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Home My WebLink About3261 LIONSHEAD AVE; ; FPC2020-0156; PermitPERMIT REPORT Cd_rlsbad4L-Clty of Print Date: 12/28/2020 Permit No: FPC2020-0156 Job Address: 3261 LIONSHEAD AVE. CARLSBAD, CA 92010 Status: Closed - Finaled Permit Type: FIRE-Construction Commercial Work Class: Fire Sprinklers Parcel #: 2218810600 Track #: Applied: 09/10/2020 Valuation: $408,675.00 Lot #: Issued: 10/29/2020 Occupancy Group: Project #: Finaled Close Out: 12/24/2020 #of Dwelling Units: Plan #: Bedrooms: Construction Type: Bathrooms: Orig. Plan Check #: Inspector: Plan Check #: Final Inspection: Project Title: Description: RESERS PHASE II -SPRINKLER TI (306 HEADS) Applicant: FPContractor: EPIC FIRE PROTECTION INC EPIC FIRE PROTECTION INC ADAM BOISVERT 765 TURTLE POINT WAY 765 TURTLE POINT WAY SAN MARCOS, CA 92069-8126 SAN MARCOS, CA 92069-8126 (760) 310-6122 (760) 310-6122 FEE AMOUNT FIRE Hourly Services First Hour $159.00 FIRE Hourly Services First Hour $159.00 FIRE NFPA 13 or 13R System > 100 heads $654.00 Total Fees: $972.00 Total Payments To Date: $972.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 760-602-4665 1 760-602-8561 f I www.carlsbadca.gov 93.97 psi available at Sprinkler Demand of 91.98 psi with System Flow of 1,448.9 GPM I Mar gin: +2.1%_J... 14 13 IZ 11 10 9 1) . 81 w 7' U) 61 - 51 4' 3' 21 Ii ) 0388 Dashboard Hyd,rn,ll Hydraulics Summary Sheet Project Information Calculation Date: 7/30/2020 3:02 PM RESERS PHASE II system ID drawing ref 2 OF 2 building 3261 LIONSHEAD AVE. construction CARLSBAD, CA, occupancy contract # authority Contractor Information Hydraulics Criteria EPIC FIRE PROTECTION, INC. density ESFR GPM/ft2 system type DRY PEND. design std NFPA 13 765 TURTLE POINT WAY 1 remote area 12 HEADS ft2 hazard EXTRA I SAN MARCOS, CA 92069 spr coverage 35 PSI ft2 sprs flowing 12 figure calculated by curve telephone 70-10-122 fax 760-798-0556 email EPICFIRE@COX.NET i- Sprinklers in Remote FNo. Mfgr Mod SIN# Size K 12 1 VIKING I K-17 DRY I VK504 1 1.5 116.80 Flow Test static pressure 94.50 psi residual pressure 91.80 psi quantity flowing 3,500.0 GPM date & time of flow test 7-31-17 location of flow test SITE 0250 500 750 1000 1250 1500 1750 2000 Water Flow (GPM) © Copyright 2016 Sigma Development Group, Inc. Page 1ofl7 88800- DashbmidHydraullcy Supply Analysis RESERS PHASE II (Design Layer 1) Sprinkler Flow: 1,198.9GPM Additional Flows: 250.0 GPM Hose Flow at Zero: None Total System Flow: 1 ,448.9GPM Maximum velocity in pipe 26-27 is 19.8 ft/sec Nodes Analysis Minimum Node Actual Node Elev Device KFactor Flow Pressure Discharge Notes ft GPM psi GPM 311 44.49 Sprinkler 16.80 99.40 35.01 99.40 Armover & Drop assembly for Remote Area (Design Layer 1). 310 44.49 Sprinkler 16.80 99.40 35.01 99.41 Armover & Drop assembly for Remote Area (Design Layer 1). 309 44.49 Sprinkler 16.80 99.40 35.13 99.57 Armover & Drop assembly for Remote Area (Design Layer 1). 307 44.49 Sprinkler 16.80 99.40 35.17 99.64 Armover & Drop assembly for Remote Area (Design Layer 1). 306 44.49 Sprinkler 16.80 99.40 35.18 99.64 Armover & Drop assembly for Remote Area (Design Layer 1). 305 44.49 Sprinkler 16.80 99.40 35.29 99.81 Armover & Drop assembly for Remote Area (Design Layer 1). 302 44.49 Sprinkler 16.80 99.40 35.44 100.02 Armover & Drop assembly for Remote Area (Design Layer 1). 308 44.49 Sprinkler 16.80 99.40 35.47 100.06 Armover & Drop assembly for Remote Area (Design Layer 1). 303 44.49 Sprinkler 16.80 99.40 35.48 100.08 Armover & Drop assembly for Remote Area (Design Layer 1). 301 44.49 Sprinkler 16.80 99.40 35.53 100.14 Armover & Drop assembly for Remote Area (Design Layer 1). 304 44.49 Sprinkler 16.80 99.40 35.64 100.30 Armover & Drop assembly for Remote Area (Design Layer 1). 300 44.49 Sprinkler 16.80 99.40 36.06 100.88 Armover & Drop assembly for Remote Area (Design Layer 1). 4 16.16 Hose Flow 83.09 250.0 © Copyright 2016 Sigma Development Group, Inc. Page 2 of 17 Qoo Design Layer Summary Report RESERS PHASE II Design Layer 1 12 Sprinklers 7/30/2020 3:02 PM Demand at Zero Node Demand Pressure: 91.98 psi Demand Flow: 1,448.9 GPM Available Pressure: 93.97 psi Available Flow: 3341.3 GPM Overage: 2.1% Dry SSP in Main Grid 12 Sprinklers 6/4/2020 2:29 PM Demand at Zero Node Demand Pressure: 86.01 psi Demand Flow: 1,445.7 GPM Available Pressure: 93.97 psi Available Flow: 6,446.1 GPM Overage: 8.5% 0 Copyright 2016 Sigma Development Group, Inc. Page 3 of 17 © Copyright 2016 Sigma Development Group, Inc. Page 4 of 17 08800' Pipe Information RESERS PHASE II (Design Layer 1) From Elevl Pipe ID Flows I I I Length ft I [ C Value {Total (Pt) psi I ft Added GPM Inside I Diameter Fittings I Notes I Fitting ft I I Elev (Pe) psi To Elev2 Type I I n i 'Friction Loss psi/ft I Total lTotal ft1 1Ft() psi 211 48.49 11/2" Eddy Flow 1.7280 T ,E Len 5.5 f .... 9d120 e 22232 Pt 311) 35.007 -1.733 Pf 4.988 Armover & Drop assembly for Remote Area (Design Layer 1). 311 44.49 ASSY 99.4 Total 22.4 Total Pressure at Node 211) 38.261 psi 210 48.49 1W' Eddy Flow 1.7280 T ,E Ftg 16.9 120 35 Pt 310) 35.011 Pe -1.733 Pf 4.988 Armover & Drop assembly for Remote Area (Design Layer 1). 310 44.49 ASSY 99.4 Total 22.4 Total Pressure at Node 210) 38.267 psi 209 48.49 1h/2 Eddy Flow 1.7280 T ,E J Len 5.5 I = 120 f- 0.22302 Pe -1.733 Pt 309) 35.126 Pf 5.003 Armover & Drop assembly for Remote Area (Design Layer 1). 309 44.49 ASSY 99.6 Total 22.4 Total Pressure at Node 209) 38.396 psi 208 48.49 1W' Eddy Flow 1.7280 T ,E Ftg 16.9 120 Pt 308) 35.474 Pe 1.733 Pf 5.049 Armover & Drop assembly for Remote Area (Design Layer 1). 308 44.49 ASSY 100.1 0.22507 Total 22.4 Total Pressure at Node 208) 38.790 psi 207 48.49 V/2" Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 Pt 307) 35.174 Pe -1.733 Pf 5.010 Armover & Drop assembly for Remote Area (Design Layer 1). 44.49 307 ASSY 99.6 30 2 i Total 22.4 Total Pressure at Node 207) 38.451 psi 206 48.49 1%" Eddy Flow 1.7280 T ,E Len 5.5 Ftg 16.9 Pt 306) 35.179 Pe -1.733 Pf 5.010 Armover & Drop assembly for Remote Area (Design Layer 1). 306 44.49 ASSY 99.6 33 Total 22.4 Total Pressure at Node 206) 38.456 psi 205 4.8.49 1%" Eddy Flow 1.7280 T,E Ftg 16.9 0.22401 Pt 305) 35.293 Pe 1.733 Pf 5.025 Armover & Drop assembly for Remote Area (Design Layer 1). 305 44.49 ASSY 99.8 Total 22.4 Total Pressure at Node 205) 38.585 psi 204 48.49 1%" Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 .2_i29_j Pt 304) 35.642 Pe .1.733 Pf 5.071 Armover & Drop assembly for Remote Area (Design Layer 1). 304 44.49 ASSY 100.3 5 Total 22.4 Total Pressure at Node 204) 38.980 psi 203 48.49 lW Eddy Flow 1.7280 T,E Ftg 16.9 0.22513 Pt 303) 35.484 Pe -1.733 Pf 5.051 Armover & Drop assembly for Remote Area (Design Layer 1). 303 44.49 ASSY 100.1 Total 22.4 © Copyright 2016 Sigma Development Group, Inc. Page 5 of 17 OO Dashb Pipe Information oard Hydraulics RESERS PHASE II (Design Layer 1) From Elevl Pipe ID Flows Inside Length ft I C Value TTotal (Pt) psi Fitting ft I I Elev (Pe) psi I ft Added GPM Diameter Fittings I Notes To Elev2 Type in I Friction Loss Total Total ft psi/ft 1Frict (Pq psi Total Pressure at Node 203) 38.802 psi 202 48.49 11/20 Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 ._____29__.j Pt 302) 35.442 Pe -1.733 Pf 5.045 Armover & Drop assembly for Remote Area (Design Layer 1). 302 44.49 ASSY 100.0 88 Total 22.4 Total Pressure at Node 202) 38.754 psi 201 48.49 11/2" Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 Pt 301) 35.527 Pe -1.733 Pf 5.056 Armover & Drop assembly for RemoteArea (Design Layer 1). 301 .49 ASSY 100.1 0.22538 Total 22.4 Total Pressure at Node 201) 38.851 psi 200 48.49 1%" Eddy Flow 1.7280 T,E Ftg 16.9 i29_J 50 Pt 300) 36.059 Pe -1.733 Pf 5.126 Armover & Drop assembly for Remote Area (Design Layer 1). 300 44.49 ASSY 100.9 Total 22.4 Total Pressure at Node 200) 39.452 psi 90 48.49 3" Eddy Flow 3.3340 Len 8.0 Ftg 0.0 c = 120 0.00583 Pt 211) 38.261 Pe 0.000 Pf 0.047 211 48.49 BL 78.4 Total 8.0 89 48.49 3" Eddy Flow 3.3340 T Len 10.0 Ftg 22.5 C = 120 0.00583 Pt 90) 38.308 Pe 0.000 Pf 0.190 90 48.49 CM3 78.4 Total 32.5 Total Pressure at Node 89) 38.498 psi 210 48.49 3" Eddy Flow 3.3340 Len 10.0 Ftg 0.0 c = 120 Pt 211) 38.261 Pe 0.000 Pf 0.005 211 48.49 BL 21.0 0.00051 Total 10.0 209 48.49 3" Eddy Flow 99.4 3.3340 Len 10.0 Ftg 0.0 C = 120 Pt 210) 38.267 Pe 0.000 Pf 0.129 210 48.49 BL 120.4 0.01292 Total 10.0 208 48.49 3" Eddy Flow 99.6 3.3340 Len 10.0 Ftg 0.0 C = 120 0.03938 Pt 209) 38.396 Pe 0.000 Pf 0.394 209 48.49 BL 220.0 Total 10.0 69 48.49 3' Eddy Flow 100.1 3.3340 1 Len 50.0 Ftg 22.5 C = 120 0.07880 Pt 208) 38.790 Pe 0.000 Pf 5.712 208 48.49 BL 320.1 29 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 C = 120 0.21812 Pt 69) 44.502 Pe 0.360 Pf 4.264 69 48.49 RN 320.1 Total 19.5 1 © Copyright 2016 Sigma Development Group, Inc. Page 6 of 17 Pipe Information RESERS PHASE II (Design Layer 1) From ft Pipe ID Flows I I Length ft I [ C Value [Total (Pt) psi Added GPM Inside I Diameter Fittings I Notes I Fitting ft I Elev (Pe) psi To Elev2 Type Friction Loss I Total 1Total ft [ psi/ft [Frict (Pf) psi 28 47.66 4" Eddy Flow 4.3100 0 ILen io.oj Ftg 0.0 0= 120 0.02257 Pt 29) 49,125 Pe 0.000 P1 0.226 29 47.66 CM1 320.1 Total 10.0 Total Pressure at Node 28) 49.351 psi 89 48.49 3" Eddy Flow 3.3340 Len 8.0 Ftg 0.0 c = 120 0.00588 Pt 207) 38.451 Pe 0.000 P1 0.047 207 48.49 BL 78.7 Total 8.0 88 48.49 3' Eddy Flow 78.4 3.3340 1 Len 10.0 Ftg 22.5 C = 120 Pt 89) 38.498 Pe 0.000 PI 0.686 89 48.49 CM3 157.1 0.02111 Total 32.5 Total Pressure at Node 88) 39.184 psi 206 48.49 3" Eddy Flow 3.3340 Len 10.0 Ftg 0.0 c = 120 0.00051 Pt 207) 38.451 Pe 0.000 pf 0.005 207 48.49 BL 20.9 Total 10.0 205 48.49 3" Eddy Flow 99.6 3.3340 Len 10.0 Ftg 0.0 C = 120 Pt 206) 38.456 Pe 0.000 P1 0.129 206 48.49 BL 120.6 0.01295 Total 10.0 204 48.49 3" Eddy Flow 99.8 3.3340 Len 10.0 Ftg 0.0 C = 120 0.03951 Pt 205) 38.585 Pe 0.000 P1 0.395 205 48.49 BL 220.4 Total 10.0 68 48.49 3" Eddy Flow 100.3 3.3340 T Len 50.0 Ftg 22.5 C = 120 0.07908 Pt 204) 38.980 Pe 0.000 P1 5.732 204 48.49 BL 320.7 Total 72.5 28 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 0.21889 Pt 68) 44.712 Pe 0.360 P1 4.279 68 48.49 RN 320.7 Total 19.5 27 47.66 4" Eddy Flow 320.1 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.08149 Pt 28) 49.351 Pe 0.000 P1 0.815 28 47.66 CM1 640.8 Total 10.0 Total Pressure at Node 27) 50.166 psi 203 48.49 21/2" Eddy Flow 2.7050 Len 10.0 Ftg 0.0 0=120 Pt 202) 38.754 Pe 0.000 P1 0.048 202 48.49 BL 40.7 0.00480 Total 10.0 88 48.49 2%0 Eddy Flow 100.1 2.7050 Len 8.0 Ftg 0.0 = 120 0.04771 Pt 203) 38.802 Pe 0.000 P1 0.382 203 48.49 BL 140.7 Total 8.0 1 © Copyright 2016 Sigma Development Group, Inc. Page 7 of 17 D.whbwrd Hydraulics Pipe Information 089 RESERS PHASE II (Design Layer 1) From Elevi Pipe ID Flows Length ft 1' C Value TTotal (Pt) psi ft Added GPM Inside Diameter Fittings I Notes Fitting ft I I Elev (Pe) PSI I To Elev2 Type in I Friction Loss Total Total ft psi/ft 1Ft (PO psi 87 48.49 3" Eddy Flow 157.1 3.3340 T,2E Len 122.0 Ftg 43.5 C = 120 0.06896 Pt 88) 39.184 Pe 0.000 Pf 11.412 88 48.49 BL 297.8 Total 165.5 47 47.66 21/2"Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.19090 Pt 87) 50.595 Pe 0.360 Pf 3.732 87 48.49 RN 297.8 46 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 47) 54.687 Pe 0.000 Pf 0.197 47 47.66 CM2 297.8 0.01975 Total 10.0 Total Pressure at Node 46) 54.884 psi 201 48.49 21/zo Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C = 120 0.00966 Pt 202) 38.754 Pe 0.000 Pf 0.097 202 48.49 BL 59.3 Total 10.0 200 48.49 2%" Eddy Flow 100.1 2.7050 Len 10.0 Ftg 0.0 C = 120 0.06012 Pt 201) 38.851 Pe 0.000 Pf 0.601 201 48.49 BL 159.5 67 48.49 2%" Eddy Flow 100.9 2.7050 Len 50.0 Ftg 0.0 C = 120 0.14888 Pt 200) 39.452 Pe 0.000 Pf 7.444 200 48.49 BL 260.4 Total 50.0 27 47.66 2%" Eddy Flow 2.7050 T Len 0,8 Ftg 18.7 120 0.14888 Pt 67) 46.896 Pe 0.360 Pf 2.910 67 48.49 RN 260.4 Total 19.5 26 47.66 4" Eddy Flow 640.8 4.3100 0 Len 10.0 Ftg 0.0 = 120 Pt 27) 50.166 Pe 0.000 Pf 1.531 27 47.66 CMI 901.1 0.15314 Total 10.0 66 48.49 2%" Eddy Flow -839.4 2.7050 1 Len 0.8 Ftg 18.7 C = 120 0.01038 Pt 26) 51.697 Pe -0.360 Pf 0.203 26 47.66 RN 61.7 Total 19.5 86 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.01038 Pt 66) 51.540 Pe 0.000 P1 2.781 66 48.49 BL 61.7 Total 267.8 46 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 86) 54.322 Pe 0.360 P1 0.203 