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,pps,la -o0076 foo cw /4f-a.tv/r___ Hydraulics Summary Sheet WYATT FIRE PROTECTION Designer: B PEARSON . 9095 SW BURNHAM Calc By: B PEARSON TIGARD, OR. 97223 Date: 6/20/2013 503-684-2928 Project Information Hydraulics Information WESTSIDE CHRISTIAN HIGH SCHOOL Demand. . . 8200 SW PFAFFLE ST. Sprinkler TIGARD, OR. 97223 Required Pres : 69. 70 PSI GYMNASIUM Required Flow: 210. 72 GPM Static Elev: 0. 00 Ft Contract No: System Building: GYM Total Pres : 69.42 PSI System ID: WESTSIDE CHRISTIAN HIGH SCHOOND@ ; Add' l Flows: 100. 00 GPM ; Ref Drawing: FP-1 Hose at Srce: 0. 00 GPM Total Flow: 310. 72 GPM Const : STEEL TRUSS Occupancy: SCHOOL GYM Supply. . . Water Flow Test Authority: CITY OF TIGARD Static: 78.00 PSI Residual: 63. 00 PSI Qty Flowing: 1901. 00 GPM FT Elevation: 0. 00 Ft System Information Date: Time: By: Hydraulics Design Criteria Standard: NFPA #13 Pump Data Hazard: LIGHT Rated 0.0 PSI@ 0.0 GPM Figure: 112311 Curve: LIGHT Boost Pres (NA) PSI System Type: WET Discharge Pres (NA) PSI Discharge Flow (NA) GPM Density: . 10 GPM/SqFt Remote Area: 1636 SqFt Combined Spr Cov: 400MAX SqFt Static: (NA) PSI Residual : (NA) PSI Sprinklers & Nozzles Flow: (NA) GPM Manufac: RELIABLE Model : J112 Available. . . Size: 3/4" P) 77.47 PSI@ 310. 72 GPM K-Factor: 11.2 EO PROP, F) 69 . 42 PSI@ 1406. 26 GPM 'c, Temp Rating: 155F GINe$siPt 9./ * Margin. . . Pressure: 8.06 PSI ` /' Flow: 1095 . 54 GPM dita Nierts .% Sigma Dynamics Corporation EXPIRES:it 1-3 7700 Hydraulics SUBMI TTAL SERIAL NO:4126HY1 06-21-2013 PAGE 1 T-TTIA TA TTT ATTT T elm an TTT ATT 1T/TTYPIPIY water supply STATIC 78.00 PSI RESIDUAL 63.00 PSI @ 1901.00 GPM CITY PRESSURE AVAILABLE AT 310. 7 GPM 77.47 PSI SUMMARY OF SPRINKLER OUTFLOWS • ACTUAL MINIMUM SPR FLOW FLOW K-FACTOR PRESSURE 201 44. 79 40.00 11.20 16. 00 202 44. 60 40.00 11. 20 15 .86 203 41. 15 40.00 11.20 13 . 50 204 40.00 40.00 11. 20 12. 76 205 40. 18 40.00 11.20 12.87 TOTAL WATER REQUIRED FOR SYSTEM 210. 72 GPM OUTFLOWS AT 3 100.00 GPM TOTAL WATER REQUIREMENT 310. 72 GPM PRESSURE REQUIRED AT 0 69.42 PSI MAXIMUM PRESSURE UNBALANCE IN LOOPS 0.00 PSI MAXIMUM VELOCITY FROM 11 TO 12 15 . 11 FPS SUBMITTAL SERIAL NO:4126HY1 06-21-2013 PAGE 2 WESTSIDE CHRISTIAN HIGH SCHOOL GYM LIGHT HAZARD Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary • From To GPM IN Devices Ft PSI/Ft PSI 205 204 1. 536 L 18.00 C=120 PT 12. 76 (204) Q 10. 67 F=0 F 0. 00 PE 0. 00 BL1 T 18. 00 0 .0064 PF 0. 12 126 205DQ 40.18 1.536 L 14. 60 C=120 PT 12.88 (205 ) Q 50. 85 F=0/T F 6. 00 PE 0.00 BL1 T 20. 60 0. 1142 PF 2.35 26 126 1. 536 L 1. 50 C=120 PT 15 .23 (126) Q 50.85 F=T F 6. 00 PE 0.65 RN2 T 7 . 50 0. 1142 PF 0.86 25 26 1. 536 L 18.30 C=120 PT 16. 74 ( 26) Q 50.85 F=0 F 0.00 PE 0. 00 CM2 T 18. 30 0. 1142 PF 2.09 PT 18. 83 ( 25) 203 204 1. 536 L 18.00 C=120 PT 12. 76 (204) Q 29. 33 F=0 F 0.00 PE 0.00 BL1 T 18. 00 0.0412 PF 0. 74 116 203DQ 41. 15 1. 536 L 32.40 C=120 PT 13. 50 (203) Q 70.47 F=T F 6.00 PE 0.00 BL1 T 38.40 0. 2088 PF 8.02 16 116 1. 536 L 1. 50 C=120 PT 21. 52 (116) Q 70. 47 F=T F 6.00 PE 0. 65 RN1 T 7. 50 0 . 2088 PF 1. 57 15 16 2.203 L 18.30 C=120 PT 23.74 ( 16) Q 70.47 F=0 F 0.00 PE 0.00 CM1 T 18.30 0.0361 PF 0. 66 PT 24.40 ( 15) 125 202 1. 536 L 22.80 C=120 PT 15 .86 (202) Q 33. 55 F=0/T F 6.00 PE 0.00 BL1 T 28. 80 0 . 0529 PF 1.52 25 125 1. 536 L 2.30 C=120 PT 17. 38 (125) Q 33. 55 F=T F 6.00 PE 1.00 RN2 T 8. 30 0.0529 PF 0.44 24 25DQ 50.85 1. 536 L 18. 70 C=120 PT 18.82 ( 25) Q 84.40 F=0 F 0.00 PE 0.00 CM2 T 18.70 0 .2915 PF 5.45 PT 24. 27 ( 24) v.+a/a,iaany yaJi.la7L a.v.TiLYalll VV-41-LV1J rAvz, .7 WESTSIDE CHRISTIAN HIGH SCHOOL GYM LIGHT HAZARD Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI/Ft PSI 201 202 1. 536 L 20 .00 C=120 PT 15 .86 (202) Q 11.06 F=0 F 0. 00 PE 0.00 BL1 T 20.00 0.0068 PF 0. 14 115 201DQ 44. 79 1. 536 L 40.20 C=120 PT 16. 00 (201) Q 55 .85 F=T F 6. 00 PE 0.00 BL1 T 46. 20 0. 1358 PF 6.27 15 115 1. 536 L 2. 30 C=120 PT 22.27 (115) Q 55 .85 F=T F 6.00 PE 1.00 RN1 T 8. 30 0 . 1358 PF 1. 13 14 15DQ 70.47 2.203 L 18. 70 C=120 PT .40 ( 15) Q 126. 32 F=0 F 0.00 E 0.00 CM1 T 18. 70 0 . 1061 PF 1.98 PT 26. 38 ( 14) 124 24 1. 536 L 3.00 C=120 PT 24. 27 ( 24) Q 19. 10 F=T F 6.00 PE -1.30 RN2 T 9.00 0 . 0187 PF 0.17 114 124 1. 536 L 83. 00 C=120 PT 23 . 14 (124) Q 19. 10 F=T/T F 12.00 PE 0.00 BL1 T 95 .00 0.0187 PF 1. 78 • 14 114 1. 536 L 3. 00 C=120 PT 24.92 (114) Q 19. 10 F=T F 6.00 PE 1.30 RN1 T 9 .00 0 .0187 PF 0. 17 13 14DQ 126.32 2.203 L 19.40 C=120 PT 26.39 ( 14) Q 145.42 F=0 F 0. 00 PE 0.00 CM1 T 19.40 0. 1377 PF 2.67 PT 29.06 ( 13) 23 24 1. 536 L 19.40 C=120 PT 24.27 ( 24) Q 65 . 30 F=0 F 0.00 PE 0.00 CM2 T 19.40 0. 1814 PF 3. 52 123 23DQ -50. 83 1. 