311,2 mm) 2-112 or 3 INCH VALVES 6' (150 mm)-T *',*|-tsslt'rl 17-114" FxF: 13-5/8" (346,1 mm) FxG: 13-11/16" (347,7 mm) GxG: 13-3/4" (349,3 mm) 2-112" (65mm) 11-112" (290 mm) 4-1t2" (115 mm) FIGURE 7 MODEL DPV.I DRY PIPE VALVE_ INSTALLATION DIMENS'O'VS _ Page 16 ot 20 Installation NOTES Proper operation of the Model DPV-1 Dry Pipe Valve dePends uPon its trim beino installed in accordance with the instrTctions given in this Technical Data Sheet. Failure to follow the ap- propriate trim diagram may prevent the DPV-1 Valve from functioning properly, as well as void listings, ap- provals, and the manufacturer's war- ranties. Failure to latch open the Clapper As- sembly prior to a system hydrostatic test may result in damage to the Clap' per Assembly. The DPV-I Valve must be installed in a readily visible and accessible loca- tion. The DPV-1 Valve and associated trim must be maintained at a minimum tem- perature of 40"F/4"C. Heat tracing of the DPV-1 Valve or its associated trim is not permitted. Heat tracing can result in the formation of hardened mineral deposits that are ca- pable of preventing proper operation. The Model DPV-1 Dry PiPe Valve is to be installed in accordance with the fol- lowing criteria: Step 1. All nipples, fittings, and de- vices must be clean and free of scale and burrs before installation. Use pipe thread sealant sparingly on male pipe threads only. Step 2. The DPV-1 Valve must be trimmed in accordance with Figures 4, 5, or 6, as applicable. lf the DPV-1 is to be equipped with a Dry PiPe Valve Accelerator, refer to the Technical Data Sheet TFP1100 for the Model QRS Electronic Dry Pipe Valve Accel- erator or TFP1112 for the Model ACC- 1 Mechanical Dry PiPe Valve Accel- erator. Step 3. Care must be taken to make sure that check valves, strainers, globe valves, etc. are installed with the flow arrows in the proper direction. Step 4. Drain tubing to the drip funnel must be installed with smooth bends that will not restrict flow Step 5. The main drain and drip funnel drain may be interconnected provided a check valve is located at least 12 inches (300 mm) below the drip funnel. The Low Body Drain Valve (Fig. 4, 5, or 6) may be piPed so as to discharge into the Drip Funnel or to a separate drain. Step 6. Suitable Provision must be made for disposal of drain water. Drainage water must be directed such that it will not cause accidental dam- age to property or danger to persons. Step 7. Unused pressure alarm switch and/or water motor alarm connections must be plugged. Step 8. The Pressure Relief Valve pro- vided with the Valve Trim is factory set to relieve at a pressure of approxi- mately 45 psi (3,1 bar), which can typi- cally be used for a maximum normal system air pressure of 40 psi (2,8 bar). The Pressure Relief Valve may be re- set to a lower or higher pressure; how- ever, it must be be reset to relieve at a pressure which is in accordance with the requirements of the Authority Hav- ing Jurisdiction. To reset the Pressure Relief Valve, first loosen thejam nutand then adjust the cap accordingly - clockwise for a higher pressure setting or counter- clockwise for a lower pressure setting. After verifying the desired pressure setting, tighten the jam nut. Step 9. lnstallation of an Air Mainte- nance Device, as described in the Technical Data Section, is recom- mended. Step 10. An Inspector's Test Connec- tion as required By NFPA't 3 must be provided on the system piping at the most remote location from the Model DPV-1 Valve. Step 11. Conduit and electrical con- neclions are to be made in