86 48.49 RN 61.7 0.01038 Total 19,5 1 0 Copyright 2016 Sigma Development Group, Inc. Page 8 of 17 I88OO" DashbwrdHydraulla Pipe Information RESERS PHASE II (Design Layer 1) From Elevl Pipe ID Flows I I Length I I C Value I Total (Pt) psi ft Added GPM [ Inside Diameter Fillings I Notes I Fitting ft I I Elev (Pe) psi I To ft Elev2 Type I in IFriction Loss Total Total ft [ psi/ft [Frict (Pf) psi 45 47.66 4" Eddy Flow 297.8 4.3100 0 f Len 10.01 Pt46 C = 120 T 54.884 0.000 Pf 0.280 46 47.66 CM2 359.5 0.02798 jTotal 10.0 Total Pressure at Node 45) 55.164 psi 25 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C= 120 0.13430 Pt 26) 51.697 Pe 0.000 Pt 1.343 26 47.66 CM1 839.4 Total 10.0 65 48.49 2%" Eddy Flow -789.8 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.00692 Pt 25) 53.040 Pe -0.360 Pf 0.135 25 47.66 RN 49.6 Total 19.5 85 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00692 Pt 65) 52.816 Pe 0.000 Pt 1.853 65 48.49 BL 49.6 Total 267.8 45 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 85) 54.669 Pe 0.360 Pf 0.135 85 48.49 RN 49.6 0.00692 Total 19.5 44 47.66 4" Eddy Flow 359.5 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 45) 55.164 Pe 0.000 Pt 0.355 45 47.66 CM2 409.1 0.03553 Total 10.0 Total Pressure at Node 44) 55.519 psi 24 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.12000 Pt 25) 53.040 Pe 0.000 Pt 1.200 25 47.66 CM1 789.8 Total 10,0 64 48.49 2%" Eddy Flow -752,1 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.00417 Pt 24) 54.240 Pe -0.360 Pf 0.081 24 47.66 RN 37.7 Total 19.5 84 48.49 2h/2 Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 64) 53.962 Pe 0.000 Pt 1.116 64 48.49 BL 37.7 0.00417 Total 267.8 44 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 84) 55.078 Pe 0.360 Pt 0.081 84 48.49 RN 37.7 0.00417 Total 19.5 43 47.66 4" Eddy Flow 409.1 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.04183 Pt 44) 55.519 Pe 0.000 Pt 0.418 44 47.66 CM2 446.8 Total 10.0 Total Pressure at Node 43) 55.938 psi © Copyright 2016 Sigma Development Group, Inc. Page 9 of 17 88800' Pipe Information RESERS PHASE II (Design Layer 1) From EleVi ft Pipe ID Flows Added GPM F I Diameter I .fl I I Fittings I Inside [Length ft C Value Friction Loss psi/ft [Total (Pt) )S Notes I Fitting ft I I Elev (Pe) psi I To Elev2 Type Total 1Total ft[ [Frict(Pf) psi 23 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 120 0.10962 Pt 24) 54.240 Pe 0.000 P1 1.096 24 47.66 CMI 752.1 Total 10.0 63 48.49 2%" Eddy Flow -727.1 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00196 Pt 23) 55.336 Pe -0.360 P1 0.038 23 47.66 RN 25.1 Total 19.5 83 48.49 2'/2" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00196 Pt 63) 55.015 Pe 0.000 P1 0.525 63 48.49 BL 25.1 Total 267.8 43 47.66 21/2 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 0.00196 Pt 83) 55.540 Pe 0.360 Pf 0.038 83 48.49 RN 25.1 Total 19.5 42 47.66 4" Eddy Flow 446.8 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.04627 Pt 43) 55.938 Pe 0.000 P1 0.463 43 47.66 CM2 471.8 Total 10.0 Total Pressure at Node 42) 56.400 psi 22 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.10296 Pt 23) 55.336 Pe 0.000 P1 1.030 23 47.66 CM1 727.1 Total 10.0 62 48.49 2%" Eddy Flow -721.8 2.7050 1 Len 0.8 Ftg 18.7 = 120 0.00011 Pt 22) 56.366 Pe -0.360 P1 0.002 22 47.66 RN 5.3 Total 19.5 82 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 c = 120 0.00011 Pt 62) 56.009 Pe 0.000 P1 0.030 62 48.49 BL 5.3 Total 267.8 42 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 C = 120 0.00011 Pt 82) 56.038 Pe 0.360 P1 0.002 82 48.49 RN 5.3 Total 19.5 41 47.66 4" Eddy Flow 471.8 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.04724 Pt 42) 56.400 Pe 0.000 P1 0.472 42 47.66 CM2 477.2 Total 10.0 81 48.49 2%" Eddy Flow -454.3 2.7050 1 Len 0.8 Ftg 18.7 C = 120 Pt 41) 56.873 Pe -0.360 P1 0.032 41 47.66 RN 22.9 0.00166 Total 19-5 1 © Copyright 2016 Sigma Development Group, Inc. Page 10 of 17 Da oo Pipe Information RESERS PHASE II (Design Layer 1) From Elevi ft Pipe ID F ded J Added GPM Diameter Fittings Inside [Length ft [ C Value I [Total (Pt) psi Notes I Fitting ft I Elev (Pe) psi To Elev2 Type Friction Lossi psi/ft I Total I jTotal ft1 I Frict (M psi 61 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 c = 120 Pt 81) 56.545 Pe 0.000 Pf 0.444 81 48.49 BL 22.9 0.00166 Total 267.8 21 47.66 21/2 Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 120 0.00166 Pt 61) 56.990 Pe 0.360 P1 0.032 61 1 48.49 RN r 22.9 Total 19.5 Total Pressure at Node 21) 57.382 psi 40 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.04313 Pt 41) 56.873 Pe 0.000 P1 0.431 41 47.66 CM2 454.3 Total 10.0 80 48.49 2W Eddy Flow -418.6 2.7050 T Len 0.8 Ftg 18.7 = 120 0.00376 Pt 40) 57.304 Pe -0.360 P1 0.074 40 47.66 RN 35.6 Total 19.5 60 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 80) 57.018 Pe 0.000 Pf 1.007 80 48.49 BL 35.6 0.00376 Total 267.8 20 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00376 Pt 60) 58.025 Pe 0.360 P1 0.074 60 48.49 RN 35.6 Total 19.5 Total Pressure at Node 20) 58.458 psi 39 47.66 4" Eddy Flow 4.3100 0 Len 8.0 Ftg 0.0 = 120 0.03708 Pt 40) 57.304 Pe 0.000 P1 0.297 40 47.66 CM2 418.6 Total 8.0 79 48.49 2W' Eddy Flow -385.0 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00337 Pt 39) 57.601 Pe -0.360 P1 0.066 39 47.66 RN 33.6 59 48.49 2%" Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 0.00337 Pt 79) 57.307 Pe 0.000 Pf 0.903 79 48.49 BL 33.6 Total 267.8 19 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 59) 58.209 Pe 0.360 P1 0.066 59 48.49 RN 33.6 Total 19.5-1 0.00337 Total Pressure at Node 19) 58.635 psi 38 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 39) 57.600 Pe 0.000 Pf 0.318 39 47.66 CM2 385.0 0.03176 Total 10.0 0 Copyright 2016 Sigma Development Group, Inc. Page 11 of 17 8 Da OO Pipe Information RESERS PHASE II (Design Layer 1) From Elevi Pipe ID Flows T I Length ft I F C Value Total (Pt) psi ft Added GPM Inside Diameter Fittings I I Notes Fitting ft Elev (Pe) psi To Elev2 Type in Friction Loss I. Total Total ft L psi/ft Frict (Pf) psi 78 48.49 21/2 Eddy Flow 3537 2.7050 1 Len 0.8 Ftg 18.7 c = 120 Pt 38) 57,918 Pe -0.360 Pf 0.058 38 47.66 RN 31.3 0.00296 Total 19.5 58 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00296 Pt 78) 57.616 Pe 0.000 Pf 0.792 78 48.49 BL 31.3 Total 267.8 18 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00296 Pt 58) 58.409 Pe 0.360 Pf 0.058 58 48.49 RN 31.3 Total 19.5 1 Total Pressure at Node 18) 58.826 psi 37 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 38) 57.918 Pe 0.000 Pf 0.271 38 47.66 CM2 353.7 0.02715 Total 10.0 77 48.49 2%" Eddy Flow -323.7 2.7050 1 Len 0.8 Ftg 18.7 c = 120 Pt 37) 58.189 Pe -0.360 Pf 0.054 37 47.66 RN 30.1 0.00274 Total 19.5 57 48.49 2%" Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 Pt 77) 57.883 Pe 0.000 Pf 0.734 77 48.49 BL 30.1 0.00274 Total 267.8 17 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00274 Pt 57) 58.618 Pe 0.360 Pf 0.054 57 48.49 RN 30.1 Total 19.5 Total Pressure at Node 17) 59.031 psi 36 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.02304 Pt 37) 58.190 Pe 0.000 Pf 0.230 37 47.66 CM2 323.6 Total 10.0 76 48.49 2%" Eddy Flow -293.8 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00270 Pt 36) 58.420 Pe -0.360 Pf 0.053 36 47.66 RN 29.8 56 48.49 2h/2 Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 0.00270 Pt 76) 58.113 Pe 0.000 Pf 0.724 76 48.49 BL 29.8 Total 267.8 16 47.66 21/2" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 Pt 56) 58.837 Pe 0.360 Pf 0.053 56 48.49 RN 29.8 0.00270 Total 19.5 1 Total Pressure at Node 16) 59.250 psi 0 Copyright 2016 Sigma Development Group, Inc. Page 12 of 17 I88OO Pipe Information RESERS PHASE II (Design Layer 1) From Elevi ft Pipe ID Flows Added GPM Inside Diameter Fittings Length ft I I C Value I Friction Lossi psi/ft I Total (Pt) psi I Notes I j Frict(Pf) psi Fitting ft I I Elev (Pe) psi To EIev2 Type Total Total ftj 35 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 36) 58.420 Pe 0.000 Pt 0.193 36 47.66 CM2 293.8 0.01926 Total 10.0 75 48.49 21/2 Eddy Flow -263.2 2.7050 1 Len 0.8 Ftg 18.7 C = 120 0.00283 Pt 35) 58.612 Pe -0.360 Pf 0.055 35 47.66 RN 30.6 Total 19.5 55 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 75) 58.308 Pe 0.000 Pt 0.759 75 48.49 BL 30.6 0.00283 Total 267.8 15 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 Pt 55) 59.067 Pe 0.360 55 48.49 RN 30.6 Total 19.5 0.00283 Pt 0.055 Total Pressure at Node 15) 59.482 psi 34 47.66 4" Eddy Flow 4.3100 0 Len 8.0 Ftg 0.0 C = 120 0.01572 Pt 35) 58.612 Pe 0.000 Pt 0.126 35 47.66 CM2 263.2 Total 8.0 74 48.49 2%" Eddy Flow -230.4 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 34) 58.738 Pe -0.360 P1 0.063 34 47.66 RN 32.8 0.00323 Total 19.5 54 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 74) 58.442 Pe 0.000 Pt 0.865 74 48.49 BL 32.8 0.00323 Total 267.8 14 47.66 2%" Eddy Flow 2.7050 __ T Len 0,8 Ftg 18.7 C = 120 0.00323 Pt 54) 59.307 Pe 0.360 Pt 0.063 54 48.49 RN 32.8 _______ Total 19.5 1 Total Pressure at Node 14) 59.730 psi 33 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.01228 Pt 34) 58.738 Pe 0.000 P1 0.123 34 47.66 CM2 230.4 Total 10.0 73 48.49 2W' Eddy Flow -195.1 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.00369 Pt 33) 58.861 Pe -0.360 Pt 0.072 33 47.66 RN 353 Total 19.5 53 48.49 2%" Eddy Flow 2.7050 T,2E/T Len 211.7 Ftg 56.2 C = 120 0.00369 Pt 73) 58.573 Pe 0.000 Pt 0.988 73 48.49 BL 35.3 Total 267.8 0 Copyright 2016 Sigma Development Group, Inc. Page 13 of 17 I88OO' DashbWidHydraulics Pipe Information RESERS PHASE II (Design Layer 1) From Elevi Pipe ID Flows Length ft C Value jTotal (Pt) )Si ft Added GPM Inside Diameter Fittings I Notes Fitting ft I Elev (Pe) psi To Elev2 Type IFriction Lossi Total Total ft L psi/ft 1Ft (Pf) psi 13 47.66 21/2 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 F c = 120 1- 0.00369 Pt 53) 59.562 Pe 0.360 Pf 0.072 53 48.49 RN 35.3 Totai19.[ Total Pressure at Node 13) 59.993 psi 32 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 c = 120 0.00903 Pt 33) 58.861 Pe 0.000 Pf 0.090 33 47.66 CM2 195.1 Total 10.0 72 48.49 21/2fl Eddy Flow -156.7 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00431 Pt 32) 58.951 Pe -0.360 Pf 0.084 32 47.66 RN 38.4 Total 1 9.5 52 48.49 21/2w Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 Pt 72) 58.676 Pe 0.000 Pf 1.155 72 48.49 BL 38.4 0.00431 Total 267.8 12 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 = 120 Pt 52) 59,831 Pe 0.360 Pf 0.084 52 48.49 RN 38.4 0.00431 Total 19.5 1 Total Pressure at Node 12) 60.275 psi 31 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 32) 58.951 Pe 0.000 Pf 0.060 32 47.66 CM2 156.7 0.00602 Total 10.0 71 48.49 2%" Eddy Flow -114.7 2.7050 T Len 0.8 Ftg 18.7 = 120 0.00510 Pt 31) 59.012 Pe -0.360 Pf 0.100 31 47.66 RN 42.0 Total 19.5 51 48.49 2W' Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 0.00510 Pt 71) 58.752 Pe 0.000 Pf 1.366 71 48.49 BL 42.0 Total 267.8 11 47.66 2W' Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 120 0.00510 Pt 51) 60.118 Pe 0.360 Pf 0.100 51 48.49 RN 42.0 Total 19.5 Total Pressure at Node 11)60.577 psi 30 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 c = 120 Pt 31) 59.012 Pe 0.000 Pf 0.034 31 47.66 CM2 114.7 0.00338 Total 10.0 70 48.49 2h/2 Eddy Flow -68.6 2.7050 1 Len 0.8 Ftg 18.7 C = 120 0.00605 Pt 30) 59.045 Pe -0.360 Pf 0.118 30 47.66 RN 46.1 19.5 © Copyright 2016 Sigma Development Group, Inc. Page 14 of 17 Pipe Information 88 RESERS PHASE II (Design Layer 1) From ft Elevl Pipe ID Flows 1 I Inside 1 Length ft I I I C Value jTotal (Pt) psi I I Fitting ft I- I Elev (Pe) psi Added GPM I Diameter Fittings Notes To Elev2 Type in I,iictlofl Losrj. Total lotal ft [ psi/ft Frict (P0 psi 50 48.49 2'/2" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 c = 120 Pt 70) 58.804 Pe 0.000 Pt 1.620 70 48.49 BL 46.1 0.00605 Total 267.8 10 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 50) 60.424 Pe 0.360 Pt 0.118 50 48.49 RN 46.1 0.00605 Total 19.5 Total Pressure at Node 10) 60.902 psi 92 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 30) 59.045 Pe 0.000 Pt 0.013 30 47.66 CM2 68.6 0.00131 Total 10.0 93 48.49 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.01262 Pt 92) 59.058 Pe -0.360 Pt 0.247 92 47.66 RN 68.6 Total 19.5 91 48.49 21/2" Eddy Flow 2.7050 7E!T Len 193.0 Ftg 84.2 C = 120 0.01262 Pt 93) 58.945 Pe 0.000 Pt 