536 L 3.00 C=120 PT 27. 79 ( 23) Q 14.47 F=T F 6. 00 PE -1. 30 RN2 T 9.00 0 . 0112 PF 0. 10 113 123 1. 536 L 83. 00 C=120 PT 26. 59 (123) Q 14.47 F=T/T F 12.00 PE 0.00 BL1 T 95 . 00 0 .0112 PF 1.06 SUBMITTAL SERIAL NO:4126HY106- 21-2013 PAGE 4 WESTSIDE CHRISTIAN HIGH SCHOOL GYM LIGHT HAZARD Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI/Ft PSI 13 113 1. 536 L 3. 00 C=120 PT 27. 65 (113) Q 14.47 F=T F 6. 00 PE 1.30 RN1 T 9 .00 0. 0112 PF 0. 10 12 13DQ 145.42 2.203 L 18. 70 C=120 PT 29.05 ( 13) Q 159.89 F=0 F 0.00 PE 0.00 CM1 T 18. 70 0. 1642 PF 3.07 PT 32. 12 ( 12) 22 23 1. 536 L 18. 70 C=120 PT 27. 79 ( 23) Q 50.83 F=0 F 0. 00 PE 0.00 CM2 T 18. 70 0. 1141 PF 2.13 122 22DQ -31. 16 1. 536 L 2. 30 C=120 PT 29.92 ( 22) Q 19. 67 F=T F 6. 00 PE -1.00 RN2 T 8. 30 0. 0197 PF 0. 16 112 122 1. 536 L 83 . 00 C=120 PT 29.08 (122) Q 19. 67 F=T/T F 12.00 PE 0.00 BL1 T 95 .00 0.0197 PF 1.87 12 112 1. 536 L 2. 30 C=120 PT 30.95 (112) Q 19. 67 F=T F 6. 00 PE 1.00 RN1 T 8. 30 0.0197 PF 0.16 11 12DQ 159.89 2. 203 L 18. 30 C=120 PT 32.11 ( 12) Q 179. 56 F=0 F 0.00 PE 0.00 CM1 T 18. 30 0 . 2035 PF 3. 72 PT 35.83 ( 11) 21 22 1. 536 L 18.30 C=120 PT 29.92 ( 22) Q 31. 16 F=0 F 0.00 PE 0.00 CM2 T 18. 30 0 .0461 PF 0.84 121 21 1. 536 L 1. 50 C=120 PT 30.76 ( 21) Q 31. 16 F=T F 6. 00 PE -0. 65 RN2 T 7. 50 0 .0461 PF 0. 35 111 121 1. 536 L 83. 00 C=120 PT 30.46 (121) Q 31. 16 F=T/T F 12 .00 PE 0. 00 BL1 T 95 . 00 0 .0461 PF 4.38 11 111 1. 536 L 1. 50 C=120 PT 34. 84 (111) Q 31. 16 F=T F 6. 00 PE 0. 65 RN1 T 7. 50 0. 0461 PF 0 .35 i .+ ..+i itaaa �J aJali raL a�V.=14\lala l UO-Li-ZUJJ riVari 3 WESTSIDE CHRISTIAN HIGH SCHOOL .. GYM LIGHT HAZARD Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary • • From To GPM IN Devices Ft PSI/Ft PSI 5 11DQ 179. 56 2. 703 L 34. 00 C=120 PT 35 .84 ( 11) Q 210. 72 F=4E F 17 . 20 PE 3.47 FM2 T 51. 20 0 .1010 PF 5. 17 4 5 2. 703 L 10.00 C=120 PT 44.48 ( 5) Q 210. 72 F=T,E,BV F 21. 10 PE 4.16 FR1 T 31. 10 0. 1010 PF 3. 14 3 4 8.450 L 105 . 00 C=140 PT 51. 78 ( 4) Q 210. 72 F=CV F 60.00 PE 3.47 UN3 T 165 . 00 0 .0003 PF 0.05 2 3DQ 100.00 8.450 L 245 .00 C=140 PT 55.30 ( 3) Q 310. 72 F=2E,2EE F 58. 60 PE 5.20 UN2 T 303. 60 0. 0006 PF 0. 18 1 2 7.981 L 6.00 C=120 PT 60. 68 ( 2) Q 310. 72 F=DDC F 0.00 PE 0.00 FM1 T 6.00 0.0011 PF 0.01 P/// 8" Febco Mod. 856 - Double Check Detector Assembly 6.02 �'" COMMENT: INCLUDES FRICTION LOSS FOR 8 INCH DDCVA 0 1 8.450 L 90.00 C=140 PT 66. 71 ( 1) Q 310. 72 F=T,GV,2E F 86. 50 PE 2. 60 UN1 T 176. 50 0. 0006 PF 0.11 PT 69 .42 ( 0) G.P.M. MULTIPLY SCALE BY ISC6,J1 p 1 2 3 4 5 8 7 8 9 10 11 IIM■w�Ml _ 12 13 14 15 ol 11111L- ' _ 1111111111111111111 ___ ^_�.---L----_ FITNEss'commend, -- --__ : —___ __ Psi ,pEs�c�,ac __.- _� 7.47 4PAt a 43.2 Psi - _ _ - _.. ._ - _=._-_'"�'�: !96/G/M fled Z(o(o4PMp 58.4 . ` NINNINIIIINI — ___ .__.. - -- _ - - _ - - IMMEMEIMO min tO qj in in a. 11 _—._ ______L �_.___ �- __ �- 1 i • — ws .== Inn N II 1II_ti_.�.. _._. - -.. -- -,Ill : . ._ _. --------- ------- ---- - .. tdESTS IDE C i T/4N i iil1 cciJ L 820o S PfAFFCE s i• • TUALATIN VALLEY WATER DISTRICT Test#: 993 FIRE HYDRANT FLOW TEST REPORT Hydrant ID #: 1S1W36C5H50 Location: PFAFFLE ST&82ND AVE Date: 11/27/2012 Test made by: HERB&JAMES Witness: Time: 12:45 Protect name: Discharge coefficient: .54816 Inside dia. of outlet= 4.5 inches Pitot reading = Pitot 2 = 33 psi 0 psi Observed flow rate = 1901.5 gpm Flow method: HOSE MONSTER Static pressure: 78 psi Residual pressure: 63 psi .'1/0 11 1� Flow at 20psi residual pressure (calculated): 3947 gpm /1' Location map: To be attached to test report and to show which hydrants were used to monitor residual pressure and flow. Gage Information: Static and residual pressure gape: 120997-2C Pitot cape: 9864E-1 Hydrant information: Hydrant ID Year Make Notes Flow hydrant: 1S1W36C5H50 1995 US PIPE see map for location Read hydrant: 1 S1 W36C6H50 2001 WATEROUS see map for location Remarks: The mapping,flow or pressure information contained herein reflects conditions on the date and time of the test. Tualatin Valley Water District makes no representation as to the system's ability to meet specific fire flow requirements. Future system capability may differ from the flows reported herein because of subsequent modifications to the district's system and/or because flow and pressure may vary by time of day and season. Test gage callibration information available upon request. tj03 . 251 s o`f 1. . G T' lA. (o N D 1 � . DATE G ,�-7 Z.. ) 5 j I. A to �1 P TIME 1 ct,1 415-1 ' m i DONE BY 31 f`l A.Ammonium � -(-I STATIC FS/ ��� C.RESIDUAL 4 /25/ Alll ®''i 4th PITOT 33 pS f s ' 11111 READ GAUGE /WI 7_k PITOTGAUGE 'Seb1E-j -r~i. . ■ - 83r. pry 9 i FLOW HYD. i t-?5_ 0.5 pi ,e i ... 