accordance with the requirements of the authority having jurisdiction and/or the National Electric Code. Step 12. Before a system hydrostatic test is performed in accordance with NFPA 13 system acceptance test re- quirements, the Clapper Assembly is to be manually latched open (Ref. Fig. 3D); the Automatic Drain Valve (Fig. a, 5, or 6) is to be temporarily replaced with a 112 inch NPT plug, the 3/32 inch Vent Fitting (ltem 13, Fig. 4; ltem 15, Fig. 5; or ltem 15, Fig. 6) is to be temporarily replaced with a 1/4 inch NPT plug, and the Handhole Cover Bolts are to be tightened using a cross- draw sequence. TFP1O2O Valve Setting Procedure Steps 1 through 11 are to be Per- formed when initially setting the Model DPV-1 Dry Pipe Valve; after an oPera- tional test of the fire protection system; or, after system operation due to a fire' NOTES lf the DPV-1 is equiPPed with a DrY Pipe Valve Accelerator, refer to its re- setting instructions before resetting the DPV-1 . Refer to TFPI 100 for the QRS or TFP1112 for the ACC-I . Based on the instructions provided, re- set the Accelerator at the appropriate time during the resetting of the DPV-1 . Step 1. Close the Main Control Valve, and close the Air Supply Control Valve (Fiq. 4. 5. or 6). lf the DPV-1 is fqujppeO with a Diy Pipe Valve Accel- erator, remove the Dry Pipe Valve Ac- celerator from service in accordance with its Technical Data Sheet (Refer to TFP1100 for the QRS or TFP1l12tor the ACC-1). Step 2. Open the Main Drain Valve (Fig. a, 5, or 6) and all auxiliary drains in the system. Close the auxiliary drain valves after water ceases to dis- charge. Leave the Main Drain Valve ooen. Step 3. Depress the Plunger of the Automatic Drain Valve (Fig. a, 5, or 6) to verify that it is open and that the DPV-1 Valve is completely drained. Step 4. Open the Optional Alarm Con- trol Valve (Fig. a, 5, or 6), as applica- ble. if it was closed to silence local alarms. Step 5. As necessarY, rePlace all sprinklers that have operated. Re- placement sprinklers must be of the same type and temperature rating as those which have oPerated. NOTE In order to prevent the possibility of a subsequent operation of an over- heated solder type sprinkler, any sol- der type sprinklers which were possi- bly exposed to a temperature greater than their maximum rated ambient must be replaced. Step 6. Push down on the Reset Knob (Fig. 3E) to allow the Clapper Assem- bly to reseat. Step 7. Pressurize the system with air (or nitrogen) to 10 psi (0,7 ba|, and then individually open all auxiliary drain valves in the system piping to drain any remaining water in trapped sections. Close each drain valve as soon as water ceases to discharge. TFP1O2O Also partially open the Low Body Drain Valve (Fig. 4, 5, or 6) to assure that the riser is completely drained. Close the Low Body Drain Valve as soon as water ceases to discharge. Step 8. Refer to Table B and then restore the system to the normal sys- tem air pressure as necessary to hold the DPV-1 Valve closed. Step 9. Depress the Plunger on the Automatic Drain Valve to make sure it is ooen and that there is no air dis- charging. The absence of air discharging from the Automatic Drain Valve is an indica- tion of a properly set air seat within the DPV-1 Valve. lf air is discharging, refer to the Care and Maintenance section under Automatic Drain Valve Inspec- tion to determine/correct the cause of the leakage problem. Step 10. Partially open the Main Con- trol Valve. Slowly close the Main Drain Valve as soon as water discharges from the drain connection. Depress the