3.499 93 48.49 BL 68.6 Total 277.2 9 47.66 2%" Eddy Flow 2.7050 110 Len 0.8 Ftg 18.7 = 120 0.01262 1 1 Pt 91) 62.444 Pe 0.360 Pt 0.247 91 48.49 RN 68.6 Total 19.5 Total Pressure at Node 9) 63.050 psi 21 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 22) 56.366 Pe 0.000 Pt 1.016 22 47.66 CM1 721.8 0.10158 Total 10.0 20 47.66 4" Eddy Flow 22.9 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.10762 Pt 21) 57.382 Pe 0.000 Pt 1.076 21 47.66 CM1 744.7 Total 10.0 19 47.66 6" Sch 10 35.6 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.01768 Pt 20) 58.458 Pe 0.000 Pt 0.177 20 47.66 CM1 780.3 Total 10.0 18 47.66 6" Sch 10 33.6 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.01912 Pt 19) 58.635 Pe 0.000 Pt 0.191 19 47.66 CM1 813.9 Total 10.0 17 47.66 6" Sch 10 31.3 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.02050 Pt 18) 58.826 Pe 0.000 Pt 0.205 18 47.66 CM1 845.2 Total 10-0 1 0 Copyright 2016 Sigma Development Group, Inc. Page 15 of 17 088 a' Pipe Information RESERS PHASE II (Design Layer 1) From ft Elevi Pipe ID Flows Inside Length I C Value I Total (Pt) psi I Fitting ft I I I Elev (Pe) psi Added GPM Diameter Fittings Notes To Elev2 Type in Friction Loss' ft Total Total ft psi/ft Frict (P psi 16 47.66 6" Sch 10 30.1 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.02187 Pt 17) 59.031 Pe 0.000 Pt 0.219 17 47.66 CM1 875.3 Total 10.0 15 47.66 6" Sch 10 29.8 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 16) 59.250 Pe 0.000 Pt 0.233 16 47.66 CM1 905.1 0.02327 Total 10.0 14 47.66 6" Sch 10 30.6 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 15) 59.482 Pe 0.000 Pt 0.247 15 47.66 CM1 935.7 0.02474 Total 10.0 13 47.66 6° Sch 10 32.8 6.3570 0 Len 10.0 Ftg 0.0 c = 120 Pt 14) 59.730 Pe 0.000 Pt 0.264 14 47.66 CM1 968.5 0.02637 Total 10.0 12 47.66 6° Sch 10 35.3 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 13) 59.993 Pe 0.000 Pt 0.282 13 47.66 CM1 1,003.8 0.02818 11 47.66 6" Sch 10 38.4 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.03020 Pt 12) 60.275 Pe 0.000 Pt 0.302 12 47.66 CM1 1,042.2 Total 10.0 10 47.66 6" Sch 10 42.0 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 11) 60.577 Pe 0.000 Pt 0.325 11 47.66 CM1 1,084.3 0.03249 Total 10.0 9 47.66 6" Sch 10 46.1 6.3570 2E Len 26.0 Ftg 35.2 C = 120 Pt 10) 60.902 Pe 0.000 Pt 2.148 10 47.66 CM1 1,130.3 0.03510 Total 61,2 Total Pressure at Node 9) 63.050 psi 3 0.00 10" PVC CL200 9.4200 3E, Len 1,140.0 Ftg 178.9 C = 150 Pt 4) 83.086 Pe 7.002 7 PSI LOSS FOR DCDA SHOWN AS ELEVATION 4 16.16 LU 703.8 TI4EETotal 0.00142 Pt 1.878 1,318.9 1 0.00 8" PVC CL200 Len 1 .0 C 150 Pt 3) 91.966 7.6800 0 Ftg 0.0 Pe 0.000 3 o.00 LU 703.8 0.00385 Pt 0.004 Total Pressure at Node 1) 91.970 psi 2 0.00 8" PVC cL200 7.6800 T,2E Len 350.0J C = 150 0.00428 Pt 4) 83.086 Pe 7.002 Pf 1.878 7 PSI LOSS FOR DCDA SHOWN AS ELEVATION 4 16.16 LU 745.1 Total 438.91 0 Copyright 2016 Sigma Development Group, Inc. Page 16 of 17 Pipe Information RESERS PHASE II (Design Layer 1) From ft Pipe ID Flows Added GPM I F I Inside I Diameter I Ifl Fittings I Length ft I c Value Friction Loss [ psi/ft [Total (Pt) psi Notes I I I Fitting ft I I Elev (Pe) psi I To Elev2 Type Total I I 1T0t ft I [Frict (PQ psi 1 0.00 8' PVC CL200 7.6800 0 Ftg 0.0 0.00428 Pt 2) 91.966 Pe 0.000 Pt 0.004 2 0.00 LU 745.1 Total 1.0 Total Pressure at Node 1) 91.970 psi 6 17.16 6' Sch 10 6.3570 BV,E Len 30.5 Ftg 30.2 c = 120 0.03914 Pt 9) 63.050 Pe 13.216 Pt 2.375 9 47.66 FR 1,198.9 Total 60.7 5 16.16 6" Sch 10 6.3570 2E Len 2.0 Ftg 35.2 c = 120 Pt 6) 78.641 Pe 0.433 Pt 1.456 6 17.16 MA 1,198.9 0.03914 Total 37.2 4 16.16 8" PVC CL200 7.6800 T,3E/GV CV Len 75.0 Ftg 172.8 C = 150 0.01031 i Pt 5) 80.530 Pe 0.000 Pt 2.556 5 16.16 UN 1,198.9 Total 247.8 Total Pressure at Node 4)83.086 psi 0 0.00 8" PVC CL200 7.6800 0 ILen c=i [ 0.014641Pf Pt 1) 91.970 Pe 0.000 0.015 1 0.00 UN 1,448.9 ITotal 1.0 Total Pressure at Node 0) 91.985 psi © Copyright 2016 Sigma Development Group, Inc. Page 17 of 17 I I I I !YIIS Da Hydraulics Summary Sheet shboard Hydra Project Information RESERS PHASE II system ID building 3261 LIONSHEAD AVE. construction CARLSBAD, CA, occupancy contract # authority Calculation Date: 7/30/2020 3:03 PM drawing ref 2 OF 2 t e.nr ,.4.ar Tnfar...44an EPIC FIRE PROTECTION, INC. 765 TURTLE POINT WAY SAN MARCOS, CA 92069 calculated by telephone 760-310-6122 fax 760-798-0556 email EPICFIRE@COX.NET .- Sprinklers in Remote No. Mfgr Mod SIN# Size K 12 1 VIKING K-17 DRY I VK504 1 1.5" 116.80 Hydraulics Criteria - system type DRY PEND, density ESFR GPM/ft2 design std NFPA 13 remote area 12 HEADS ft2 hazard EXTRA spr coverage 35 PSI ft2 sprs flowing 12 figure curve Flow Test static pressure 94.50 psi residual pressure 91.80 psi quantity flowing 3,500.0 GPM date & time of flow test 7-31-17 location of flow test SITE in Dry SSP in Main Grid - Sunnlv I Demand G--oh 30 0 2 00 93.97 psi available at Sprinkler Demand of 88.52 psi with System 9 GPM 10- 80 50 30— 20— 10__ 1,44 S.9GPMI N185 0250 500 750 1000 1250 1500 1750 2000 Water Flow (GPM) 0 Copyright 2016 Sigma Development Group, Inc. Page 1 of 17 IOO Da shboard Hydraulics Supply Analysis RESERS PHASE II (Dry SSP in Main Grid) 1/ Source / Static / Residual / Quantity Node /Pressure /Pressure / Flowing /Available / Pressure / Total / Total /System / Pressure / Flow / Required Zero 94.50psi 91.80psi 3,500.OGPM I 93.97psi I 1,446.9GPM 88.52ps1 prinkler Flow: 1,196.9GPM Additional Flows: 250.0 GPM ose Flow at Zero: None Total System Flow: 1,446.9GPM Maximum velocity in pipe 20-21 is 15.8 ft/sec Nodes Analysis [ Minimum Node Actual Node Elev Device KFactor Flow Pressure Discharge Notes ft GPM psi GPM 510 44.49 Sprinkler 16.80 99.40 35.01 99.40 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 509 44.49 Sprinkler 16.80 99.40 35.02 99.42 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 506 44.49 Sprinkler 16.80 99.40 35.07 99.49 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 505 44.49 Sprinkler 16.80 99.40 35.08 99.51 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 511 44.49 Sprinkler 16.80 99.40 35.15 99.60 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 507 44.49 Sprinkler 16.80 99.40 35.21 99.69 Armover & Drop assembly for Remote Area (Dry SSP in Main Gd). 502 44.49 Sprinkler 16.80 99.40 35.31 99.83 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 501 44.49 Sprinkler 16.80 99.40 35.32 99.85 Armover & Drop assembly for Remote Area (Dry SSP in Main Gd). 508 44.49 Sprinkler 16.80 99.40 35.34 99.87 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 504 44.49 Sprinkler 16.80 99.40 35.40 99.96 Armover & Drop assembly for Remote Area (Dry SSP in Main Gd). 503 44.49 Sprinkler 16.80 99.40 35.45 100.02 Armover & Drop assembly for Remote Area (Dry SSP in Main Gad). 500 44.49 Sprinkler 16.80 99.40 35.64 100.30 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 4 16.16 Hose Flow 79.62 __ _ 250.0 0 Copyright 2016 Sigma Development Group, Inc. Page 2 of 17 8OO Da0bvardH uIi Design Layer Summary Report RESERS PHASE H Design Layer 1 12 Sprinklers 7/30/2020 3:02 PM Demand at Zero Node Demand Pressure: 91.98 psi Demand Flow: 1,448.9 GPM Available Pressure: 93.97 psi Available Flow: 3,341.3 GPM Overage: 2.1% Dry SSP in Main Grid 12 Sprinklers 7/30/2020 3:03 PM Demand at Zero Node Demand Pressure: 88.52 psi Demand Flow: 1,446.9 GPM Available Pressure: 93.97 psi Available Flow: 5335.1 GPM Overage: 5.8% © Copyright 2016 Sigma Development Group, Inc. Page 3 of 17 0 Copyright 2016 Sigma Development Group, Inc. Page 4 of 17 088 a' Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From EleVi Pipe ID Flows Length ft C Value Total (Pt) psij ft Added GPM Inside Diameter Fittings Notes Fitting ft Elev (Pe) )Sj Frict (Pt) psi1 To ev2 Type in Friction Loss ft Total Total ft psi/ft j 410 48.49 1h/2 Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 120 0.22232 Pt 510) 35.007 Pe -1.733 Pt 4.988 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 510 44.49 ASSY 99.4 Total 22.41 - Total Pressure at Node 410) 38.261 psi 411 48.49 1h/2 Eddy Flow 1.7280 [ Len 5.5 t 6. 0.22315 511) 35.147 Pe -1.733 Pt 5.006 Armover&Dropassemblyfor Remote Area (Dry SSP in Main ad). Grid). 511 44.49 ASSY 99.6 Total 22.4 Total Pressure at Node 411) 38.420 psi 409 48.49 1h/2 Eddy Flow 1.7280 T,E Len Ftg 169 = 120 0.22240 Pt 509) 35.020 Pe -1.733 Pt 4.989 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 509 44.49 ASSY 99.4 Total 22.4 Total Pressure at Node 409) 38.276 psi 408 48.49 11/z Eddy Flow 1.7280 T,E Grid). 508 Len 5.5 0.22428 _jJ-_____-__-- Pt 508) 35.339 Pe 1.733 Pt 5.032 jArmover & Drop assembly for Remote Area (Dry SSP in Main 44.49 ASSY 99.9 Total 22.41 Total Pressure at Node 408) 38.638 psi 407 48.49 1W' Eddy Flow 1.7280 T,E Len 5.5T C = 120 0.22353 Pt507) 35.212 Pe -1.733 Pt 5.015 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 507 ASSY Total 22.41 Total Pressure at Node 407) 38.494 psi 406 48.49 1h/2 Eddy Flow 1.7280 T,E Len 5.51 c 120 0.22270 Pt 506) 35.072 Pe -1.733 Pt 4.996 TArmover & Drop assembly for RemoteArea (Dry SSP in Main 506 44.49 ASSY 99.5 Total 22.41 Total Pressure at Node 406) 38.335 psi 4051 48.49 1 1%' Eddy Flow 1.7280 T,E Len 5.51 C 120 0.22278 Pt 505) 35.085 Pe -1.733 Pt 4.998 Armover & Drop assembly for Remote Area (Dry SSP in Main 505144.491 ASSY 99.5 Total 22.41 Total Pressure at Node 405) 38.350 psi 404 48.49 1%" Eddy Flow 1.7280 T,E Len 5.51 Ftg 16.9 = 120 Pt 504) 35.405 Pe -1.733 Pt 5.040 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 504 44.49 ASSY 100.0 0.22466 Total 22.41 Total Pressure at Node 404) 38.712 psi 403 48.49 1%" Eddy Flow 1.7280 T,E Len 5.5 Ftg 16.9 C = 120 0.22491 Pt 503) 35.448 Pe -1.733 Pt 5.046 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 503 44.49 ASSY 100.0 Total 22.4 0 Copyright 2016 Sigma Development Group, Inc. Page 5 of 17 Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Pipe ID Flows Inside 1 Length ft I I C Value I Total (Pt) psi I Fitting ft I I Elev (Pe) psi I ft Added GPM Diameter Fittings Notes To Elev2 ft Type in Friction Loss Total Total ft psi/ft Frict (Pf) psi Total Pressure at Node 403) 38.760 psi 402 48.49 11/2 Eddy Flow 1.7280 T ,E Len 5.5 9012 0.22408 5.027 Pt 502) 35.307 Pe -1.733 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 502 44.49 ASSY 99.8 Total 22.4 Total Pressure at Node 402) 38.601 psi 401 48.49 1%" Eddy Flow 1.7280 T,E Len 5.5 Ftg i9i2oP C Pt 501) 35.321 -1.733 Pt 5.029 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 501 44.49 ASSY 99.8 0.22417 Total 22.4 Total Pressure at Node 401) 38.617 psi 400 48.49 1%" Eddy Flow 1.7280 T,E Len 5.5 _2_j Pt 500) 35.645 Pe -1.733 Pf 5.072 Armover & Drop assembly for Remote Area (Dry SSP in Main Grid). 