4 2 READ HYD. Al! Ljf (, I, 1 1 1 III -17 � 8 • 1l 1111 • 1 fes' J h pi 1 'ti . in 82 d i h \ � a.* 8 \, f ` \ \ , 0 tAideAV riii----.„‘„,...___ Rt.4 8 \ 8. h Ili I . 11111111 qi .. ‘ 4'.‘ \\\• d t g \`4.t.‘45 11111 79th ------ • _i s s \ ,s, Q, III \ tiia. \ . ?e� /5592 n \ - . _ \ 2 :"-- i V1 \\ :r r. , N E r HYDRAULIC DESIGN INFORMATION SHEET • NAME IN S/ siz moi' i .L DATE 4/24/13. LOCATION f2DO VA) - 'FA ,w` ST TiGAD, of • BUILDING F/r#/ESs/CoMMOAIS Ibbfrt DAJ SYSTEM NO. CONTRACTOR til 0T FIRE' P6ricrionl CONTRACT NO. CALCULATED BY P. 1i£,d12SON DRAWING NO. ,FP-Z CONSTRUCTION: COMBUSTIBLE ( NON-COMBUSTIBLE CEILING HEIGHT FT. OCCUPANCY L/G�1' itAutD . SCIfooL ix NFPA 13: N' LT. HAZ. ORD. HAZ. GP. ❑ 1 ❑ 2 ❑ 3 ❑ EX. HAZ. Z ❑ NFPA 231 ❑ NFPA 231C: FIGURE ; CURVE O ❑ OTHER (Specify) W ❑ SPECIFIC RULING MADE BY DATE 0 w AREA OF SPRINKLER OPERATION 9ve sq.F1: SYSTEM TYPE 1- DENSITY ID kl WET ❑ DRY ❑ DELUGE ❑ PRE-ACTION cny AREA PER SPRINKLER /its SPP INKLER OR NOZZLE HOSE ALLOWANCE GPM: INSIDE MAKE eiiiD GE MODEL F/lcie HOSE ALLOWANCE GPM: OUTSIDE SIZE_ ye _ K-FACTOR 5.1` RACK SPRINKLER ALLOWANCE TEMPERATURE RATING CALCULATION GPM REQUIRED 147 PSI REQUIRED 4-6' AT BASE OF RISER . SUMMARY "C" FACTOR USED: OVERHEAD /Zb UNDERGROUND /40 PAT.ER FLOW TEST PUMP DAIA. TANK-013 RESERVOIR } DATE & TIME RATED CAPACITY CAPACITY 'J STATIC PSI AT PSI ELEVATION CI- RESIDUAL PSI ELEVATION D c" GPM FLOWING WELL w ELEVATION • PROOF FLOW GPM I- LOCATION SOURCE OF INFORMATION COMMODITY- CLASS LOCATION w STORAGE HEIGHT _ AREA ___- AISLE WIDTH Q STORAGE METHOD: SOLID PILED % PALLETIZED % RACK % cc i- 0 SINGLE ROW ❑ CONVENTIONAL PALLET ❑ AUTOMATIC STORAGE ❑ ENCAPSULATED r ❑ DOUBLE ROW ❑ SLAVE PALLET (-] SOLID SHELVING ❑ NON- i- ' (] MULTIPLE ROW [] OPEN ENCAPSULATED O Y - -- -- -- - - - - - -- — z Q FLUE SPACING IN INCHES CLEARANCE FROM 10P OF S1 ORAGE TO CEILING O ¢ LONGITUDINAL TRANSVERSE FT. IN. U HORIZONTAL BARRIERS PROVIDED—__-_ _ --.- - .NOSO PRO, c N F s F , /SO Form SPRS-9 �� :y9A.,, . ,..e I. ',644.41,4, .. - D. 'N' EXPI s: 1Jl:), HYDRAULIC CALCULATIONS . JOB NO. DRAWING NO. FPI' r' . SHEET NO. / OF Z NAME LUES1SI DE C,ejS11,Ni1/ dad /f d 5cOO/ BY B.PPJ SDAl S LOCATION 1 TNF45 / &'frM1OA1S Abb/rto/i/ S/k-/ f/-Z DATE 4/24113 NOZZLE FLOWFITTING FRICTION HYD. TYPE & IN PIPE i PIPE EQUIV. LOSS REQUIRED REF. PT. ELEV. NOTES LOCATION G.P.M. SIZE DEVICES LENGTH P.S.1./FT. P.S.I. O Q LOTH. /4„5 PT 9,vb FTG. 'Lit P F 1• w 19 �1N>+ 2t Q 4.1 . � rsu!•d0 TOT. ZD.S ,0�4' :PE -/•O$ -2•6.4` 1 c.i.illit Q OS LOTH. 124 PT C144 I y FTG. /� PF /,IS Q 34.3 14 TOT. 12.1 , 093 PE -- c4 i - Q 18.k LGTH. /0 PT 11,01 1 t FIG. PF 1,010 Q 92.9 14 TOT. fp ,104) PE 5/4 13,o (220.11, LGTH. '2 PT 13.14FTG. 6 PF 3.00 Q13.1 ' 4 I TOT. $ 0 375 PE - Q J LGTH. /0.2 PT 1L.0 FIG. PF Q 13.1 ZN sgi.10 OT. /04 •o43 PE .44._ 1 .18 /b,iZ. Q 13.9 LGTH. 130.1 PT 1(..SZ ?3•I N 3T FTG. 30 PF 24.43 TOT. I(0.2 • 15S SPE - Ka 16.1Ig•1g 6 Q41.c �i Q LOTH. 2.5 ) PT 4.1,3c 11 A FTG. PF ,02 Q 147.0 4 Sal.4c. TOT. 24 ,DC% PE Q LGTH. 204, PT 44,37 Q +7.f7 M FIG. PF ,10 sca•40 TOT. '10:20 , pb5 PE - Q LOTH. 21.1 PT 4.1.4 Q 141.0 & s t41�4D TOT. ") ,OD 2 PE -1 Q LGTH. 9 f PT 41,40 5 .---- , 41, FIG. 2. Pr ,D Q 147.0 4 Sc11.1 TOT. I I ,tin PE '3.34 y• • ,Q LGTH. ,08 PT 4S.S1 4 TQ 14Z.b P CI. TOT..J B PF E, lql . 0004• PC �,,4" 4SE Q 1y0 LGTH. S PT 49.11 3 , h FTG. '3 PF , iq . Q 1,41.D8 CT TOT. 31(..3 . 0004 PE - Q LGTH. PT 41.31 Z Q 241.0 8" i�DC UA. TOT. PE 4,,p2. Q LOTH. ' , PT 55,7J'3 I Q7/41,.D B�Cr � �i�TOT. 11 .0001e PE 1.SOIv Q LGTH. PT (a `3, b FTG. PF Q TOT. PE Q LGTH. •T FTG. PF Q TOT. PE Q LGTH. PT FTG. PF Q TOT. , PE Q f LGTH. PT FTG. PF Q TOT. PE PT HYDRAULIC CALCULATIONS . JOB NO. DRAWING NO. cf 2 SHEET NO. 7i OF 2 NAME kiESTs/bE Cill/ST/,Ai) 1.I/4i4 Sic/1m6 BY 13•a /V is LoCAnoN f i riVESS / â 'i1o1k/� AAQ,T/o,l /10X. Al P • DATE b124 i 13 NOZZLE FLOW FITTING FRICTION HYD. LOSS PIPE PIPE EQUIV. REQUIRED ELEV. NOTES LOCATION G.P.N. DEVICES P.S.I./FT.TYPE SIZE i LENGTH P'S—IREF OI PT. Q LGTH. /3.S PT 7.v1 Z>E FIG. PF 1.31 t, //Mb't2S Q 14.9 /" sc d • 1't•S .o7S TE-1.09 -z-6. r4 1.f Q /S./ LGTH. /O_ PT 7.30 /1S FTG. PF 07'1. • Q 30,o 14 TOT. /O •072 PE — S:441-Firs, Q iS,g LGTH. ?. PT L07, /� l a T FTG. 4 PF 147 Q 4S•Q b4 , TOT. S +/59 PE — Q LGTH. IVS PT 9.19 K 45.1 _ FTG. 22 079 - 1S.o2. Q 4S>2 Z� Sam, TOT. 124 .o/9 PE — 1s.oZ1SI Q 01.3 LGTH. 13•ZS PT 9.,sI FIG. PF�"� Q 92.1 21° SC//•/D TOT. 13.4 .0t4 PE ,—? IS.0Z /0.38 Q 74$,4 LGTH. 18.7S PT /o.38 FTG. PF z.1pB _Q14/7.5 V SC/I./D TOT. /PT-, • 143 PE Q LOTH. it.33 i PT /3.O4 FTG. to PFQ I4o•S 2. 