plunger on the Automatic Drain Valve to make sure that it is open and that there is no water discharging. The absence of water discharging from the Automatic Drain Valve is an indication of a properly set water seat within the DPV-1 Valve. lf water is dis- charging, refer to the Care and Main- tenance section under the Automatic Drain Valve Inspection to deter- mine/correct the cause of the leakage oroblem. lf there are no leaks, the DPV-1 Valve is ready to be placed in service and the Main Control Valve must then be fully ooened. NOTE After setting a fire protection system, notify the proper authorities and ad- vise those responsible for monitoring proprietary and/or central station alarms. Step 11. Once a week after a valve is reset following an operational test or system operation, the Low Body Drain Valve (and any low point drain valves) should be partially opened (and then subsequently closed) to relieve drain- back water. Continue this procedure until drain-back water is no longer pre- sent. Care and MainJenance The following procedures and inspec- tions should be performed as indi- cated, in addition to any specific re- quirements of the NFPA, and anY impairment must be immediately cor- rected. 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.9., NFPA 25), in addition to the standards of anY authority having jurisdiction. The in- stalling contractor or product 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. l/orEs The operational test procedure and watetflow pressure alarm test proce- dure will result in operation of the as- sociated alarms. Consequently, notifi- cation must first be given to the owner and the fire department, central sta- tion, or other signal station to which the alarms are connected. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection systems must first be obtained from the Proqer authorities and all personnel who may be affected by this decision must be notified. Annual Operation Test Procedure Proper operation of the DPV-1 Valve (i.e., opening of the DPV-1 Valve dur- ing a fire condition) should be verified at least once a year as follows: Step 1. lf water must be Prevented from flowing beyond the riser, perform the following steps. . Close the Main Control Valve. . Ooen the Main Drain Valve. . Open the Main Control Valve one turn beyond the position at which water just begins to flow from the Main Drain Valve. . Close the Main Drain Valve. Step 2. Open the system's Inspector's Test Connection. Step 3. Verify that the DPV-1 Valve Page 17 ol2(J has operated, as indicated by the flow of water into the system and that all waterflow alarms operate properly. Step 4. Close the system's Main Con- trol Valve. Step 5. Reset the DPV-1 Valve in ac- cordance with the Valve Setting Proce- oure. NOTE It is recommended that the require- ment of NFPA 25 to annuallY insPect the inside of the valve be performed at this time and prior to resetting the DPV-1 Valve. Refer to the Automatic Drain Valve lnspection sub-section Steps 2 through 5 for instructions with regard to the inspection of the Clapper Facing. Quarterly Waterflow Alarm Test Procedure Testing of the system waterflow alarms should be performed quarterly. To test the waterflow alarm, open the Alarm Test Valve, which will allow a flow of water to the Waterflow Pres- sure Alarm Switch and/or Water Motor Alarm. Upon satisfactory completion of the test, close the Alarm Test Valve. Water Pressure Inspection The Water Pressure Gauge is to be inspected monthly (per NFPA 25) to ensure that normal system water pres- sure is