500 44.49 ASSY 100.3 Total 22.4 Total Pressure at Node 400) 38.983 psi 411 48.49 2%" Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C = 120 Pt 410) 38.261 Pe 0.000 Pt 0.159 410 48.49 BL 77.7 0.01590 Total 10.0 86 48.49 2W Eddy Flow 99.6 2.7050 T Len 129.7 Ftg 18.7 C = 120 Pt 411) 38.420 Pe 0.000 Pt 10.854 411 48.49 BL 177.3 0.07315 Total 148.4 46 47.66 2%' Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 Pt 86) 49.275 Pe 0.360 Pt 1.430 86 48.49 RN 177.3 0.07315 Total 19-5 1 Total Pressure at Node 46) 51.064 psi 409 48.49 2%" Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C = 120 Pt 410) 38.261 Pe 0.000 Pt 0.015 410 48.49 BL 21.7 0.00150 Total 10.0 408 48.49 2W Eddy Flow 994 2.7050 Len 10.0 Ftg 0.0 C = 120 Pt 409) 38.276 Pe 0.000 Pf 0.361 _____ 409 - 48.49 BL 121.1 0.03612 Total 10.0 66 48.49 2W' Eddy Flow 99.9 2.7050 T,2E Len 52.0 Ftg 37.4 = 120 Pt 408) 38.638 Pe 0.000 PI 9.829 408 48.49 BL 221.0 0.10990 Total 89.4 26 47.66 2%" Eddy Flow 2.7050 __ T Len 0.8 Ftg 18.7 C = 120 0.10990 1 Pt 66) 48.467 Pe 0.360 Pf 2.148 1 66 48.49 RN 221.0 Total 19.5 Total Pressure at Node 26) 50.975 psi 0 Copyright 2016 Sigma Development Group, Inc. Page 6 of 17 ZZ 7-4 Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Elevi Pipe ID Flows Length ft l C Value 1 Total (Pt) psi ft Added GPM Inside Diameter Fittings I I I Notes Fitting ft I I Elev (Pe) psi To Elev2 Type in IFriction Lossl I Total Total ft] psi/ft j Frict (P0 psi 407 48.49 2W' Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C = 120 Pt 406) 38.335 Pe 0.000 Pt 0.159 406 48.49 BL 77.8 0.01592 Total 10.0 85 11 48.49 2%" Eddy Flow 997 2.7050 1 Len 129.7 Ftg 18.7 C = 120 Pt 407) 38.494 Pe 0.000 Pt 10,869 407 48.49 BL 177.4 0.07324 45 47.66 2'/2" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.07324 Pt 85) 49.362 Pe 0.360 Pt 1.432 85 48.49 RN 177.4 Total 19.5 Total Pressure at Node 45) 51.154 psi 405 48.49 2W' Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C= 120 Pt 406) 38.335 Pe 0.000 Pt 0.015 406 48.49 BL 21.7 0.00151 Total 10.0 404 48.49 2%" Eddy Flow 995 2.7050 Len 10.0 Ftg 0.0 C = 120 0.03621 Pt 405) 38.350 Pe 0.000 Pt 0.362 405 48.49 BL 121.2 Total 10.0 65 48.49 2W' Eddy Flow 100.0 ______ 2.7050 T,2E Len 52.0 Ftg 37.4 C = 120 0.11013 Pt 404) 38.712 Pe 0.000 Pt 9.849 404 11 48.49 BL 221.2 Total 89.4 1 25 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 =71 Ftg 18.7 Pe Pt 65) 48.561 0.360 Pt 2.153 65 48.49 RN 221.2 Total 19.5 Total Pressure at Node 25) 51.073 psi 403 48.49 2'/2" Eddy Flow 2.7050 Len 10.0 Ftg 0.0 C = 120 0.01588 Pt 402) 38.601 Pe 0.000 Pt 0.159 402 48.49 BL 77.7 Total 10.0 84 48.49 21/2' Eddy Flow 100.0 2.7050 1 Len 129.7 Ftg 18.7 C = 120 Pt 403) 38.760 Pe 0.000 Pt 10.896 403 48.49 BL 177.7 0.07343 Total 148.4 44 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.07343 Pt 84) 49.656 Pe 0.360 Pf 1.435 84 48.49 RN 177.7 Total 19.5 Total Pressure at Node 44) 51.451 psi 401 48.49 2%" Eddy Flow 2.7050 Len io.oT Ftg 0.0 C = 120 0.00156 Pt 402) 38.601 Pe 0.000 Pt 0.016 402 48.49 BL 22.2 Total 10.0 0 Copyright 2016 Sigma Development Group, Inc. Page 7 of 17 F88OO" Pipe Information RESERS PHASE II (Dry SSP in Main Grid) Pipe ID Flows Length C Value Total (Pt) psij From ft Added GPM Inside Diameter Fittings I I Notes I Fitting ft I I I Elev (Pe) psi I To Elev2 Type in Friction Loss I I I I Total Total ft J psi/ft j Frict (Pf) psi 400 48.49 2%" Eddy Flow 99.8 2.7050 Len 10.0 Ftg 0.0 c = 120 Pt 401) 38.617 Pe 0.000 Pf 0.366 401 48.49 BL 122.0 0.03663 Total 10.0 64 48.49 2% Eddy Flow 100.3 2.7050 T,2E Len 52.0 Ftg 374 c = 120 Pt 400) 38.983 Pe 0.000 Pf 9.940 400 48.49 BL 222.3 0.11114 Total 89.4 24 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 = 120 Pt 64) 48.923 Pe 0.360 Pf 2.173 64 48.49 RN 222.3 0.11114 Total 19.5 Total Pressure at Node 24) 51.455 psi 27 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 26) 50.975 Pe 0.000 Pf 0.001 26 47.66 CM1 16.7 0.00010 Total 10.0 28 47.66 4" Eddy Flow -5.3 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.00005 Pt 27) 50.976 Pe 0.000 Pf 0.000 27 47.66 CM1 11.4 Total 10.0 29 47.66 4" Eddy Flow -6.0 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.00001 Pt 28) 50.976 Pe 0.000 Pf 0.000 28 47.66 CM1 5.4 Total 10.0 69 48.49 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 c = 120 Pt 29) 50.977 Pe -0.360 Pf 0.002 29 47.66 RN 5.4 0.00011 Total 19.5 90 48.49 3" Eddy Flow 3.3340 T Len 88.0 Ftg 22.5 C = 120 Pt 69) 50.619 Pe 0.000 Pf 0.005 69 48.49 BL 5.4 0.00004 Total 110.5 89 48.49 3" Eddy Flow 3.3340 1 Len 10.0 Ftg 22.5 C = 120 Pt 90) 50.624 Pe 0.000 Pf 0.001 90 48.49 CM3 5.4 0.00004 Total 32.5 88 48.49 3" Eddy Flow 6.0 3.3340 T Len 10.0 Ftg 22.5 C = 120 Pt 89) 50.625 Pe 0.000 Pf 0.005 89 48.49 CM3 11.4 0.00016 Total 32.5 87 48.49 3" Eddy Flow 5.3 3.3340 T,2E Len 122.0 Ftg 43.5 C = 120 0.00033 Pt 88) 50.630 Pe 0.000 Pf 0.055 88 48.49 BL 16.7 Total 165.5 1 © Copyright 2016 Sigma Development Group, Inc. Page 8 of 17 8OO Iri Vashbwrd Hydraulics Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From ft Pipe ID Flows Added GPM Inside Diameter .n I Fittings Length ft [ C Value Friction Loss L psi/ft 1Total (Pt) psi I Notes Fitting ft I Elev (Pe) psi I To Elev2 Type Total ____________ Total ft 1F1 (Pf) psi 47 47.66 2'/z" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 120 0.00092 Pt 87) 50.686 Pe 0.360 Pt 0.018 87 48.49 RN 16.7 Total 19,5 46 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 c = 120 0.00010 Pt 47) 51.063 Pe 0.000 Pt 0.001 47 47.66 CM2 16.7 Total 10.0 45 47.66 4" Eddy Flow 177.3 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.00894 Pt 46) 51.064 Pe 0.000 Pf 0.089 46 47.66 CM2 194.0 Total 10.0 44 47.66 4" Eddy Flow 177.4 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.02972 Pt 45) 51.154 Pe 0.000 Pf 0.297 45 47.66 CM2 371.5 Total 10.0 43 47.66 4" Eddy Flow 177.7 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 44) 51.451 Pe 0.000 Pt 0.613 44 47.66 CM2 549.1 0.06126 Total 10.0 83 48.49 2%" Eddy Flow 5345 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00073 Pt 43) 52.063 Pe -0.360 Pt 0.014 43 47.66 RN 14.7 Total 19.5 63 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00073 Pt 83) 51.718 Pe 0.000 Pf 0.195 83 48.49 BL 14.7 Total 267.8 23 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 C = 120 Pt 63) 51.913 Pe 0.360 Pt 0.014 63 48.49 RN 14.7 0.00073 Total 19.5 Total Pressure at Node 23) 52.287 psi 42 47.66 4' Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.05827 Pt 43) 52.064 Pe 0.000 Pt 0.583 43 47.66 CM2 534.5 82 48.49 2%" Eddy Flow -511.6 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00165 Pt 42) 52.646 Pe -0.360 Pt 0.032 42 47.66 RN 22.9 Total 19.5 62 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C= 120 0.00165 Pt 82) 52.319 Pe 0.000 Pt 0.443 82 48.49 BL 22.9 Total 267.8 1 © Copyright 2016 Sigma Development Group, Inc. Page 9 of 17 0876 a Pipe Information Bash Won I flies RESERS PHASE II (Dry SSP in Main Grid) From EleVi Pipe ID Flows Length ft C Value I Total (Pt) psi ft Added GPM Inside Diameter Fittings I I Notes Fitting ft I Elev (Pe) psi I EIev2 Type in I Friction Loss To ft Total Total ft psi/ft Frict (Pf) psi 22 47.66 2%" Eddy Flow 2.7050 T Len 0.81 Ftg 18.7 c = 120 Pt 62) 52.762 Pe 0.360 P1 0.032 62 48.49 RN 22.9 Total 19.5 Total Pressure at Node 22) 53.154 psi 41 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C= 120 Pt 42) 52.646 Pe 0.000 Pf 0.537 42 47.66 CM2 511.6 0.05374 Total 10.0 81 48.49 2%" Eddy Flow -480.6 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00291 Pt 41) 53.184 Pe -0.360 P1 0.057 41 47.66 RN 31.0 Total 19.5 61 48.49 2W' Eddy Flow 2.7050 T,2E/T Len 211.7 Ftg 56.2 C = 120 0.00291 Pt 81) 52.881 Pe 0.000 P1 0.779 81 48.49 BL 31.0 Total 267.8 21 47.66 2W' Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 61) 53.660 Pe 0.360 P1 0.057 61 48.49 RN 31.0 0.00291 Total 19-5 1 Total Pressure at Node 21) 54.077 psi 40 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 41) 53.184 Pe 0.000 P1 0.479 41 47.66 CM2 480.6 0.04786 Total 10.0 80 48.49 2%" Eddy Flow -440.8 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00461 Pt 40) 53.662 Pe -0.360 P1 0.090 40 47.66 RN 39.8 60 48.49 2%" Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 Pt 80) 53.393 Pe 0.000 P1 1.236 80 48.49 BL 39.8 0.00461 Total 267.8 20 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 60) 54.629 Pe 0,360 P1 0.090 60 48.49 RN 39.8 0.00461 Total Pressure at Node 20) 55.079 psi 39 47.66 4" Eddy Flow 4.3100 0 Len 8.0 Ftg 0.0 C = 120 0.04079 Pt 40) 53.662 Pe 0.000 P1 0.326 40 47.66 CM2 440.8 Total 8.0 79 48.49 2%" Eddy Flow -403.4 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.00410 Pt 39) 53.988 Pe -0.360 P1 0.080 39 47.66 RN 37.3 Total 19.5 0 Copyright 2016 Sigma Development Group, Inc. Page 10 of 17 Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Pipe ID T Flows Length I C Value J Total (Pt) )S I ft Added GPM Inside Diameter Fittings Notes Fitting ft I I Elev (Pe) psi To EIev2 ' Type in IFriction Loss Total Total ft psi/ft Frict (Pf) psi 59 48.49 2%' Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 120 0.00410 Pt 79) 53.709 Pe 0.000 Pf 1.097 79 48.49 BL 37.3 Total 267.8 19 47.66 21/2" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 c = 120 Pt 59) 54.806 Pe 0.360 Pf 0.080 59 48.49 RN 37.3 0.00410 Total 19.5 Total Pressure at Node 19) 55.245 psi 38 47.66 4 Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.03463 Pt 39) 53.988 Pe 0.000 Pf 0.346 39 47.66 CM2 403.4 Total 10.0 78 48.49 2%" Eddy Flow -368.8 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00356 Pt 38) 54.335 Pe -0.360 Pf 0.070 38 47.66 RN 34.6 58 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00356 Pt 78) 54.045 Pe 0.000 Pf 0.954 78 48.49 BL 34.6 Total 267.8 18 47.66 2%" Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00356 Pt 58) 54.998 Pe 0.360 Pf 0.070 58 48.49 RN 34.6 Total 19.5 Total Pressure at Node 18) 55.428 psi 37 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.02933 Pt 38) 54.335 Pe 0.000 Pf 0.293 38 47.66 CM2 368.8 Total 10.0 77 48.49 2%" Eddy Flow -335.9 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 37) 54.628 Pe -0.360 Pf 0.064 37 47.66 RN 32.9 0.00325 Total 19.5 57 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 c = 120 0.00325 Pt 77) 54.332 Pe 0.000 Pf 0.870 77 48.49 BL 32.9 Total 267.8 17 47.66 2'/2" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 Pt 57) 55.202 Pe 0.360 Pf 0.064 57 48.49 RN 32.9 0.00325 Total 19.5 Total Pressure at Node 17) 55.625 psi 36 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 [ C = 120 Total ioo0.0246l1Pf TPt 37) 54.628 Pe 0.000 0.247 37 47.66 CM2 335.9 © Copyright 2016 Sigma Development Group, Inc. Page 11 of 17 Al oo Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Elevl ft Pipe ID Flows Added GPM 1 I Inside I Diameter I in I 1 Fittings Length ft I I C Value I IFriction Loss psi/ft Total (Pt) psi I Notes t I Fitting ft I Elev (Pe) psi To Elev2 Type Total r jTotal ft[ JFrict(Pf) psi 76 48.49 2W Eddy Flow -303.6 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00314 Pt 36) 54.875 Pe -0.360 Pf 0.061 36 47.66 RN 32.3 Total 19.5 56 48.49 2W Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 0.00314 Pt 76) 54.576 Pe 0.000 P1 0.840 76 48.49 BL 32.3 Total 267.8 16 47.66 21/2 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00314 Pt 56) 55.416 Pe 0.360 P1 0.061 56 48.49 RN 32.3 Total 19-5 1 Total Pressure at Node 16) 55.837 psi 35 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 c = 120 Pt 36) 54.875 Pe 0.000 P1 0.205 36 47.66 CM2 303.6 0.02046 Total 10.0 75 48.49 2'/" Eddy Flow -270.8 2.7050 T Len 0.8 Ftg 18.7 c = 120 0.00321 Pt 35) 55.079 Pe -0.360 P1 0.063 35 47.66 RN 32.7 Total 19.5 55 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 75) 54.782 Pe 0.000 P1 0.860 75 48.49 BL 32.7 0.00321 Total 267.8 15 47.66 2h/2 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 55) 55.642 Pe 0.360 Pf 0.063 55 48.49 RN 32.7 0.00321 Total 19.5 Total Pressure at Node 15) 56.064 psi 34 47.66 4" Eddy Flow 4.3100 0 Len 8.0 Ftg 0.0 c = 120 0.01657 Pt 35) 55.079 Pe 0.000 P1 0.133 35 47.66 CM2 270.8 Total 8.0 74 48.49 2%" Eddy Flow -236.2 2.7050 T Len 0.8 Ftg 18.7 = 120 0.00357 Pt 34) 55.212 Pe -0.360 Pf 0.070 34 47.66 RN 34.7 Total 19.5 54 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 Pt 74) 54.922 Pe 0.000 P1 0.956 74 48.49 BL 34.7 0.00357 Total 267.8 14 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 = 120 0.00357 Pt 54) 55.878 Pe 0.360 Pf 0.070 54 48.49 RN 34,7 Total 19.5 Total Pressure at Node 14) 56.307 psi © Copyright 2016 Sigma Development Group, Inc. Page 12 of 17 8OO Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Pipe ID Flows J Length C Value I Total (Pt) psi ft Added GPM Inside Diameter Fittings I Notes Fitting ft I Elev (Pe) psi I I To Elev2 Type I Friction Loss Total Total ft [ psi/ft Frict (PQ psi 33 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 Pt 34) 55.212 Pe 0.000 Pt 0.129 34 47.66 CM2 236.2 0.01286 Total 10.0 73 48.49 2h/2 Eddy Flow -199.3 2.7050 T Len 0.8 Ftg 18.7 c = 120 Pt 33) 55.340 Pe -0.360 Pt 0.078 33 47.66 RN 36.8 0.00400 Total 19.5 53 48.49 2'/2' Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 c = 120 0.00400 Pt 73) 55.059 Pe 0.000 Pf 1.070 73 48.49 BL 36.8 Total 267.8 13 47.66 2%" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 0.00400 Pt 53) 56.129 Pe 0.360 Pt 0.078 53 48.49 RN 36.8 Total Pressure at Node 13) 56.567 psi 32 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.00940 Pt 33) 55.340 Pe 0.000 Pt 0.094 33 47.66 CM2 199.3 Total 10.0 72 48.49 2%" Eddy Flow -159.6 2.7050 1 Len 0.8 Ftg 18.7 c = 120 0.00460 Pt 32) 55.434 Pe -0.360 Pt 0.090 32 47.66 RN 39.7 52 48.49 2%" Eddy Flow 2.7050 T,2E!T Len 211.7 Ftg 56.2 C = 120 Pt 72) 55.165 Pe 0.000 Pt 1.231 72 48.49 BL 39.7 0.00460 Total 267.8 12 47.66 21/2 Eddy Flow 2.7050 1 Len 0.8 Ftg 18.7 120 0.00460 Pt 52) 56.396 Pe 0.360 Pt 0.090 52 48.49 RN 39•7 Total 19.5 Total Pressure at Node 12) 56.845 psi 31 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.00623 Pt 32) 55.434 Pe 0.000 Pt 0.062 32 47.66 CM2 159.6 Total 10.0 71 48.49 2%" Eddy