2E TOT. 7.4-.33 • 143 PE 4�S Q LOTH. 10/ PT 17.!) Q 14o.S 2'' T TO 1 20 ,)43 PE I- IL Q LGTH. , PT 35.27 &CDN11I. 10 4" AVAILABLE FIG. PF / lle-Cr i2E 41.'35 Q TOT. PE Q LGTH. , PT FTG. Pr Q TOT. PE • Q LOTH. PT FTG. PF Q TOT. PE Q LOTH. PT FIG. PF Q TOT. PE Q LGTH. PT FTG. PF ,Q TOT. PE • i Q LGTH. PT �'�ZTTPN- /O FTG. PF ,�y Q TOT. PEfrv-4 , i. Q LGTH. PT 7/' / FTG. PF Q TOT. PET ••4..,.. moi'• �. Q LGTH. Pii.t . FIG. PF 14•111./.1% Q TOT. PE ii Q LGTH. PT S: ' /.. FIG. PF Q TOT. _ PE Q LGTH. PT FIG. Pr Q TOT. PE PT i HYDRAULIC DESIGN INFORMATION SHEET - NAME tAESTSmme C ,Sf/At9►I 'ha elect DATE 4/241/3 . LOCATION floc StA) - Pr'4ffrt s27 r/on,me BUILDING SCiEAIC61(,/B2&iey A m/r/D/J SYSTEM NO. CONTRACTOR W V4TT/ FIRE PieDTEerio,J CONTRACT NO. p CALCULATED BY /3• PE4,QCC/N DRAWING NO. FP-13 CONSTRUCTION: pp COMBUSTIBLENON-COMBUSTIBLE CEILING HEIGHT FT. OCCUPANCY Z/41.17" PFl Z4D '7 ol2D. AZ. GP. l /AI Sc,EiveE AooMS CR NFPA 13: LT. HAZ. ORD. HAZ. GP. gi 1 ❑ 2 ❑ 3 ❑ EX. HAZ. Z ❑ NFPA 231 ❑ NFPA 231C: FIGURE ; CURVE O ❑ OTHER (Specify) w ❑ SPECIFIC RULING MADE BY DATE 0 i AREA OF SPRINKLER OPERATION 9ZDSR.fr: S�'ZEM TYPE N DENSITY • IS ❑ WET ❑ DRY ❑ DELUGE ❑ PRE-ACTION >- AREA PER SPRINKLER IZi. SPRINKLER OR NOZZLE co HOSE ALLOWANCE GPM: INSIDE MAKE MODEL • HOSE ALLOWANCE GPM: OUTSIDE SIZE_ _ K-FACTOR RACK SPRINKLER ALLOWANCE TEMPERATURE RATING CALCULATION GPM REQUIRED /4li PSI REQUIRED OM/ AT BASE OF RISER . • SUMMARY "C" FACTOR USED: OVERHEAD 12D UNDERGROUND /40 - WAJER Ft OW TFST PUMP_DAI& TANILOr3PESER\'OIR >.- DATE & TIME RATED CAPACITY CAPACITY Ja STATIC PSI AT PSI ELEVATION a RESIDUAL PSI ELEVATION D "' GPM FLOWING - WELL w ELEVATION PROOF FLOW GPM I- a LOCATION SOURCE OF INFORMATION _ COMMODITY- CLASS LOCATION W STORAGE HEIGHTAREA _— AISLE WIDTH Q STORAGE METHOD: SOLID PILED % PALLETIZED % RACK fi O ❑ SINGLE ROW ❑ CONVENTIONAL PALLET ❑ AUTOMATIC STORAGE ❑ ENCAPSULATED r ❑ DOUBLE ROW ❑ SLAVE PALLET [ SOLID SHELVING ❑ NON- I- - ❑ MULTIPLE ROW [] OPEN ENCAPSULATED oY - — -- -- - - - --- -- — O z Q FLUE SPACING IN INCHES CLEARANCE FROM 10P OF STORAGE TO CEILING O LONGITUDINAL TRANSVERSE FT. IN. U HORIZONTAL BARRIERS PROVIDED _- 1 c.p PROFFS e.co ISO Form SPRS-9 4 / fi / f% EXPIRES,' -(� HYDRAULIC CALCULATIONS ,JOB NO. DRAWING NO. FP-3 SHEET NO. i OF 3 NAME 1415515 l bE CikiSi /I/414 ''eiIco L BY 5 PE.l CO9 LOCATION CI FJJC't /1i&e/Y 4A4/r/D/1/ s/ 1F . DATE of a 970 St if. oED. /in GP, I g.-,S;t NOZZLE FLOW FITTING FRICTION HYD. TYPE & IN PIPE i PIPE EQUIV. LOSS REQUIRED REF. PT. ELEV. NOTES LOCATION G.P.M. SIZE DEVICES LENGTH P.S.I./FT. P.S.I. n Q LGTH. 304 'PT el,p0 J FTG. `oelf 4t I Q 16,8 I M SU.41, TOT. 34.6 .094 7-1P4 - _ `- Q LGTH. Srg PT ©,44 M T FTG. k rP F .a Q 1(►4 I4 TOT. 14.$ , 015 PE ` Q LGTH. /.S PT /0,13 ti T FTG. (P PF , Pi Q 16+8 14'' TOT. '.c 0075 PE .b1 S ,- /-(O Q LGTH. PT 11,61r FTG. PF 16 Q Q TOT. PE K 1 .67 Z 4.97. Q LGTH. 31.75 PT /1,`3 - g• /,c�� y Q° . $ P ,4• • N CINE 2 Q II TOTFTG. 39.15 . Ill PEF -4/1.41 4t.j9 -Z-41 Q LGTH. 1.5' PT 14,8 ' Ili r FTG. if PF ,42 Q /8.9 /4 TOT. i3.5 .P31 rE Q / LGTH. 1.0 i PT (5,27 Q l8• IQ /4118T 1' TOTG. 4.P , 031 PEr ,43 114, . Q LGTH. Pr /S,°ji /$,9 7. Q TOT. PE FTG. PFkr. 115.91• 413 Q LGTH. /(0.25I PT (/.39 Z£ FTG. 4 f PF 2, -2134 /44E I ; Q S 1q I TOT. /,0,7S • iI / PE-,( 7•IP n'79,Q U.17 LGTH. /3.3 PT /2,19 Q 3LI I" OT. /3.3 , 414, PE 5-_ 3 • Q LGTH. 16> PT /$,71 FTG Q 3$•'i All I TOT. . 1."134 - /l8 PEPF 1. Q LGTH. ,5 PT "10,32 PF ,77 (23/,/ I4yQl! TOT. L . Z PE 22 is b Q LGTH. PT 11.31 a 38.1 FTG. I PF /4::.,------ t:p 44 Q TOT. PE 21,31 O' Q LOTH. 15,75 PT 11.39 . 117 twei5 Q 1$,9 I TOT. 1 H �� °775 PF T31_, • 1 - PE -."/s c 4IZ.3 Q ZD. i LGTH. /3,3 PT talc ii Q 39,o 1" OT. 13.3 ,44$ PE `= Q LGTH. 7.jo PT /E9 1 1., r FTG. L PF j,j� Q 39.b 14 5'U•llo TOT. 13,ie , 118 PE -- Q LGTH. 7.1(0 PT '2D,Sl 26 A,o Q 39.0 -2.4 ,cm. 10 TOT. 7.11,, ' 0/3 PE a K= Jzo.Sl -- g.4,1 Ci#157,3 Q 3 1. 1 LGTH. 1.5 PT 70.b3 14 2h FTG. PF ,'35 ,Q 13.1 _ 'TOT. i•S . 00 PE _ 'PT/D,qt tis i = 17.05 _ HYDRAULIC CALCULATIONS LATIONS . JOB NO. DRAWING NO. Fr-3 SHEET NO. .4 OF 3 NAME ido5rs 1bE () RISrM-J .?4iloeL BY S 4 7 SD^J 4 LOCATION / /1leg! L /eXiley A1,O/p& DATE 6/z4 //3 NOZZLE FLOW FITTING FRICTION HYD. TYPE& IN PIPE PIPE EQUIV. LOSS REQUIRED REF=PT. ELEV. NOTES LOCATI'O'NN G.P.M.1SIZE DEVICES LENGTH P.S.I./FT. P.S.I. O �•OS 121.3 I Q 1 g.I LGTH. I IFTG. PT 21.31 23 Q I n.& 2" 5c.4-.go TOT. j I ` . /Pt PE ��� • 4,736-2744 Q 'Z'L.4 LGTH. 5.7 , PT 22.43 22 A,, N FTG. � PF .g, Q 140.0, 2 SCSI•i0 TOT. 7/,") 441 PE •- 4%/241.7372+ Q 231 LGTH. CS. PT 1.324 21 FTG. P F 1.0 Q 143,1 24 SCI�I.1v TOT. $. ,110 PE , T11-20 I LGTH. i PT 24•41, 11 cil5P0211e? Q '15 St FTG. is PF 4,fa, Q14$4 Z� suibio TOT. lei r /&O PE Q LGTH. r PT 11.5S io Fro. �{ PF 9 Q J4g'7 2,, 4Ci�,40 TOT. S ./7 7 PE Q LGTH. 251' PT 30.54- 1 0.54I M T FIG. 12, Pr 3,12 Q /43./ 23 SC1�I.4D TOT. 3').1 •1254 PE Q LGTH. /01 t PT 3344, q 1 is -a T FTG. 3314/ Q /4%.7 3?. Sea 140 TOT. /3 .014 PF - Q LGTH. ct PT 35.53 $ .l SrITFTG. 