being maintaineo. Air Pressure lnspection The Air Pressure Gauge is to be in- spected monthly (per NFPA 25) to en- sure that normal system air pressure is being maintained. Automatic Drain Valve InsPection The Automatic Drain Valve should be inspected monthly (per NFPA 25) bY depressing the plunger and checking to ensure that the Automatic Drain Valve is not discharging water and/or air. A discharge of water and/or air is an indication that the air and/or water seats are leaking, which could sub- sequently cause a false operation should the intermediate chamber be- come inadvertently pressurized. lf leakage is present, take the DPV-1 Valve out of service (i.e., close the main control valve, open the main drain valve, close the air supply control valve, remove the Dry Pipe Valve Ac- celerator from service, as applicable, in accordance with its Technical Data Sheet (Refer to TFP1100 for the QRS or TFPI 112 for the ACC-I ), and oPen the lnsoector's Test Connection to re- lieve the system air pressure to 0 psig as indicated on the System Air Pres- sure Gauge), and then after removing Page 18 ol 20 the Handhole Cover, perform the fol- lowing steps: Step 1. Make sure that the Seat Ring is clean and free of any nicks or signifi- cant scratches. Step 2. Remove the Clapper Assem- bly from the valve by first pulling out the Hinge Pin. Step 3. Disassemble the Clapper Fac- ing Retainer from the Clapper so that the Clapper Facing can be removed and inspected. Make sure that the Clapper Facing does not show signs of compression set, damage, etc. Re- place the Clapper Facing if there is any signs of wear. Step 4. Clean the Clapper Facing, Clapper, and Clapper Facing Retainer, and then reassemble the Clapper As- sembly. Step 5. Reinstall the Clapper Assem- bly with its Hinge Pin and then reinstall the Handhole Cover. 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 bv TFBP. No warranty is given for prodircts 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 or repaired 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. The foregoing warranty is made in lieu of any and all other warranties. ex- of merchantability and fitness for a par- ticular purpose- This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. TFPlO2O TFP1O2O Ordering Procedure NOTE Refer to Table A for Flange DrillingSpecifications. Part Numbers for factory pre-trimmed Modet DPV-1 Valves ai'e' provided in the Price Book. Standard DPV-1 Dry Pipe Valve (American Standard Flange Drilling, Threaded Ports, and Groove Outside Diameter, as appli- cable): Specify: (specify size) Model DPV-1Dry Pipe Valve wlth (specify inlet x outlet) end connections, P/N (specify). 2-112 lnch (DN65) GxG, 2.88 inch (73,1 mm) O.D. Groove x 2.88 inch (73,1 mm) O.D. Groove ... P/N 52-310-1-925 3 Inch (DN80) 3.50 inch (88,9 mm) O.D. uroove x J.5u inch (88,9 mm) O.D. croove ... P/N 52-310-1-930 4 Inch (DNl00) GxG, 4.50 inch (1 1 4,3 mm) O.D. Groove x 4.50 inch (114,3 mm) O.D. Groove ... P/N 52-310-1-940FxG, ANSI Drilled Flange x 4.50 inch (1 14,3 mm) O.D. Groove ... P/N 52-310-1-440FXF, ANSI Drilled Flange x ANSI Drilled Flanged P/N 52-310-1-040 6 Inch (DN150) 6.62 inch (168,3 mm) O.D. Groove x 6.62 inch (168,3 mm) O.D. Groove ... P/N 52-310-1-960 FXU. ANSI Drilled Flange x 6.62 inch (168,3 mm) O.D. croove ... P/N 52-310-1-460 FxF, ANSI Drilled Flange x ANSI Drilled Flanged P/N 52-310-1-050 Standard Galvanized DPV-1 Trim(Ref. Figure F): Specify: 2-1 12 and 3 Inch DPV-1 Semi- Preassembled Galvanized Trim.P/N 52-309-2-005. Specify: 4 Inch DPV-1 Semi-Preas- sembled Galvanized