Flow -116.4 2.7050 1 Len 0.8 Ftg 18.7 120 Pt 31) 55.497 Pe -0.360 Pf 0.105 31 47.66 RN 43.2 0.00537 51 48.49 2%" Eddy Flow 2.7050 T,2EIT Len 211.7 Ftg 56.2 C = 120 0.00537 1 Pt 71) 55.242 Pe 0.000 Pt 1.438 71 48.49 BL 43.2 Total 267.8 © Copyright 2016 Sigma Development Group, Inc. Page 13 of 17 I88OO Das,rauIfc Pipe Information RESERS PHASE II (Dry SSP in Main Grid) Elevi Pipe ID ows Length ft C Value 1 Total (Pt) Psi From ft [Added Inside Diameter Fittings Notes Fitting ft I I Elev (Pe) psi I Elev2 fl Friction Loss Total Total ft Frict (P0 psi PM To ft psi/ft 11 47.66 2h/2 Eddy Flow 2.7050 T Len 0.81 Ftg 18,7 C = 120 0.00537 Pt 51) 56.680 Pe 0.360 Pf 0.105 51 48.49 RN 43.2 Total 19.5 Total Pressure at Node 11) 57.145 psi 30 47.66 4' Eddy Flow 4.3100 0 Len 0 10. Ftg 0.0 C = 120 Pt 31) 55.497 Pe 0.000 Pt 0.035 31 47.66 CM2 116.4 0.00347 Total 10.0 70 48.49 2%" Eddy Flow -69.2 2.7050 T Len 8 0. Ftg 18.7 C = 120 0.00631 Pt 30) 55.531 Pe -0.360 Pt 0.123 30 47.66 RN 47.2 Total 19.5' 50 48.49 2%" Eddy Flow 2.7050 T,2E/T Len 211.7 Ftg 56.2 C = 120 Pt 70) 55.295 Pe 0.000 Pt 1.690 70 48.49 BL 47.2 0.00631 Total 267.8 10 47.66 21/20 Eddy Flow 2.7050 T JLen 0.8 Ftg 18.7 j_2 Pt 50) 56.985 Pe 0.360 Pt 0.123 50 48.49 RN 47.2 0.00631 Total 19.5 Total Pressure at Node 10) 57.468 psi 68 48.49 21/2 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 28) 50.976 Pe -0.360 Pt 0.003 28 47.66 RN 6.0 0.00014 Total 19.5 89 48.49 Eddy Flow 3.3340 1 Len 88.0 Ftg 22.5 C = 120 0.00005 Pt 68) 50.619 Pe 0.000 Pt 0.006 68 48.49 BL 6.0 Total 110.5 Total Pressure at Node 89) 50.625 psi 67 48.49 21/20 Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 27) 50.976 Pe -0.360 Pt 0.002 27 47.66 RN 5.3 0.00011 Total 19.5 88 48.49 2%' Eddy Flow 2.7050 T Len 88.0 Ftg 18.7 C= 120 0.00011 Pt 67) 50.618 Pe 0.000 Pt 0.012 67 48.49 BL 5.3 Total 106.7 Total Pressure at Node 88) 50.630 psi 92 47.66 Eddy Flow 4.3100 0 Len io.ol Ftg 0.0 C=120 Pt 30) 55.531 Pe 0.000 Pt 0.013 30 47.66 CM2 69.2 0.00133 Total 10.0 © Copyright 2016 Sigma Development Group, Inc. Page 14 of 17 Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From Elevi Pipe ID Flows Inside Length ft 1 C Value I Total (Pt) psi ft Added GPM Diameter Fittings I Notes Fitting ft I Elev (Pe) psi To Elev2 Type in I Friction Loss Total Total ft psi/ft Frict (Pf) psi 93 48.49 21/2" Eddy Flow 2.7050 T Len 0.8 Ftg 18.7 C = 120 Pt 92) 55.545 Pe -0.360 Pt 0.251 92 47.66 RN 69.2 0.01284 Total 19.5 91 48.49 2%' Eddy Flow 2.7050 7E/T Len 193.0 Ftg 84.2 C -120 0.01284 Pt 93) 55.436 Pe 0.000 Pf 3.560 93 48.49 BL 69.2 9 47.66 2%" Eddy Flow 2.7050 TIO Len 0.8 Ftg 18.7 C = 120 Pt 91) 58.996 Pe 0.360 Pt 0.251 91 48.49 RN 69.2 0.01284 Total 19.5 Total Pressure at Node 9) 59.606 psi 25 47.66 4" Eddy Flow 4.3100 0 Len 10.0 Ftg 0,0 C = 120 0.00983 Pt 26) 50.975 Pe 0.000 Pt 0.098 26 47.66 CM1 204.3 Total 10.0 24 47.66 4" Eddy Flow 221.2 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.03821 Pt 25) 51.073 Pe 0.000 Pt 0.382 25 47.66 CM1 425.5 Total 10.0 23 47.66 4" Eddy Flow 222.3 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.08316 Pt 24) 51.455 Pe 0.000 Pt 0.832 24 47.66 CM1 647.8 Total 10.0 22 47.66 4" Eddy Flow 14.7 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.08668 Pt 23) 52.287 Pe 0.000 Pf 0.867 23 47.66 CM1 662.5 Total 10.0 21 47.66 4" Eddy Flow 22.9 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.09229 Pt 22) 53.154 Pe 0.000 Pt 0.923 22 47.66 CM1 685.3 Total 10.0 20 47.66 4" Eddy Flow 31.0 4.3100 0 Len 10.0 Ftg 0.0 C = 120 0.10017 Pt 21) 54.077 Pe 0.000 Pt 1.002 21 47.66 CM1 716.4 Total 10.0 19 47.66 6" Sch 10 39.8 6.3570 0 Len 10.0 Ftg 00 C = 120 0.01668 Pt 20) 55.078 Pe 0.000 Pt 0.167 20 47.66 CM1 ____________ 756.2 Total 10.0 18 47.66 6' Sch 10 37.3 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.01824 Pt 19) 55.245 Pe 0.000 Pf 0.182 19 47.66 CM1 ___________ 793.5 Total 10.0 0 Copyright 2016 Sigma Development Group, Inc. Page 15 of 17 088 0' Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From 1 Pipe ID Flows Length ft 1 C Value [Total (Pt) psi ft Added GPM I Inside Diameter Fittings I Notes I Fitting ft I Elev (Pe) psi I To Elev2 Type in Friction Loss ____________ J Total Total ft 1 psi/ft Frict (Pf) psi 17 47.66 6" Sch 10 34.6 6.3570 0 Len 10.0 Ftg 0.0 120 0.01974 Pt 18) 55.428 Pe 0.000 Pf 0.197 18 47.66 CM1 828.1 Total 10.0 16 47.66 6" Sch 10 32.9 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.02121 Pt 17) 55.625 Pe 0.000 Pf 0.212 17 47.66 CM1 861.1 Total 10.0 15 47.66 6° Sch 10 32.3 6,3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 16) 55.837 Pe 0.000 Pt 0.227 16 47.66 CM1 893.4 0.02271 Total 10.0 14 47.66 6" Sch 10 32.7 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 15) 56.064 Pe 0.000 Pt 0.243 15 47.66 CM1 926.1 0.02427 Total 10.0 13 47.66 6" Sch 10 347 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 14) 56.307 Pe 0.000 Pt 0.260 14 47.66 CM1 960.8 0.02598 Total 10.0 12 47.66 6" Sch 10 36.8 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 13) 56.567 Fe 0.000 Pt 0.279 13 47.66 CM1 997.6 0.02785 Total 10.0 11 47.66 6" Sch 10 39.7 6.3570 0 Len 10.0 Ftg 0.0 C = 120 Pt 12) 56,845 Pe 0.000 Pt 0.299 12 47.66 CM1 1,037.3 0.02994 Total 10.0 10 47.66 6" Sch 10 43.2 6.3570 0 Len 10.0 Ftg 0.0 C = 120 0.03229 Pt 11) 57.145 Pe 0.000 Pt 0.323 11 47.66 CM1 1,080.6 Total 10.0 9 47.66 6' Sch 10 47.2 6.3570 2E Len 26.0 Ftg 35.2 C = 120 0.03494 Pt 10) 57.468 Fe 0.000 Pt 2.139 10 47.66 1 CM1 1,127.7 Total 61.2 Total Pressure at Node 9) 59.607 psi 3 0.00 10" PVC CL200 9.4200 3E, Len 1,140.0 Ftg 178.9 C = 150 Pt 79.623 Pe 7.002 7 PSI LOSS FOR DCDA SHOWN AS ELEVATION 4 16.16 LU 702.9 TI4EE 0.00142 Pt 1.873 Total 1,318.9 1 0.00 8° PVC CL200 Len 1.0 C = 150 Pt 3) 88.498 7.6800 0 Ftg 0.0 Pe 0.000 3 0.00 LU 702.9 0.00384 Pt 0.004 [Total 1.0 Total Pressure at Node 1) 88.502 psi 0 Copyright 2016 Sigma Development Group, Inc. Page 16 of 17 088 Pipe Information RESERS PHASE II (Dry SSP in Main Grid) From ft Pipe ID Flows Added GPM Inside Diameter Fittings Length ft] C Value I I 1 Total (Pt) )S I Notes I Fitting ft j I Elev (Pe) psi To Elev2 Type in Friction Loss[ Total Total ft psi/ft Frict (Pt) psi 2 0.00 8" PVC CL200 7.6800 T,2E Len 350.0 Ftg 88.9 C = 150 0.00427 Pt 4) 7 Pe 7.002 Pf 1.873 7PSILOSSFORDCDA9.623 SHOWN AS ELEVATION 4 16.16 LU 744.1 Total 438.9 1 0.00 8" PVC CL200 7.6800 0 Len 1.0 Ftg 0.0 c = 150 0.00427 Pt 2) 88.498 Pe 0.000 Pf 0.004 2 0.00 LU 744.1 Total 1.0 Total Pressure at Node 1)88.502 psi 6 17.16 6' Sch 10 6.3570 BV,E Len 30.5 Ftg 30.2 c = 120 0.03902 Pt 9) 59.607 Pe 13.216 Pf 2.367 9 47.66 FR 1,196.9 Total 60.7 5 16.16 6" Sch 10 6.3570 2E Len 2.0 Ftg 35.2 c = 120 Pt 6) 75.190 Pe 0.433 Pf 1.452 6 17.16 MA 1,196.9 0.03902 4 16.16 8" PVC CL200 7.6800 __ T,3E/GV CV ______ Len 75.0 Ftg 172.8 C = 150 0.01028 Pt 5) 77.075 Pe 0.000 Pf 2.548 5 16.16 UN 1,196.9 Total 247.8 Total Pressure at Node 4) 79.623 psi 0 0.00 8" PVC CL200 7.6800 0 Len 1.01 Ftg 0.0 = 150 Total jo46l1pf Pt 1) 88.502 Pe 0.000 0.015 1 0.00 UN 1,446.9 Total Pressure at Node 0) 88.517 psi © Copyright 2016 Sigma Development Group, Inc. Page 17 of 17 r%-lA7ERlAL DATA SUBr"-IIT7AL ESERS COOLERS PHASE H CARLSBAD, CA EPIC FIRE PROTECTION, IN C. 75 TURTLE POINT WAY SAN N1ARCOS, CA 209 (760)310-6122 FAX(70)78-055 tqC00 Worldwide www.tyco-fire.com Contacts Series TYIFRB, 56 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General Description The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers described in this data sheet are quick response, standard coverage, decorative 3 mm glass bulb-type spray sprinklers designed for use in light or ordinary hazard, commercial occupan- cies such as banks, hotels, and shop- ping malls. The recessed version of the Series TY-FRB Pendent Sprinkler, where applicable, is intended for use in areas with a finished ceiling. This recessed pendent sprinkler uses one of the following: A two-piece Style 15 Recessed Escutcheon with recessed adjust- ment up to 5/8 in. (15,9 mm) from the flush pendent position. A two-piece Style 20 Recessed Escutcheon with recessed adjust- ment up to 1/2 in. (12,7 mm) from the flush pendent position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe drops to the sprinklers must be cut. Intermediate level versions of Series TY-FRB Sprinklers are described in Technical Data Sheet TFP357. Sprin- kler guards and shields are described in Technical Data Sheet TFP780. IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fall to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 NOTICE The TYCO Series TY-FRB Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authori- ties having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY313.... Upright 5.6K, 1/2 in. NPT TY323. . . .Pendent 5.6K, 1/2 in. NPT Technical Data Approvals Refer to Table A Maximum Working Pressure 175 psi (12.1 bar) 250 psi (17.2 bar)" The maximum working pressure of 250 psi (17.2 bar) only applies to the listing by Underwriters Laborato- ries, Inc. (UL). Discharge Coefficient K=5.6 GPM/psi/2 (80,6 LPM/bar½) Temperature Rating Refer to Table A Finishes Sprinkler: Refer to Table B Recessed Escutcheon: White Coated, Black Coated, Chrome Plated, or Brass Plated Physical Characteristics Frame ............................Bronze Button ......................Brass/Copper Sealing Assembly . . . Stainless Steel w/TEFLON Bulb..................... .......... Glass Compression Screw .................Bronze Deflector ..........................Bronze AUGUST 2018 Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers are intended for fire protec- tion systems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (such as, UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 15 or Style 20 Recessed Escutcheon is to be used for recessed pendent installations. TFPI72 4 4 TFPI72 Page 2 of 4 Components: * Temperature rating is ** Pipe thread connections per ISO 7-1 1 - Frame 4 - Bulb indicated on Deflector, can be provided on special request. 2 - Button 5 - Compression STYLE 15 or 20 3 - Sealing Screw ESCUTCHEON PLATE 1/2 7/16 (11,1 mm) RECESSED Assembly 6 - Deflector* DEFLECTOR* SEATING SURFACE NPT** NOMINAL MAKE-IN ESCUTCHEON 6 5 7/16" (11,1 mm) : I NOMINAL MAKE-IN I/ (50,8 mm) 2' 1-3/8' (50,8 mm) --- (34,9 mm) WF - Fl 1/2' NPT** DEFLECTOR * 2-7/8' (73,0 mm) DIA. CROSS SECTION UPRIGHT PENDENT RECESSED PENDENT FIGURE 1 SERIES TY-FRB UPRIGHT (TY313) AND PENDENT (TY323) SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT, QUICK RESPONSE Installation The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers must be installed in accor- dance with this section. General Instructions Do not install any bulb-type sprin- kler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diam- eter of the air bubble is approximately 1/16 in. (1,6 mm) for the 135°F (57°C) and 3/32 in. (2,4 mm) for the 286°F (141°C) temperature ratings. A leak-tight 1/2 in. NPT sprinkler joint should be obtained by applying a minimum to maximum torque of 7 to 14 lb-ft (9,5 to 19,0 N.m). Higher levels of torque can distort the sprinkler Inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Escutch- eon Plate by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. Upright and Pendent Sprinklers The Series TY-FRB Upright and Pendent Sprinklers must be installed in accordance with the following instructions. Step 1. Install Pendent sprinklers in the pendent position. Install upright sprin- klers in the upright position. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 2). With ref- erence to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. Torque sprinklers 7 to 14 lb-ft (9,5 to 19,0 N'm). Mounting Plate until its flange comes in contact with the ceiling. / WRENCH RECESS / (USE ONLY FIGURE 2 W-TYPE6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 3 W-TYPE 7 RECESSED SPRINKLER WRENCH 0' I. 4 54 Recessed Pendent Sprinklers The Series TY-FRB Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. After installing the Style 15 or Style 20 Mounting Plate over the sprinkler threads, and with pipe-thread sealant applied to the pipe threads, nana-llgnten the springier into the sprinkler fitting. Step B. Tighten the sprinkler into the sprinkler fitting using only the W-Type '. 7 Recessed Sprinkler Wrench (Figure :ö 3). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque sprinklers 7 to 14 lb-ft (9,5 to 19,0 N'm). Step C. After ceiling installation and finishing, slide on the Style 15 or Style 20 Closure over the Series TY-FRB Sprinkler and push the Closure over the I,1 TFPI72 Page 3 of 4 Care and Maintenance The TYCO Series TY-FRB, 5.6 K-factor, Upright (1Y313) and Pendent (TY323) Sprinklers must be maintained and ser- viced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection systems from the proper authorities and notify all personnel who may be affected by this action. Absence of the outer piece of an escutcheon, which is used to cover a clearance hole, can delay sprinkler operation in afire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprin- kler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section.) The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Series TY-FRB Upright or Pendent (specify) Sprinkler, SIN (specify), K=5.6, Quick Response, (specify) temperature rating, (specify) finish, P/N (specify, refer to Table A). Recessed Escutcheon Specify: Style 15 Recessed Escutch- eon with (specify*) finish, P/N (specify*) Specify: Style 20 Recessed Escutch- eon with (specify*) finish, P/N (specify*) * Refer to Technical Data Sheet TFP770, Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 2-7/8 DIA. (73,0 mm) - 2-1/4 DIA. FACE OF (57,2 mm) SPRINKLER FITTING 5/8 (15,9 mm) \ - ___ __ _______ FLUSH 3/8±5/16' (9,5±7,9 mm) _____ _J t/'- MOUNTING 1/8" J I SURFACE —\__(3,2 mm) CLOSURE SERIES MOUNTING 1-3/8" (34,9 mm) TYFRB PLATE 3/4" (19,1 mm) FIGURE 4 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 RECESSED ESCUTCHEON 2-7/8" DIA. (73,0 mm) FACE OF SPRINKLER _ 2-1/4" DIA. FITTING (57,2 mm) (7964) 1/2" (12,7 mm) FLUSH MOUNTING 1/8" J SURFACEI (3,2 mm) I CLOSURE SERIES MOUNTING 1-3/8" (34,9 mm) TYFRB PLATE 7/8" (22,2 mm) FIGURES SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON TFPI72 Page 4 of 4 SPRINKLER FINISH (See Note 7) K FACTOR TYPE TEMP ERATURE BULB LIQUID COLOR NATURAL BRASS I CHROME PLATED POLYESTERC 5.6 1/2 in. NPT UPRIGHT (TY313) and PENDENT (TY323) 135°F (57°C) Orange 1, 2, 3, 4, 5, 6 155°F (68°C) Red 175°F (79°C) Yellow 200°F (93°C) Green 286°F (141°C) Blue RECESSED PENDENT (TY323) Figures 4 and 5b 135°F (57°C) Orange 1, 2, 3,4 155°F (68°C) Red 175°F (79°C) Yellow 200°F (93°C) Green Notes: Listed by Underwriters Laboratories, Inc., (UL) as Quick Response Sprinklers. Listed by Underwriters Laboratories, Inc., for use in Canada (C-UL) as Quick Response Sprinklers. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers. Approved by the City of New York under MEA 354-01-E. VdS Approved (For details, contact Johnson Controls, Enschede, Netherlands, Tel, 31-53-428-4444/Fax 31-54-428-3377.) Approved by the Loss Prevention Certification Board )LPCB Ref. No. 094a/06) as Quick Response Sprinklers. Where Polyester Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion-Resistant Sprinklers. Installed with Style 15 (1/2 in. NPT) 5/8 in. Total Adjustment Recessed Escutcheon, as applicable. Installed with Style 20 (1/2 in. NPT) 1/2 in. Total Adjustment Recessed Escutcheon, as applicable. Frame and Deflector only. Listings and approvals apply to color (Special Order). TABLE A LABORATORY LISTINGS AND APPROVALS FOR 5.6 K-FACTOR SPRINKLERS P/Na77_XXX_XXXX 9 CHROME PLATED Notes: a. Eastern Hemisphere sales only TABLE B SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS PART NUMBER SELECTION SPRINKLER FINISH NATURAL BRASS PURE WHITE (RAL9010)a - POLYESTER SIGNAL WHITE (RAL9003) POLYESTER JET BLACK (RAL9005) POLYESTER TEMPERATURE RATINGS 135 135°F(57°C) 155 155-F (68-C) 175 175°F (79°C) 200 200°F (93°C) 286 286°F (141°C) SIN 370 1 5.6k UPRIGHT (1/2 (n.NPT) I TY313 371 1 5.6K PENDENT (1/2 in.NPT) I TY323 Notes: a. Use suffix "I" for ISO 7-1 connection; for example, 77-370-4-175-I I 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 e 2018 Johnson Controls. All ightoservod. All peoif,lio,,nd other infoneolion cRown wow current no 01 document reninion dote and ore subject to change without notice. Johnson /,1 NATIONAL FIRE pnonrcnloc ASSOCIATION ard NFPAO,o registered t,odemol,n of National FAG rw Protection psooclaflon; ControI TEFLON ice lste,od tr000ma,1,of Dupont FireLock® V34, K8.0 Model V3428 Quick Response Extended Coverage/Light Hazard (ECLH) Pendent and Recessed Pendent Approvals/Listings: c®us LISTED See Victauiic Publication 10.01 for more details. Product Description: These Model V34 ECLH sprinklers are designed with a K8.0 orifice size and provide added coverage at normal light hazard operating pressures. Each sprinkler is cast with a hex-shaped wrench boss to allow easy tightening from many angles, reducing assembly effort. This sprinkler is available in various temperature ratings (see chart on page 4) and finishes to meet many design requirements. Coverage Extended spray coverage is up to 400 square feet (37.2 sq. m) per NFPA 13. A-0—ta-ulicr 40.78 Technical Specifications: Models: V3428 Style: Extended Coverage! Light Hazard - Pendent, Recessed Pendent Nominal Orifice Size: 17/32714 mm K Factor: 8.0 Imp./11.5 SI.1 Nominal Thread Size: 34' NPT/20 mm BSPT Max. Working Pressure: 175 psi/1200 kPa Factory Hydrostatic Test: 100% @ 500 psi/3450 kPa Mm. Operating Pressure: 7 psi/48kPa Temperature Rating: See chart For K-Factor when pressure is measured in Bar, multiply S.I. units by 10.0. Exaggerated for clarity Job/Owner Engineer System No. Spec Section Location Paragraph Contractor Approved Submitted By Date Date victaulic.com I Sprinklers I FireLock® I V34, K8.0 I Publication 40.78 40.78 8496 Rev A Updated 01/2015 © 2015 Victauhc Company. All rights reserved. 1 ' J4ttau Iic Dimensions; 2/'/6O mm Max. NolY 6 mm 2751mm 18 m.1 1%/48 mm Typical Ceiling Tile Finished Surface I victaulic.com I Sprinklers I FireLock® I V34, K8.0 I Publication 40.78 Material Specifications: -- Accessories: Pendent Deflector: Bronze per UNS C22000 Bulb: Glass with glycerin solution Bulb Nominal Diameter: El Quick Response: 3.0 mm Load Screw: Bronze per UNS C65100 Pip Cap: Bronze per UNS C65100 Spring: Beryllium nickel Seal: Teflon tape Frame: Die cast brass 65-30 Lodgement Spring: Stainless steel per UNS S30200 Approvals/Listings: APPROVALS/LISTINGS Model V3428 V3428 Orifice Size (inches) 17/32 17/32' Orifice Size (mm) 14 14 Nominal K Factor Imperial 8 8 Nominal K Factor S.1.5 11.5 11.5 Response Quick Quick Deflector Type Pendent Recessed Pendent Approved Temperature Ratings F5/C1 46 Approved Temperature Ratings F5/C° 4 6 cuLus 135F/57°C 135°F/570C 155°F/680C 1550F/680C 175°F/79°C 175°F/79°C 200°F/93C 200°F/930C Listings and approval as of printing. Not all temperature rating combinations are Approved or Listed. Check Victaulic for specific combinations. For K-Factor when pressure is measured in Bar, multiply S.I. units by 10. 6 Light hazard Only. Installation Wrench El Open End: V34 El Recessed: V34 Sprinkler Finishes: El Plain Brass El Chrome Plated White Painted Custom Painted El VC-2503 2 Teflon is a registered trademark of Dupont Co. UL Listed and FM Approved for corrosion resistance. 11/e"/29 TYPICal Ceiling Tile 1/8735 mm Finished Surface mm FMax. Hole mm2/51mm Min. Holl 25mmJ -'Typical Ceiling Tile Wei 48 mm Finished Surface 40.78 8496 Rev A Updated 01/2015 © 2015 Victaulic Company. All rights reserved. victaulic.com 2 I -2'Ia1/ mm—.) F/x"/29mm '' Crn Typical CeilingT 1/."/t35 mm Finished Surface JtauIicr victaulic.com I Sprinklers I FireLock® I V34, K8.0 I Publication 40.78 Room Size: Sprinkler Performance Flow And Pressure (Minimum) V3428 Room Size Flow Rate End Sprinkler Pressure GPMLILPM PSI/kPa Ft. x Ft. UL UL mxm 16X16 26 10.6 4.9 X 4.9 98 73.1 18X18 33 17.0 5.5 X 5.5 125 117.2 20X20 40 25.0 6.1 X 6.1 150 172.4 Distribution Patterns: Models V3428, K8.0 ECLH Pendent and Recessed Pendent Distribution Patterns - Trajectory Fj + -f 4\- - - 4-- - - I l4l - -i---. - ..L. ••-_-_..-. .._i ..__ fH\LL?4.LH 14 1.2m 1,8m 2.4m 3Cm 3.7m 4.3m 4.9m 5.5m 26 GPM 98 LPM 33 GPM 124.9 LPM 400P 151.4 LPM 0.6m Response Miniumum Installation Spacing Feet/meters V3428 - Quick 8.0 2.4 I NOTES: Data shown is approximate and can vary due to differences in installation. These graphs illustrate approximate trajectories, floor-wetting, and wall-wetting patterns for these specific Victaulic FireLock Automatic Sprinklers. They are provided as information for guidance in avoiding obstructions to sprinklers and should not be used as minimum sprinkler spacing rules for installation. Refer to the appropriate NFPA National Fire Code or the Authority Having Jurisdiction for specific information regarding obstructions, spacing limitations and area of coverage requirements. Failure to follow these guidelines could adversely affect the performance of the sprinkler and will void all Listings, Approvals and Warranties. All patterns are symmetrical to the centerline of the waterway. 40.78 8496 Rev A Updated 01/2015 © 2015 Victaulic Company. All rights reserved. ,4tauiicr victaulic.com 3 ___________ 0' - 0 0 victaulic.com I Sprinklers I FireLock® I V34, K8.0 I Publication 40.78 Ratings: All glass bulbs are rated for temperatures from -65°F (-54°C) up to those shown in adjacent table. Sprinkler Temperature Classification Victaulic Part Identification Temperature - °FI°C Glass Bulb Color Nominal Temperature Rating Maximum Ambient Temperature Allowed Ordinary A 1 35°F/57°C 100°F/38°C Orange Ordinary C 155°F/680C 100017/380C Red Intermediate E 1750F/790C 150°F/650C Yellow Intermediate F 2000F/931C 150°F/65°C Green Available Wrenches: Open End Recessed Pendent V34 V34 Recessed Pendent - V34 WARNING Always read and understand installation, care, and maintenance instructions, supplied with each box of sprin- klers, before proceeding with installation of any sprinklers. Always wear safety glasses and foot protection. Depressurize and drain the piping system before attempting to install, remove, or adjust any Victaulic piping products. Installation rules, especially those governing obstruction, must be strictly followed. Painting, plating, or any re-coating of sprinklers (other than that supplied by Victaulic) is not allowed. Failure to follow these instructions could result in serious personal injury and/or property damage. The owner is responsible for maintaining the fire protection system and devices in proper operating condition. For minimum maintenance and inspection requirements, refer to the current National Fire Protection Association pam- phlet that describes care and maintenance of sprinkler systems. In addition, the authority having jurisdiction may have additional maintenance, testing, and inspection requirements that must be followed. If you need additional copies of this publication, or if you have any questions about the safe installation of this product, contact Victaulic World Headquarters: P.O. Box 31, Easton, Pennsylvania 18044-0031 USA, Telephone: 001-610-559-3300. Installation Note Reference should always be made to the 1-40 Victaulic FireLock Automatic Sprinklers This product shall be manufactured by Victaulic or to Victaulic specifications. All products Installation and Maintenance Sheet for thlThduct you are installing. This installation sheet to be installed in accordance with current Victaulic installation/assembly instructions. is included with each shipment of Victaulic products for complete installation and assembly Victaulic reserves the right to change product specifications, designs and standard data, and is available in PDF format on our website at victaulic.com. equipment without notice and without incurring obligations. Warranty Trademarks Refer to the Warranty section of the current Price List or contact Victaulic for details. Victaulic is a registered trademark of Victaulic Company. 40.78 8496 Rev A Updated 01/2015 © 2015 Victaulic Company. All rights reserved. \/(E____tauIiC_____ victaulic.com 4 __ ESFR Sprinkler VK504 (Grooved and Threaded) WARNING: Cancer and Reproductive Harm- wwwP65Warnings.ca.ov Refer to the Approval Chart and Design Criteria for UL and FM Listing/Approval requirements that must be followed. 