4,0 PF •9Q Q /4g•' 4 `SCN_,40 TOT. lit •DDD PE - Q p LGTH. 204 PT 34.47 7 Q /4$.7 5" TOT. z0.2 ., i20 V PE _l0 Q 4 LGTH. ' PT 36,457 (r FTG. Pr Q TOT. PE . Q LOTH. 634 PT 24.9) ,/�/� / w T FTG. (o PF 1.3$ rLi$Qd4y Q 15,0 /4 Scoot° TOT. (, ), • OZo PE - Q LGTH. 44P.4 PT 1&21 Iti t FTG. Pr ,4S /Jf0 Q li, TOT. 50.4 s 4707 PE ,- Q LOTH. 10 t PT 2404' s, FTG. I PF i /$ Q /5.D 3 S?N.4p TOT. qv .D'Z PE Q LOTH. 21 PT 210,i1,' _ j FTG. ( PF .0S Q (Sit) 3�. 0, — .001 PE - QLGTH. PT 24rtq"I _ 6,D C FTG. PF Q J4D•/ TOT. PE u,97 l'gei 2311'1767k) Q OS LOTH. 211 4 PT 34,4c/ 4 • I/ /��T Fro. 44 PF ,2 /� Q I43. Co 7g.1'I.9D TOT. 4.407 .003 PE Q LOTH. i Pr 36.l S Q I6(r�2 A4 4a Fro. PF •/0 cep ,10 TOT. _iI ✓O(/1 PE 3.59 9' Q LGTH. l0$ PT 40•71, 4 Q 1(.L•ti en .i. �k.�A. E FTC g1 PF •Og TOT. 19 , 000 PE PE 3,4 , , g' PT 44,10 3 ___ HYDRAULIC CALCULATIONS x . . JOB NO. DRAWING NO. !" P'3 SHEET NO. 3 OF 3 NAME i)esg J)t t% tpif"iv AO S7LdL BY 31264'450d 50/V 1 LOCATION S'C/F/t) /L/iItY /, °"J DATE ( /24//3 NOZZLE FLOW FITTING 1 FRICTION HYD. TYPE i IN PIPE i PIPE EQUIV. LOSS REQUIRED REO T. ELEV. NOTES LOCATION G.p.m. SIZE DEVICES LENGTH P.S.1./FT. P.S.f. Q LGTH. PT FTG. PF Q 6,,.L maims :PE IPRIM � itc1 i c E.1411111111 .,. P F y�E� CI TOT. . ♦/ PE �' Q LGTH. PT 1 • .' ' `L ryy - FTG. PF /,p2 WM Q244.2 g TOT. PE - Q LGTH. '0 PT 5D,c1 v In iX'� ' ' PF .ii QZb4•2 B CZ TOT. ivj , oDo6 FE 1,S0 l8 Q LGTH. PT 5 .42 O FIG. P F Q _ TOT. PT Q LGTH. PT QTOT ITE -- - P .11 Q LGTH. i PT FTG. PF Q TOT. PE Q LGTH. PT FTG. PF Q TOT. PE Q LGTH. PT FTG. PF Q _ TOT. PE Q LGTH. 4 PTT FTG. PF Q TOT. RE • Q LGTH. PT FTG. P F Q _ TOT. PE Q LGTH. PT Q TOT. s PE Q LGTH. PT FIG. I PF Q TOT. PE Q LOTH. PT FTG. PF Q TOT. PE Q LOTH. PT FIG. PF Q LOT. PE Q LGTH. PT 111 Q TOT. PE Q LOTH. 'T Ell FIG. PF Q TOT. PE Q LOTH. PT 111.1 FTG. PE Q Q TOT. PT •. Bulletin 173 Rev. C Model JL112&J112-Upright co Reliable® ECLH-E ended Con go Light Ford EOOH-Extended CoverageOrrir�aryHazand rijul(r) EOOH-E�erxled Courage Ondlnary l-IaQard -( lick Response 0 Model JL112 & J112 ECLH/ECOH Upright SIN RA7326 is Corrosion Resistant with White (SIN R7326 - Link and RA7326- Bulb) Polyester Coating. • Quick Response for Light Hazard (16'x 16'(4.9m x 4.9m),18'x 18'(5.5m x 5.5m)and 20' x 20'(6.1m x 6.1m)spacing) • Quick Response for Ordinary Hazard (12'x 12'(3.7m x 3.7m)and 14'x 14'(4.3m x 4.3m) spacing) • Standard Response for Ordinary Hazard (16'x 16'(4.9m x 4.9m),18'x 18'(5.5m x 5.5m)and 20'x 20' (6.1 m x 6.1 m)spacing) Features 1. Extended Coverage Ordinary Hazard and Light Hazard protection to 400 ft2(37.2 m2)per sprinkler. 2. Nominal K= 11.2(160). Model JL112 Upright Model J112 Upright 3. Available in brass, chrome and polyester coated (R7326)- Link (RA7326)- Bulb finishes. 4. For applications as per NFPA 13. Approvals Organizations 1. Underwriters Laboratories, Inc. (UL) Design Criteria 2. Underwriters Laboratories of Canada(cULus) Reliable Model JL112 & J112 ECLH/ECOH sprinklers 3. NYC MEA 258-93-E shall only be used in systems designed and installed in UL Listing Category accordance with NFPA 13 and all other local codes and Sprinklers, Automatic and Open Extended Coverage ordinances. The following design criteria also apply: Sprinklers-Ordinary Hazard Occupancy UL Guide Num- • Minimum sprinkler spacing is 8 ft(2.44m). ber-VNIV. • Sprinklers have a minimum flow requirement for each The Reliable Model JL112 and J112 sprinkler are Ex- spacing as shown in the Flow Requirements Table on tended Coverage Sprinklers for use in Ordinary Hazard the reverse side. 1 and 2 occupancies with a coverage area of up to 400 • Sprinklers are only to be used in systems hydraulically square feet(37.2m2) per sprinkler. designed per NFPA 13. • For all light hazard applications it is a Quick Response Deflector to commodity clearance shall be a minimum sprinkler. For ordinary hazard applications, it is a Standard of 18 in (457mm). Response sprinkler when the spacing is 16' x 16' (4.9m ECOH sprinklers shall be installed in unobstructed or x 4.9m) and larger. When the spacing is 12' x 12' (3.7m obstructed constructions as defined in NFPA 13. For x 3.7m) or 14' x 14' (4.3m x 4.3m), the sprinkler is Quick open web truss construction web thickness is not to Response for ordinary hazard applications. exceed 1 inch (25.4mm). The use of ECLH/ECOH sprinklers can provide lower in- • ECOH sprinklers which are installed above the bottom stallation costs by requiring fewer sprinklers, less piping of a horizontal obstruction, shall have their deflectors and reduced labor. located as shown in the Obstruction Table on page 3. ECLH/ECOH sprinklers are to be installed according to • Sprinklers can be installed under a sloping ceiling the design criteria shown in this bulletin, NFPA 13, and all not exceeding 2 inches (50.8mm)of rise in 12 inches other local codes and ordinances. Flows and pressures (305mm). as shown on pages 2 and 3 of this bulletin, must be used • Maximum working pressure is 175 psi (12.07bar) at for the appropriate spacing and for the designated hazard the sprinkler. classifications. This ECLH/ECOH sprinkler is available in various fin- ishes, which includes a white polyester corrosion resistant finish. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Sprinkler Model Specifications Temperature Max. Maximum Maximum RatingCeiling Sprinkler Coverage THD • . Sprinkler Model Type Temp. Spacing Arae Size Approvals °F °C °F °C ft(m) ft2(m2) JL112 ECLH/ECOH-R7326 Link/Upright 165 74 100 38 20(6.1) 400(37.2) JL112 ECLH/ECOH-R7326 Link/Upright 212 100 150 66 3/4"NPT (19mm) 1,2 J112 ECLH/ECOH-RA7326 Bulb/Upright 155 68 100 38 20(6.1) 400(37.2) J112 ECLH/ECOH-RA7326 Bulb/Upright 200 93 150 66 Flow Requirements- Light Hazard-Quick Response Spacing Coverage Area Flow Pressure "K"Factor ft(m) ft2(m2) gpm(1pm) psi(bar) US Metric 16 x 16(4.9 x 4.9) 256(23.8) 30(113.6) 7.2(0.5) 18 x 18(5.5 x 5.5) 324(30.1) 33(124.9) 8.7(0.6) 11.2 160.0 20 x 20(6.1 x 6.1) 400(37.2) 40(151.4) 12.8(0.9) Flow Requirements-Ordinary Hazard-Standard Response Ordinary Hazard 1 Ordinary Hazard 2 Coverage 0.15 gpm/ft2(6.1 Vmin/m2) 0.20 gpm/ft2 (8.1 L/min/m2) "K"Factor Spacing Area Density Density • ft(m) ft2(m2) Flow Pressure Flow Pressure US Metric gpm(Lpm) psi(bar) gpm(fpm) psi(bar) - 16 x 16(4.9 x 4.9) 256(23.8) 39(147.6) 12.1 (0.8) 51 (193.0) 20.7(1.4) 18 x 18(5.5 x 5.5) 324(30.1) 49(185.5) 19.1 (1.3) 65(246.0) 33.7(2.3) 11.2 160.0 20 x 20(6.1 x 6.1) 400(37.2) 60(227.1) 28.7(2.0) 80(302.8) 51.0(3.5) Flow Requirements-Ordinary Hazard-Quick Response Ordinary Hazard 1 Ordinary Hazard 2 Coverage 0.15 gpm/ft2(6.1 L/min/m2) 0.20 gpm/ft2 (8.1 L/min/m2) "K"Factor Spacing Area Density Density ft(m) ft2(m2) Flow Pressure Flow Pressure US Metric gpm(Lpm) psi(bar) gpm(Lpm) psi(bar) 14 x 14(4.3 x 4.3) 196(18.2) 30(113.6) 7.2(0.5) 39(147.6) 12.1 (0.8) 11.2 160.0 12 x 12(3.7x3.7) 144(13.4) 2. 1 Bulletin 014 Rev.J CO RI- p Model F1 FR Series • Quick Response .l Standard Sprayxicp Model Fl FR56 Sprinkler Types Standard Upright ; Standard Pendent Conventional N" l Vertical Sidewall Horizontal Sidewall ...L...9 Model Fl FR56 Recessed Sprinkler Types :ight Standard Pendent/F1/F2/FP UprrPendent Conventional Horizontal Sidewall y , Model Fl FR56 Concealed Sprinkler Types Standard Pendent Model Fl FR42, Fl FRXLH & Fl FR28 Sprinkler , Types Vertical Sidewall Horizontal Sidewall Recessed Standard Upright Pendent/F1/F2 Standard Pendent ,.�.., Model F1 FR42 F1FRXLH & F1FR28 Recessed 1 :t Sprinkler Types `� ;# ` i+ Standard Pendent \ . f „ �L, . Model Fl FR56LL&Fl FR42LL Low Lead Sprinkler Types* Recessed Concealed Recessed - Standard Pendent Horizontal Sidewall Pendent Pendent/FP Less than 0.25% Lead Content Listing & Approvals f 1. Underwriters Laboratories Inc. and Certified for Canada(cULus). ,t t,lii, f. 2. Factory Mutual Approvals(FM) 3. Loss Prevention Council (LPCB, UK) XLH Upright XLH Pendent XLH Recessed 4. VdS Schadenverhutung GmbH Pendent F1/F2 5. *NSF Certified to NSF/ANSi Standard 61 Annex G to apply water to a fire much faster than UL Listing Category standard sprinklers of the same tem �,, "` Sprinklers,Automatic&Open(VNIV) perature rating. d, . The glass bulb consists of an accu- { . Quick Response Sprinkler rately controlled amount of special fluid Product Description hermetically sealed inside a precisely Reliable Models F1 FR56, F1FR56LL, F1 FR42, F1 FR42LL, manufactured glass capsule.This glass XLH Recessed F1FRXLH & F1FR28 Series Sprinklers are quick response bulb is specially constructed to provide Pendent FP sprinklers which combine the durability of a standard sprin- fast thermal response. kler with the attractive low profile of a decorative sprinkler. At normal temperatures, the glass bulb contains the fluid The Models Fl FR56, F1FR56LL, F1 FR42, F1 FR42LL, in both the liquid and vapor phases. The vapor phase can F1FRXLH & F1FR28 Series Recessed automatic sprinklers be seen as a small bubble. As heat is applied, the liquid utilize a 3.0 mm frangible glass bulb.These sprinklers have expands, forcing the bubble smaller and smaller as the liq- demonstrated response times in laboratory tests which are uid pressure increases. Continued heating forces the liquid five to ten times faster than standard response sprinklers. to push out against the bulb, causing the glass to shatter, This quick response enables the Model F1FR56, F1FR56LL, opening the waterway and allowing the deflector to distrib- F1 FR42, F1 FR42LL, Fl FRXLH & Fl FR28 Series sprinklers ute the discharging water. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Model F1FR56, Upright, Pendent & Conventional Sprinklers Model Fl FR42, Fl FRXLH & Fl FR28 Upright & Pendent Sprinklers Installation Wrench: Model D Sprinkler Wrench Installation Data: Nominal Thread Nominal K Factor Sprinkler Approval Sprinkler Identification Number Orifice (SIN) Size US Metric Height Organization Upright Pendent Standard-Upright(SSU)and Pendent Deflectors Marked to Indicate Position 1/2"(15mm)(i) 1/2"NPT(R1/2) 5.6 80 2.25"(57mm) 1,2,3,4 RA1425(1x2x3) RA1414(1x2x3) 7/16"(10mm) 1/2"NPT(R1/2) 4.2 60 2.25"(57mm) 1 RA1423(1) RA1413 3/8"(10mm) 1/2" NPT(R1/2) 2.8 40 2.25"(57mm) 1 RA1421(1) RA1411 Conventional-install in Upright or Pendent Position 15mm(1) 1/2" NPT(R1/2) 5.6 80 57mm 3,4 RA1475(3) (1)cULus listed corrosion resistant(Polyester coated)sprinkler. (2)Polyester coated FM approved sprinkler. (3)Polyester coated LPCB&VdS approved sprinkler RA1425,RA1414&RA1475. ' 01 0 ih b Upright Pendent Conventional Model Fl FR56LL & Fl FR42LL Pendent Sprinklers Installation Wrench: Model D Sprinkler Wrench Installation Data: Nominal Thread Nominal K Factor Sprinkler Approval Sprinkler identification Number Orifice (SIN) Size US Metric Height Organization Pendent Standard-Pendent Deflectors Marked to Indicate Position 1/2"(15mm)(I) 1/2"NPT(R1/2) 5.6 80 2.25"(57mm) 1,5 RA1414 7/16"(11mm) 1/2"NPT(R1/2) 4.2 60 2.25"(57mm) 1,5 RA1413 (1)cULus listed corrosion resistant(Polyester coated)sprinkler. { ef" hM y.. 3. 441 • Model Fl FR56, Fl FR42, Fl FRXLH & Fl FR28 Quick Response Recessed Pendent Sprinkler(') Installation Wrench: Model GFR2 Sprinkler Wrench - Installation Data: . Nominal Thread K Factor Sprinkler Sprinkler Identification Number Orifice Size US Metric Height (SIN) 1/2"(15mm) 1/2"NPT(RY2) 5.6 80 2.25"(57mm) RA1414 7/16"(10mm) 1/2"NPT(R1/2) 4.2 60 2.25"(57mm) RA1413 3/8"(10mm) 1/2"NPT(R1/2) 2.8 40 2.25"(57mm) RA1411 (1)Refer to escutcheon data table for approvals&dimensions Model Fl FR56LL & Fl FR42LL Quick Response Recessed Pendent Sprinkler(') Installation Wrench: Model GFR2 Sprinkler Wrench Installation Data: Nominal Thread K Factor Sprinkler Sprinkler Identification Number Orifice Size US Metric Height (SIN) 1/2"(15mm) 1/2"NPT(R' ) 5.6 80 2.25"(57mm) RA1414 7/16"(10mm) 1/2"NPT(R1/2) 4.2 60 2.25"(57mm) RA1413 (1)Refer to escutcheon data table for approvals&dimensions —,by:: I 1 1 1-X 1/2'REDUCER r."- 14.7-1 a 1 5/e'DM.[66.7mm] L j r r 1 , ii HOLE R CEILING ,/t•Rmcrnr MFI. 11-7---TI ' 1 5/16'DOt[56.7mm] WS MO CUP 1 9MN[ILR I FACE OF N"R.0 In..OM r /� IO FACE Of CELIAC DIMENSION L __ J 1 --' 1 AT MOM.RECESS./T.5"] CEILING ►__�� FACE OF FlCEN0 -I--W-74 1.i...,...—.1.1_, L ■■ Ar~AI RECESS..1/eTR.Smm] �►'L!_ri TO FACE OF CEILING L/A a,.n j.—=..j.7,air , Ar ESGLI/REC6S-�p'(1a"-] I AT MAx MIM/ RECESS. r-1/17remm] ANUSIlIEM1 _W1-22.,:. AI 19N.11/II RECESS-!/!79.95:-] \ Ill I III Ar MRAMUM RECESS- 1725.Amm) lilt Ar ESCUILDLOS RELES-7/e7uzmm1 T Vit', Ar M 084UM RECESS-5/16774.3mm7 •L' Ar MMNA1 RECESS 1-s/e7Al.�+'-] 1}T50.emm1 j--- Q!„!i Ar MMIMUM RECESS- )715.Amm] 0 ...._,' A AWU57127 __ r MUAw RECQS-r-1/eT1e.e...� �d'i� Ar.aNAalu RECES5-1-5/eT•r.yn-f 3 1/+•DM. . [62.6mm] Model F1FR56,F1FR56LL,F1FR42,F1FR42LL,F1FRXLH& Model F1FR56,F1FR56LL,F1FR42,F1FR42LL,F1FRXLH& F1FR28 F1 or F2 F1FR28 FP Model Fl FR56 Quick Response Vertical Sidewall Sprinkler Installation Wrench: Model D Sprinkler Wrench Installation Position: Upright or Pendent Approval Type: Light Hazard Occupancy Installation Data: Nominal K Factor Sprinkler _ Nominal Thread Size Sprinkler Approval Identification Orifice US Metric Height Organizations Numbers(SIN) 1/21"(15mm) 1/2"NPT(R1/2) 5.6 8.0 2,25"(57mm) 1,2,3,4 RA 1485(2) 15mm 1/2"NPT(R1/2) 5.6 8.0 2.25"(57mm) 40) (7)LPC Approval is for pendent position only. (2)cULus Listed corrosion resistant(Polyester coated)sprinkler. 01 Sprinkler Type Deflector to Ceiling Distance (Min.-Max.) Upright 4"(102mm)-12"(305mm) Pendent 4"(102mm)- 12"(305mm) 4- Vertical Sidewall 4. Bulletin 028 Rev. B W . Reliable p Model Fl FR56 QREC Series • Quick Response N co Extended Coverage Spray 03 A complete line of UL Listed and FM Approved quick response extended coverage sprinklers for light hazard applications. � 4 . " 6 Horizontal Sidewall Sprinklers are approved .