Trim, P/N 52-309-2-001. Specify: 6 Inch DPV-1 Semi-Preas- sembled Galvanized Trim, P/N 52-309-2-002. Optional Accelerator: Model QRS Electronic Accelerator (Details provided in TFPl100) Specify: Model QRS Electronic DryPipe Valve Accelerator Package,PtN 52-312-2-101. Model ACC-I Mechanical Accelerator (Details provided in TFP1112) Specify: Model ACC-1 Dry Pipe Ac- celerator, P/N 52-311-1-001, and Galvanized Accelerator Trim for Model DPV-1 Dry Pipe Valve, P/N 52-311-2-010. Optional 600 PSI Water Pressure Gauge: Specify: 600 PSI Water Pressure Gauge, P/N 92-343-1-004. Accessories: Order the Technical Data Sheets forthe following, as applicable, for detailsand additional accessories: Model PS10-2A Potter Electric Waterflow Pressure Alarm Switch.. ...... P/N54-281-1-002 Model WMAI Water Motor Alarm .. ...... P/N 52-630-1-001Model AMD-1 Air Maintenance Device.. ...... P/N 52-324-2-002Model AMD-2 Air Maintenance Device.. ...... P/N 52-326-2-001Model AMD-3 Nitrogen Maintenance De- vice. ... . ..... p/N s2-328-2-O0j Replacement Valve Parts: Specify: (description) for use with(specify size) Model DPV-1 Dry PipeValve, P/N (see Figure 1A and 1B). Page 19 ol 20 Replacement Trim Parts : Specify: (description) for use with (specify size) Model DPV-1 Dry Pipe Valve, P/N (see Figure 4, 5, or 6, as applicable). Weights: The following are the nominal weights forthe valves and trim: 2-112 lnch (DN65) Model DPV-1 GxGDryPipeValve ......... 37tbs.(17kg)3Inch (DN80) Model DPV-1 G x G Dry Pipe Valve . . . . . . . . . 38 tbs. (18 k9) "]i.1 1 l:l (3Tu"o).Yn::l':'23 rbs (11 kg) 4Inch (DN100) Model DPV-1 GxG DryPipeValve ........ 4lnch (DN100) Model DPV-1 FxG DryPipeValve......... 4Inch (DN100) Model DPV-1 57 lbs. (26 kg) 67 lbs. (31 kg) FxFDryPipeValve .......... 77lbs. (36k9)4 Inch(DN100)ValveTrim ...... 30tbs.(14k9) 6 Inch (DN150) Model DPV-1 GxG DryPipeValve.......... 95 lbs. (,t4 kg) 6Inch (DN1s0) Model DPV-1 FxG DryPipeValve.......... 108tbs.(50kg)6Inch (DN150) Model DPV-1 Fx F DryPipeValve ..... ..... 121 tbs. (56k9)6 Inch(DN150)ValveTrim ...... 30tbs.(14k9) Other DPV-I Dry Pipe Valves: NOTES Other DPV-1 Dry Pipe Valves arevalves ordered with a any combination of ftange, threaded poits, or groove outside diameter not offered under"Standard DPV-1 Dry Pipe Valve" of-ferings. Valves with NPT threaded ports areintended for use with the "standard Galvanized DPV-1 Valve Trim" offered and detailed in this document. Valves with ISO threaded ports are intended for use with special order trim that isprovided by local distributors to meetthe specific needs of certain localities.Please contact your local distributorregarding valves and valve trim forspecific localities. Specify: (specify size) Model DPV-1Dry Pipe Valve with (specify inlet xoutlet) connections with (specify NPTor ISO) threaded ports, P/N (specify). Page 2O ol 2O Part Numbers For Other3lnch (DN80) Dry pipe Vatves: Valves with ISO Ports UXG.e.so1ae,smm) Outside Dia. Groove x 3.50'188,9 mm) Outside Dia. Groove. .. p/N 52-309_1_922 TFP1O2O Part Numbers For Other4 Inch (DN100) Dry pipe Valves: Valves with NpT ports FxG, ISO Ftange x 4.50"(114,3 mm) outside _ Dia. Groove ...p/N 52_309_1-253FxG, AS Flange x 4.s0,(1 14,3 mm) Outside _ D_ia. croove . . .p/N 52_309_1_613FxG, JIS Flange x 4.50,'(1.14,3 mm) Outslde _ Dia. Groove . . .p/N 52_309-1_8.13FxF, ISO Flange x _ ISO Flange ....p/N 52-309_1-133FXF, AS Flange x AS Flange. ....p/N 52-309_1_513FxF, JIS Flange x JIS Flange . ...p/N 52-309_1_713 Valves with ISO ports GxG, 4.50"(114,3 mm) Outside Dia. Groove x4.50"(1 14,3 mm) Outside _ Dia. croove ...p/N 52_309-1_923FxG, ISO Flange x 4.50"(114,3 mm) OutsideDla. Groove ...p/N 52_309-1-213FxF, ISO Flange x ISO Flange ....p/N 52_309-1_113 Part Numbers For Other2-112lnch (DN6S) Dry pipe Valves: Valves with NPT portsGxc, 3.00176,1 mm) Outside Dia. Groove x 3.00"(76,1 mm) Outside Dia. Groove. . . p/N 52-309-1_930 Valves with ISO ports GxG, 2.88"(73,0 mm) Outside Dia. Groove x 2.88,'(73,0 mm) Outside Dia. Groove. .. p/N 52-309-1_920 3.00176,1 mm) Outside Dia. Groove x3.00.