4 2. LISTINGS AND APPROVALS UL Listed: Category VNWH <j3> FM Approved: Class 2008 Page 1 of iff NIKJNG*'g I B A ESFR DRY PENDENT *4 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com DESCRIPTION Viking Early Suppression Fast Response (ESFR) Dry Pendent Sprinkler VK504 is a fast response fusible element type sprinkler designed for use in storage areas subject to freezing and supplied from a wet system only, in an adjacent heated area. With a 16.8 (242 metric*) nominal K-Factor and special deflector, this sprinkler produces large, high-momentum water droplets in a hemispheric pattern below the deflector. This permits penetration of the fire plume and direct wetting of the burning fuel surface while cooling the atmosphere early in the development of a high-challenge fire. The dry ESFR sprinkler consists of a fusible element style ESFR sprinkler permanently secured to a special supply nipple. The sprinkler assembly features a sealed brass inlet that's grooved or threaded. Also included with the ESFR dry sprinkler are two insulating boot assemblies (optional) to help seal the clearance space around the dry sprinkler barrel. The dry sprinkler boot assembly is intended to slow the exchange of air between the inside and outside of the freezer (or any dry sprinkler installation) to help mitigate condensation and humidity and temperature differentials in the area around the sprinkler. Condensation can lead to ice build-up, which could inhibit sprinkler operation or cause premature operation. For the included insulating boot assemblies (optional) follow the installation instructions in this technical data page. Insulating boot assemblies (optional) shall be installed on smooth, flat, rigid, and clean surfaces. There are specific situations such as the presence of corrugated ceiling panels, or temperature and ventilation differences where alternative penetration sealing methods can be utilized. Figure 1A illustrates alternative sealing methods; however, this Figure is only intended as a guide and does not represent all possible scenarios. For additional information contact Viking Technical Services. ESFR Dry Sprinkler VK504 requires storage to be arranged single row, double row, or multiple row open rack storage (no open-top containers or solid shelves). In-rack sprinklers are not required. ESFR Dry Sprinkler VK504 shall be located in accordance with Design Criteria and the latest recognized storage installation rules of NFPA 13. Viking ESFR Dry Pendent VK504 Sprinklers provide protection of most common storage materials, open-framed rack storage arrangements of Class I, II, lii, and IV commodities, and cartoned unexpanded plastic up to 35ft. (10.7m) storage with a 40ft. (12.0m) ceiling height* with no in-rack sprinklers.* For specific application and installation requirements, reference the latest applicable FM Loss Prevention Data Sheets (including Data Sheet 2-0 and 8-9). * Refer the Approval Chart and Design Criteria for UL and FM Listing/Approval requirements that must be followed. Successfully meets new UL 1767 test standard and compliance program for ESFR sprinklers installed in rack storage with high clearances to ceiling (20 ft or greater). A WARNING ESFR Dry sprinklers can ONLY be installed in Wet systems! Not for installation in dry or preaction systems. 3. TECHNICAL DATA Specifications: Available since 2013. Tube diameter: 1-11/16" (43.86 mm) Minimum Operating Pressure: Refer to NFPA 13 or FM Loss Prevention Data Sheets 8-9. Maximum Working Pressure: 175 psi (12 bar). Factory tested hydrostatically to 500 psi (34.5 bar). Form No. F_062613 19.06.24 Rev 19.1 Replaces Form No. F_062613 Rev 18.2.P65 (Added patent numbel!) Page 2 of' ESFR DRY PENDENT 'sj 11(1 I'1Gi SPRINKLER VK504 (K1 6.8Y# The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Connections: 1-1/2" grooved (refer to Figures I and 2) or 1-1/2" NPT or BSP Threaded (refer to Figures 3 and 4) Nominal K-Factor: 16.8 U.S. (242 metric*) "Metric K-factor measurement shown is when pressure is measured in bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. Deflector Diameter: 1-3/4" (44.5 mm) Overall Length: Threaded: 18-1/2" (470 mm), 24-1/2" (622 mm), 30-1/2" (775 mm), 36-1/2" (927 mm) Grooved: 19-1/2" (495 mm), 25-1/2" (648 mm), 31-1/2" (800 mm), 37-1/2" (953 mm) Covered by one or more of the following patents: US7,766,252; US5,829,532; US6,059,044; US6,336,509; US6,502,643; US6,868,917; US9,522,292; 10,220,231 Insulating Boot Assemblies (2 ea): The boot consists of a rubber foam seal covered with a two-piece ring fastened to the ceiling- or deck with four screws. Outside Diameter: 6" (152 mm) Depth: 1" (25 mm) Material Standards: Sprinkler Frame Casting: Brass UNS-C84400 Deflector: Phosphor Bronze UNS-051000 Seat: Brass UNS-C36000 Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with PTFE Tape Spring Base: Brass UNS-C31400 or UNS-C31600 Back-Up Nut: Brass UNS-C36000 Compression Screw: Stainless Steel UNS-531603 Trigger and Support: Stainless Steel UNS-531600 Fusible Element Assembly: Beryllium Nickel, coated with polyurethane Tube: Steel Tube ASTM A-513 Orifice: Brass UNS-C36000 Inlet: Brass UNS-C84400 Support (Internal): Brass UNS-C36000 Barrel: Steel Tube ASTM A-513, Electrodeposited Epoxy Base finish Boot Assemblies: Seal: ASTM D1056 2A0/1 4015-EL EPDM-Butyl-PE Foam Rubber OR ASTM D1056 2A1 Neoprene/EPDM/SBR OR ASTM D1056 2C1 Neoprene/EPDM Over Seal Ring and Under Seal Ring: Cold Rolled Steel Finish: White Paint; #10 Screws: Stainless Steel Ordering Information: (Also refer to the current Viking price list.) Order ESFR Dry Pendent Sprinkler VK504 by first adding the appropriate suffix for the sprinkler finish, the appropriate suffix for the temperature rating. Note: Sprinkler VK504 is available in four lengths and three inlet styles, with a different base part number for each length and inlet. Finish Suffix: Brass = A Temperature Suffix (°F/°C): 165"/74" = C, 205 °F (96 °C) = E For example, sprinkler VK504 with 1-1/2" grooved connections, 37-1/2" (953 mm) overall length, Brass finish and a 165 °F/74 °C temperature rating = Part No. 19015AC (includes 2 insulating boot assemblies). Available Finishes And Temperature Ratings: Refer to Table 2. Accessories: (Also refer to the Viking website.) Sprinkler Wrenches: For Grooved Sprinklers: Use a crescent wrench applied on the grooved coupling . 'S For Threaded Sprinklers: Use a pipe wrench applied on the inlet housing Replacement Insulating Boot Assemblies: A. Part No. 22089M/W f:1I: 2: AVAILABLE SPRINKLER TEMPERATURE RATINGS AND FINISHES Sprinkler Temperature Sprinkler Nominal Maximum Ambient Classification Temperature Rating' Ceiling Temperature2 Frame Paint Color Ordinary 165 °F (74 °C) 100 °F (38 °C) None Intermediate 205 °F (96 °C) 150 °F (65 °C) White Sprinkler Finish: Brass Footnotes - The sprinkler temperature rating is stamped on the deflector. 2 Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. Form No. F_062613 19.06.24 Rev 19.1 Page 3 of 10 'J I 1(1 rrP4j ESFR DRY &'? The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com •• Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com 4. INSTALLATION A WARNING Viking sprinklers are manufactured and tested to meet rigid requirements of the approving agency. The sprinklers are designed to be installed in accordance with recognized installation standards. System design must be based on ESFR design guidelines described in the latest edition of Viking technical data, applicable FM Global Loss Prevention Data Sheets, the latest NFPA Standards, the Authorities Having Jurisdiction, and also with the provisions of governmental codes, ordinances, and standards whenever applicable. Deviation from the standards or any alteration to the sprinkleç, after it leaves the factory including, but not limited to: painting, plating, coating, or modification, may render the' sprinkler inoperative and will automatically nullify the approval and any guarantee made by The Viking Corporation. Sprinklers must be handled with care. They must be stored in a cool. dry olace in their oriainal shiDoina container Never inst sprinklers that have been dropped or damaged in any way. Such sprinklers should be destroyed immediately. NOTICE: Wet pipe. systems must be provided with adequate heat. Viking ESFR Dry Sprinklers are to be installed into the 1-1/2" grooved or 1-1/2" threaded run of malleable, ductile iron tee fittings that meet the dimensional requirements of ANSI B16.3 (Class 150), or cast iron threaded tee fittings that meet the dimensionl requirements of ANSI B 16.4 (Class 125), even at branch line ends. The VK504 can be installed into welded outlets that meet the dimensional requirements of ANSI B16.11. DO NOT install the dry sprinkler into a fitting that could interfere with thread penetration, which could damage the brass se4l. NEVER try to modify dry sprinklers. They are manufactured for specific dimensions and must NOT be modified. The sprinklers must be installed after the piping is in place to prevent mechanical damage. Before installing, be sure to have the appropriate sprinkler model and style, with the correct orifice size, temperature rating, and response characteristics. For grooved sprinklers, with the sprinkler contained in the plastic protective shield, apply a lube such as Gruvlok XtremeTM.; For threaded sprinklers, apply a small amount of pipe-joint compound or tape to the external threads of the barrel only, while taking care not to allow a build-up of compound or tape over the brass inlet and seal. For grooved sprinklers, use a crescent wrench applied to a coupling over the sprinkler inlet connection. To install threaded sprinklers, use a pipe wrench applied to the sprinkler inlet housing. With the sprinkler contained in the prcr. tective shield, install the sprinkler onto the piping, while taking care not to damage the sprinkler. DO NOT use any other type of wrench, as this could damage the unit. DO NOT use the sprinkler deflector or fusible element to start or thread the sprinkler into a fitting. Higher levels of torque may distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. D. Clean the contact surfaces of the dry sprinkler seals and the surfaces of the top of the freezer. F. Refer to Figures 1 and 3. Install the dry sprinkler boot assemblies around the dry sprinkler barrel and to the freezer until the seals rest flush upon a smooth flat surface against the freezer. F. Assemble the rings onto the seals, hold in place, and tighten the screws through the holes provided in the assemblies to secLir the insulating ring to the top of the freezer. NOTE: A #29 drill is required for a pilot hole in metallic ceilings. Form No. F_062613 19.06.24 Rev 19.1 Page 4 of ESFR DRY PENDENT A S P The Viking Co 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Approval Chart Temperature KEY ESFR Dry Pendent Sprinkler VK504 Finish Maximum 175 PSI (12 bar) WWP AiX 4— Escutcheon (if applicable) Nominal Listings and Approvals34'6 Base Part Number' K-Factor (Refer also to Design Criteria below.) SIN Connections 19-1/2" 25-1/2" 31-1/2" 37-1/2" 7US metric2 UL FM NYC (495 mm) (648 mm) (800 mm) (953 mm) ______ 19225 19229 19233 19015 VK504 1-1/2" Grooved 16.8 242 Al Al See Footnote 5, 19912 19913 19911 19905 VK504 1-1/2" Grooved' 168 242 Al Al See Footnote 5. 18-1/2" 24-1/2" 30-1/2" 36-1/2" (470 mm) (622 mm) (775 mm) (927 mm) 19226 19230 19234 19016 VK504 1-1/2" NPTThreaded 16.8 242 Al Al See Footnote 5. 19227 19231 19235 19017 VK504 1-1/2" BSP Threaded 16,8 242 Al Al -- -- — -- 19907 VK504 1-1/2" BSP Threaded7 168 242 Al Al -- Approved Temperature Rating Approved Finish A- 165°F (74 °C), 205 °F (96 °C) 1 - Brass Footnotes 1 Base part number shown. For complete part number, refer to the price list, 2 Metric K-Factor measurement shown is when pressure is measured in bar. When pressure is measured in kPa, divide the metric K-Factor shown by 10.0. This chart shows listings and approvals available at the time of printing. Other approvals may be in process. Refer to the latest standards of NFPA 13. Meets New York City requirements, effective July 1, 2008. 