- for installation 4"to 12"(102mm-305mm) - Model Fl FR56 QREC Sprinkler Types Pendent Extended Coverage Recessed Extended Horizontal Sidewall EC-8 Pendent Coverage Pendent F1/F2 Model Fl FR56 QREC Recessed Spdnkier Types Recessed Extended Coverage Pendent F1/F2/FP Recessed Extended coverage Horizontal Sidewall Model Fl FR56 QREC Concealed Extended Coverage Pendent Approval Organizations 1. Listed by Underwriters Laboratories, Inc. and Extended Coverage Extended Coverage Certified for Canada (cULus) Pendent Concealed Horizontal Sidewall EC-8 2. Factory Mutual Approvals (FM) UL Listing Category Sprinklers, Automatic& Open .40,* Quick Response Extended Coverage Sprinkler (VNIV) Product Description - Reliable Models F1FR56 QREC and F1FR56 QREC Re- cessed Sprinklers are quick response sprinklers which combine the durability for a standard sprinkler with the at- Recessed Extended tractive low profile of a decorative sprinkler. Coverage Horizontal The Models Fl FR56 QREC and Fl FR56 QREC Recessed Sidewall EC-8 Automatic Sprinklers utilize a 3.0mm frangible glass bulb. These sprinklers have demonstrated response times in When the ceiling temperature rises, the solder holding laboratory tests which are five times faster than standard the cover plate melts, allowing the release of this part and response sprinklers. This quick response enables these thus exposing the Model F1FR56 QREC sprinkler inside to sprinklers to apply water to a fire much faster than stan the rising ambient temperature. dard sprinklers of the same temperature rating. The Temperature rating of the sprinkler identified by the Model Fl FR56 QREC Quick Response Extended Cover- color of the glass bulb. age Concealed Sprinkler is an attractive, low profile con- The glass bulb consists of an accurately controlled cealed sprinkler assembly. This sprinkler assembly uti- amount of special fluid hermetically sealed inside a pre lizes a Model F1FR56 QREC pendent sprinkler in a Model cisely manufactured glass capsule.This glass bulb is spe- CCP cup and push-on thread-off cover plate assembly. cially constructed to provide fast thermal response. The cup is securely factory threaded on the sprinkler's in- Application let end. The assembly is shipped with a protective cap. Quick response sprinklers are used in fixed fire protection The sprinkler and cup are easily installed into the sprinkler systems: Wet, Dry, Deluge or Preaction. Care must be exer- fitting using the Model RC1 Sprinkler Wrench. The cover cised that the orifice size, temperature rating, deflector style plate assembly is attached to the sprinkler cup using a and sprinkler type are in accordance with the latest published flexible tooth threaded engagement. The cover plate is standards of the National Fire Protection Association or the ap- attached to the skirt using 135°F(57°C)ordinary tempera- proving authority having jurisdiction.Quick response sprinklers ture classification solder. are intended for installation as specified in NFPA 13. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 10 Model Fl FR56 Quick Response Extended Coverage Pendent Sprinkler Deflector: EC Installation Wrench: Model D Sprinkler Wrench ' Approval Type: Quick Response Extended Coverage- Light Hazard Occupancy ___ • Installation Data: Nominal Thread "K" Factor Sprinkler Approval Temperature SprinklerRating IdentificationIll Orifice Size Length Organizations US Metric °F C Numbers(SIN) 'h" 1/2"NPT 5.6 80 2.25" 1 135 57 RA2845 • (15mm) (R1/2) (57mm) 155 68 Table 1 Coverage Area Flow Pressure Max.Area Rate psi(bar) Width x Length gpm L/min K=5.6(80) ft.x ft. m x m 26 98.4 21.6 (1,5) 16x16 4.9x4.9 33 125.0 34.7 (2,4) 18 x 18 5.5 x 5.5 40 151.4 51.0 (3,5) 20x20 6.0x6.01 (1)135°F(57°C)only. Model Fl FR56 Recessed Quick Response Extended Coverage Pendent Sprinkler Deflector: EC Installation Wrench: Model GFR2 Sprinkler Wrench Approval Type: Quick Response Extended Coverage- Light Hazard Occupancy Installation Data: Temperature Sprinkler Nominal Thread "K" Factor Sprinkler Approval Rating Identification Orifice Size US Metric Length Organizations °F °C Numbers(SIN) 1/2" 1/2"NPT 2.25" 135 57 (15mm) (R1/2) 5.6 80 (57mm) 1 155 68 RA2845 (1)See table 1 for Coverage Area. 2 1/4"HOLE DIA. -4.--2 5/8"DIA. [66.7mm]--..- 115 7.15rrxrd ..-[57.15mm] HOLE IN CEILING 1 15/16"DIA ► 2 5/16"DIAC [58 7mm] a .t- [49.21mm] / __ �- L -___ ___- ..= _-___..e-----____m_ —1"X 1/2"REDUCER 1"Y 3/4"REDUCER -�/✓ TURN COLLAR — T — OR UNTIL TIGHT 1"X 1/2�REDUCER I AGAINST SPRINKLER I WRENCH BOSS / _—__ l I _FACE OF FITTING TO Iy P I >�—` I CEILING DIMENSION(2) L J 1 F,T CEILING s =.--.4111.11.. (2) ��,1. ua � (II(2J III.� FACE OF FITTING ADJUSTMENT �� I ')/YAI[318mm] (`� \\_ _ , 70 FACE OF C£K1NG \,' DIMENSION t rj- IIAS A -_' ADJUSTMENT IR A I 2 27/32 DIA. [72.23mm] 1 028FGOIA 028FG0N Model F1FR56 QREC F1/F2 Model F1FR56 QREC FP Fig. 1 Fig. 2 (1)When installed directly into a tee, the escutcheon adjustment will be reduced. (2)Refer to escutcheon data table for approvals and dimensions. 2.