(76,1 mm) Outside Dia. Groove. .. p/N 52-309_1-940 Part Numbers For Other6 Inch (DN150) Dry pipe Vatves: Valves with NpT ports GxG, 6.50"(1 65,1mm) Outside Dia. Groove x6.50'(1 65,1 mm) Outside _ Dia. croove ...p/N 52_309_1_935FxG, ANSI Flange x6.50"(165,1 mm) Outside _ Dia. Groove ...p/N 52_309-1_435 FxG, AS Flange x 6.50'(165,1 mm) Outside - Dia. Groove ...p/N 52-309-1_635FxG, JIS Flange x 6.62'(168,3 mm) Outside _ Dia. croove ...p/N 52_309_1_815FXG, JIS Flange x6.s0"(1 6s,1 mm) Outside Dia. Groove ...p/N 52-309-1_835FXF, ISO Flange x _ ISO Ftange. ...p/N 52-309_1-135FxF, AS Flange x _ AS Flange ....p/N 52-309_1-515FxF, JIS Flange xJIS Flange ....p/N 52_309_1-715 Valves with ISO ports Gxc, 6.62"(1 68,3 mm) Outside Dia. Groove x6.62'(1 68,3 mm) Outside _ Dja. croove ...p/N 52_309_1_925cxc, 6.50"(1 65,1 FXG, ISO Ftange x 6.62,'(168,3 mm) Outside _ Dia. croove ...p/N 52_309_1_2SsFxG, ISO Flange x6.50'(165,1 mm) Outside _ Dia. Groove ...p/N 52-309-1_335FxG, AS Flange x6.62',(168,3 mm) Outside - Dia. Groove ...p/N 52-309-1_615 mm) Outside Dia. Groove x6.s0,,(165,1 mm) Outside _ D_ia. croove . ..p/N 52_309_1_945FxG, ISO Ftange x 6.62',(168,3 mm) Outside _ D_ia. croove ...p/N 52_309-1_215FxG, ISO Ftange x6.50,'( 165,1 mm) Outslde _ Dia. Groove ...p/N 52_309-1_315FXF, ISO Flange x ISO Flange. ...p/N 52_309-1_115 TYCO F,RE & BUTLDTNG 'RODUCTS,451 North cannon Avenue, Lansdare, pennsyrvania - ffirur*pr ffimspmtr## Auromenc SpmnxtERs GL Senres {q#*p#fqsffi CONVENTIONAL l"; - 4OTTAIRPARK DRIVE, STANDISH, MICHIGAN 48658 MAY 2A11 UprueHT * peuoeur HontzoNTAL Snewett Venncat SnewALL '#*; 1ffi: wnl {*.r"}t*K UPRIGHT fte;i#H ffi*SP#ruS# PENDENT VERTICAL SIDEWALL ftu$f,K fttr$p*i{$#I HORIZONTAL SIDEWALL 989€4G4583 * FM989-846-9231 BULLETIN G15615, REV, #7 DescmpnoN AND Openenou CouveNnoNAL (Oto Srvrc) The Globe Quick Response GL series sprinkrers are a row profireyet durable design which utilizes a 3mm frangible grass ampule as thethermosensitive erement. This provides sprinkrer operation approxi-mately six times faster than ordinary sprinkrers. whire the euickResponse sprinkrer provides an aestheticaily preasing appearance, itcan be installed wherever standard spray sprihklers arJspecified whenallowed by the applicable standards. lt offers the additional feature ofgreatly increased safety to life and is available in various styles,orifices, temperature ratings and finishes to meet,n"nyuurying designrequirements. Quick Response sprinklers should bs used advised-lyand under the directio_n of approving authorities having jurisdiction. The heart of Grobe's GL series sprinkrer prou"n actuatingassembly is a hermeticallysealed frangible glass ampule that containsa precisely measured amount of fluid. wnen heat is absorbed, theliquid within the bulb expands increasing the internal pr"rr*". At theprescribed temperature the internar pressure within the ampure ex_ceeds the strength of the glass causing the glass to shatter. This resultsin water discharge which is distributed rn an approved pattern depend_ing upon the deflector style used. Tecuurcet Dern *See reverse side for Approvals and Specifications.*Temperature Rating_s - 135"F (S7"C), 1SS.F (6g.C), 175"F (79"C), 200.F (93.c), 296"F (141"C)+Water Working pressure Rating _ 175 psi (12 Bars)'efgctory tested hydrostaticaily to 500 psi 1e+ Aars; ' aMaximum low temperature grass burb rating is -6i.F (-ss.c)sFrame - bronze s Deflector - brass * Screw _ brass.Prfb seat - copper * Spring - nickel alloy * Seal _ teflon*Bulb - glass with alcohol based solution, 3mm size * SPRINKLER TEMPERATURE RATING/CLASSIFICANAN ANd COLOR CODING #wp*pr ffimmpmtr## lqromenc SpruuxtERsGI. Seses UPNrcHT * PCXOENT - VERTICAL SNEWEIIHoruzoNrAL sneweLL * couieu'rtoNAL (oto srvtr) NoMINAL..K'. paeino THREAD SIZE LENGTH 1 2.8 (39 metric) 4.2 (S9 metric) 5.6 (80 metric) 7.8 (111 metric) 8.1 (116 merric) FINISHES 1/2" NPT 1/2'NPT 1/2" NPT 1/2" NPT 3/4" NPT 2114" (5.T cm) 2114" (5.7 cm) 21/4" (5.7 cm) 21/4" (5.7 cm) 2 7116 (6.2 cm) Factory Bronze Bright Chrome Satin Chrome 2 White Polyester 3 Black Polyeste;- z,o Lead Coated 2,3 {-UNVERSIONS ARE APPROXIMITE , _....^. ._loRtzorrirel sroewntl rs z st6a,.F]lllgftF_s IvAtLABLE oN spECrAL oRDER.Appnouets TAVAILABLE AS cULus LTSTED CORROSTONRESISTANT WHEN SPECIFIED ON ORNFR Onoemue luronnnrroN SPECIFY 'Quantity . Model Number- Orifice - Thread Sizes .. Finishes desired'Quantity - Wrenches - p/N 325390 (1i2,,);P/N 312366 (1.O.) ffipffifffi .W%WffiffiFrft g spRrhlKtril esRpsfrATtSN . Style Temperature /2" NPT 4077 AIRPARK DRIVE, 989_8464583 1_800_248_0278 PRINTED U.S.A. t VERTTCAL STDEWALL SpRtNKLER.cULus LTSTED FOR LtcHT HAZARD ONLypENDENT vERlcAL stDEWALL cur", LrsiEo rbi'o,naTnr. ""ecr*c.UPRIGHT VERTICAL SIDEWALL CULUS.LISTTJiO"N'g; rriii.I]'S'OC'NC,5 HoRtzoNTAL STDEWALL cuLus.lsreo ron oEriEiroi.c; ro 12" BELoWTHE CEILING, FM APPROVED 4" TO 6'. Gtoee pnooucr WeaneNTy ...__9lob",uqtees to repairor replace any of its own manufac-tured products found to be defeciive in rnjt"riuio*orkmanshipfora period of one year from date oish,d;;i " For specific details of ourwananty please refer to price ListTerms and Conditions of Sale 1Ow eri." Gii'-' STANDISH, MICHIGAN 48658 FAX 989_846_9231 www. globesprinkler.com BULLETIN G15615, REV. #7 $ge'qracArtoNs STYTE stN MODEL K FACTOR ON ORDER. 1 35'F 57'C 1 55"F 68'C 175"F 79'C 200'F 93"C 286'F 141"C cULus F.M.tp^CE NYC - DOB MEI 101-92-E UPRIGHT G1281 5 GL4215 GL56 t 5 GL81 1 5 GL81 1 8 2.8 1.2 5.6 7.8- 8.1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X PENDENT G12801 GL4201 G15601 G18101 GL8 1 06 2.8 4.2 5.6 7.8" 8.1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X XVERTICAL SIDEWALLT G15632 GL81 33 5.6 8.1 X X X X X X X X X X X X X HORZONTAL SIDEWALL S GL2826 GL4226 G15626 GL8127 2.8 4.2 4A 8.1 X X X X X X X X X X X X X X X X X X X I X X X X X 1CONVENTIONAL (oLD STYLE) G15624 G18125 5.6 8.1 X X X X X X X X X X X X MAY2O1 1 Addrass Assignrnent Form \L tt City of Rexburg tl City of Sugar City tr Madison County U Current Address tr Legal Description tr Porcet No. , lte ,l,f t4r''' 'atl"+/ ir^l Dat", 3 -Subdivision: Block: _ Lot: Block:_ Lot: City Block: New Address: Additional fnf orrnotion: o@@@@ @o bl,,tk 9'I _-_.1_- ,@ o o."t (o)+ L /6r @ EF @ [D0-Tocrre" 6rvr^fg I\\ed..l'ul u l0l- 3iU"4 101- - ?ed,thirrcs *1Yl5i $,! i^ood' Hi; I f.\ L'$)(iF "lFi?lsFFr @ I r$F l<t>lz.'tF IF gI+{ -T- lEl II.O* @o N o@ @@ o Ag $ _/Vit$'lf l2 ItHtpo I ) o0 - D6 &ru"4 2Jl - Adlni'\ T8ifiU $[+€ -ltN5l-rl .l iI _-: I i ffi$$ -T- II iI=O. ;ffi-#fi,!n'ro' S @=- @o Il$;Fr I1li,lrItl€rht5I' @ $l$ 3rrt -Rr,crnn rm n-q"f fe^tt^;* Pnl* ir- Sftrnnl f'tkdlt'r^4 ili