8 FM Approved as a quick response pendent Non-Storage sprinkler and also FM Approved as a quick response pendent Storage sprinkler. Refer to FM Design Criteria. Does not include insulating boot. DESIGN CRITERIA (Also refer to the Approval Chart above.) UL Listing Requirements: ESFR Dry Pendent Sprinkler VK504 is UL Listed as indicated in the Approval Chart for installation in accordance wit, the latest appropriate NFPA standards (including NFPA 13) for ESFR Pendent K16.8 (242) Sprinklers, for protecting cold storage of certain specifie materials with rack storage up to 35 It (10.7 m) high in buildings with 40 ft (12.2 m) high ceilings with NO in-rack sprinklers. System Type: ESFR DRY SPRINKLERS CAN ONLY BE INSTALLED IN WET SYSTEMS! Maximum Roof or Ceiling Slope: 2 in 12 (167 mm/m or 9.5 degrees). Sprinkler Position: Approved for use only in the pendent position. Align the deflector parallel with the ceiling or roof. Deflector Position: Position the deflector a maximum of 14" (356 mm) and a minimum of 6" (152 mm) below the ceiling. Clearance Opening Diameter: Refer to Figures 1-4. NOTICE: The dry sprinkler boot must seat and seal against the smooth surface of the top of the freezer in order to close the air gap. Sprinkler Fitting: Install into the 1-1/2" grooved or 1-1/2" threaded run of malleable, ductile iron tee fittings that meet the dimensional requirements of ANSI B16.3 (Class 150), or cast iron threaded tee fittings that meet the dimensional requirements of ANSI B16.4 (Class 125) only. Deflector Distance from Walls: At least 4" (102 mm) from walls, and no more than one-half the allowable distance permitted between sprinklers. Clearance from Deflector to Top of Storage: At least 36" (914 mm). Maximum Distance Between Sprinklers: The maximum area of coverage allowed per sprinkler is 100 ft2 (9.3 m2)**. For buildings over 30 It (9.1 m) high, spacing between sprinklers and/or branch lines must be from 8 to 10 ft (2.4 to 3.1 m)**. For building heights up to 30 ft (9.1 m), the spacing allowed between sprinklers and/or branch lines is 8 to 12 ft (2.4 to 3.7 m), provided the area covered per sprinkler does not exceed the maximum 100 ft2 (9.3 m2) allowed**. **Refer to the Installation Standards for permissible deviations from the maximum sprinkler spacing rules above, to eliminate obstructions created by trusses and bar joists when using ESFR sprinklers. Minimum Area of Coverage: The minimum area of coverage allowed per sprinkler is 64 ft2 (5.8 m2). IMPORTANT: Always refer to Bulletin Form No. F091699 - Care and Handling of Sprinklers. Viking ESFR Dry Pendent Sprinklers are to be installed in accordance with the latest edition of Viking technical data, the latest standards of NFPA, and any other Authorities Having Jurisdiction, and also with provisions of governmental codes, ordinances, and standards when- ever applicable. Form No. F 062613 19.06.24 Rev 19.1 NIKJNG* 0 Page 5of1 ESFR DRY PENDENT -SPRINKLER VK504 (K16.8) •r : The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com DESIGN CRITERIA - FM (Also refer to the Approval Chart.) FM Aoroval Requirements: Sprinkler VK504 is FM Approved as a quick response pendent Storage sprinkler as indicated in the FM Approval Guide. For specific application and installation requirements, reference the latest applicable FM Loss Prevention Data Sheets (including Data Sheet 2-0 and 8-9). Sprinkler VK504 is also FM Approved as a quick response pendent Non-Storage sprinkler as indicated in the FM Approval Guide. For specific application and installation requirements, reference the latest applicable FM Loss Prevention Data Sheets (including Data Sheet 2-0). FM Global Loss Prevention Data Sheets contain guidelines relating to, but not limited to: minimum water supply requirements, hydraulic design, ceiling slope and obstructions, minimum and maximum allowable spacing, and deflector distance below the ceiling. NOTICE: The FM installation guidelines may differ from NFPA criteria. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Viking ESFR Dry Pendent Sprinklers are to be installed in accordance with the latest edition of Viking technical data, the latest standards of NFPA, and any other Authorities Having Jurisdiction, and also with provisions of governmental codes, ordinances, and standards when- ever applicable. - After installation, the entire sprinkler system must be tested. The test must be conducted to comply with the Installation Standards. Make sure the sprinkler has been properly tightened. If a thread leak occurs, normally the unit must be removeq new pipe-joint compound or tape applied, and then reinstalled. This is due to the fact that when the joint seal is damaged, the sealing compound or tape is washed out of the joint. Air testing the sprinkler piping prior to testing with water may be considered in areas where leakage during testing must be prevented. Refer to the appropriate technical data and the AHJ prior to air testing the sprinkler piping. Immediately replace any damaged units, using the designated wrench only. After installation and testing and repairing of all leaks, remove the protective shields from the sprinklers by hand. Do NOT use any type of tool to remove the shield. When removing shields, use care to prevent damaging sprinkler fusible element THE SHIELDS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! ' System design must be based on ESFR design guidelines described in the latest National Fire Protection Association standards and the Authorities Having Jurisdiction. All requirements of recognized ESFR storage sprinkler system design standards app to systems utilizing Viking ESFR Dry Pendent Sprinklers. OPERATION During fire conditions, the heat-sensitive fusible element assembly disengages, releasing the internal parts to open the waterway, Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to suppress the fire. INSPECTIONS, TESTS AND MAINTENANCE The owner is responsible for maintaining the fire protection system and devices in proper operating condition. Fóh minimum maintenance and inspection requirements, refer to the NFPA standard that describes care and maintenance of sprinkler systems. In addition, the Authorities Having Jurisdiction may have additional maintenance, testing,afld. inspection requirements that must be followed. The sprinklers must be inspected on a regular basis for corrosion, mechanical damage, obstructions, paint, etc. The frequency of inspections may vary due to corrosive atmosphere, water supplies, and activity around the device. Sprinklers that have been painted or mechanically damaged must be replaced immediately. Sprinklers showing signs of corrog sion shall be tested and/or replaced immediately as required. Installation standards require sprinklers to be tested and, if net- essary, replaced after a specified term of service. For Viking ESFR Dry Pendent Sprinklers, refer to the Installation Standards, (e.g., NFPA 25) and the Authorities Having Jurisdiction for the specified period of time after which testing and/or replacement is required. Sprinklers that have operated cannot be reassembled or reused, but must be replaced. When replacing sprinklers, use only new sprinklers. The sprinkler discharge pattern is critical for proper fire protection. Therefore, nothing should be hung from, attached to, or otherwise, obstruct the discharge pattern. All obstructions must be immediately removed or, if necessary, additional sprinklers installed. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate system description and/ or valve instructions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. Form No. F_062613 19.06.24 Rev 19.1 Page 6oflO • 'sj I 1(Ittt16I J. The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com OPTIONAL ALTERNATIVE PENETRATION SEAL METHODS NOTE: Actual conditions may vary. '1 --- I - 6" Minimum exposed length at connection Fill space with one part expandable foam 8" Jacket insulation maximum above Option I deck penetration J Insulated ceiling structure -. r L Minimum earance opening 2-11116", Fill space with one part expandable foam Option 3 Option 2 Figure IA NOTICE Specific situations and conditions may exist that require alternative sealing methods. A few of these methods are shown above as Options 1-3. Additional sealing methods may also be utilized; the material(s) used must not break down, drip, over-spray, or otherwise interfere with or impede the operation of the sprinkler especially during fire conditions. Form No. F_062613 19.06.24 Rev 19.1 Page 7 of 10 ESFR DRY PENDENT N 1 1(1 NG* l.l:II[.1Iu.7M SPRINKLER The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com ft - Form No. F 062613 19.06.24 Rev 19.1 Deck Lii;:ui1t:d : LIItU _ lip Minimum clearance Protective opening sprinkler 2-11/16 shield Step 1: Install seal around Step 2: Place seal flush with barrel of dry ESFR sprinkler top of freezer and secure around barrel \Wood No pilot 1 hole required / Metal - Drill pilot hole for screws Step 3: IntaIl underseal ring Step 4: Secure insulating and overseal ring onto seal ring to top of ceiling with #10 . tapping screws Figure IB: Installation of ESFR Dry Sprinkler Boot Assemblies with Grooved ESFR Remove the system from service, drain all water, and relieve all pressure on the piping. Remove the ESFR dry sprinkler insulating boot assemblies. Using the designated wrench, remove the old sprinkler and install the new unit. Care must be taken to ensure that the replacement sprinkler is the proper model and style, with the correct orifice size, temperature rating, and response characteristics. Install new ESFR dry sprinkler boot assem- blies. Place the system back in service and secure all valves. Check the replaced sprinklers and repair all leaks. E. Sprinkler systems that have been subject to a fire must be returned to service as soon as possible. The entire system must be inspected for damage and re- paired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced. Refer to the Authorities Having Jurisdiction for minimum replacement requirements. AVAILABILITY The 'liking Model VK504 Sprinkler is available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. GUARANTEE For details of warranty, refer to Viking's current list price schedule or contact Viking directly. 1-1/2" Grooved side outlet (Coupling not shown) Apply crescent wrench over a oupling to install Page 8 of 10 44J II(JI1G® ESFR DRY PENDENT SPRINKLER VK504 (K16.8) The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-8184680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com 9-1/2" (241 mm)* for 19-1/2" OAL (Overall Length) 15-112" (394 mm)* for 25-1/2" OAL Note: Top of barrel is marked to mdi- vate orientation of sprinkler framer arms. (Not part of a requirement) Ambient Temperature of Protected Area and Exposed Minimum Barrel Length Requirements* For 19-1/2" - See Chart A For 25-1/2" - See Chart B For 31-1/2" - See Chart C For 37-1/2" - See Chart D 21-1/2" (546 mm)* for 31-1/2" OAL Insulating ceiling 27-112 (699 mm)* structure for 37-1/2" OAL 4! 4" (102 mm) Fo''FM For UL 2" (51 mm) mm. 13" (330 mm) max. ( J 6" (152 mm) mm. 14" (356 mm) max. *Face of fitting dimension based upon a 4" freez- er ceiling and 4-3/4" of thermal sensing element distance below ceiling per FM and 6" minimum deflector distance below ceiling per UL. Adjust dimension as needed according to ceiling thick- ness and deflector distance below. Figure 2: Grooved ESFR Dry Pendent Sprinkler VK504 Installed Form No. F_062613 19.06.24 Rev 19.1 *Based on 4" ceiling •t Insulating ceiling thickness structure 4" (102 mm) ± For FM 2" (51 mm) mm. For UL 13" (330 mm) max. 6" 152 mm - 14" (356 mm) max. V *The protected area refers to the area below the ceiling, the ambient temperature is the tempera- ture at the discharge end of the sprinkler. For pro-4. tected area temperatures that occur between the values listed, use the next cooler temperature. Note: Exposed minimum barrel lengths are inclu- sive up to 30 mph wind velocities Figure 3: Required Dry Pendent Sprinkler Minimum Barrel Length Based on Ambient Temperature. (Grooved ESFR Dry Pendent Sprinkler Shown) Page 9 of 10 N I KING4'&l:II[.vu.7M S ESFR DRY PRINKLER Thp Vikina (nrnnrfinn 7in N Inr1.ifri2I P2rk nri%in I1c*innc MI AQflR Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com 1-1/2" Threaded side outlet 7-1/2" (190 mm)* for 18-1/2" OAL 13-1/2" (343 mm)* for 24-1/2" OAL 19-1/2" (495 mm)* for 30-1/2" OAL Apply crescent wrench over inlet housing to install Note: Top of barrel is marked to mdi- vate orientation of sprinkler framer arms. (Not part of a requirement) Ambient Temperature of Protected Area and Exposed Minimum Barrel Length Requirements* For 18-1/2" - See Chart A For 24-1/2" - See Chart B For 30-1/2" - See Chart C For 36-1/2" - See Chart D -I 25-1/2 (648 mm)* Insulating ceiling for 36-1/2" OAL structure / 4" (102 mm) ± For FM 2" (51 mm) min. For UL 13" (330 mm) max. 6" (152 mm) mm. --!--------------- . 14" (356 mm) max. *Face of fitting dimension based upon a 4" freez- er ceiling and 4-3/4" of thermal sensing element sidtance below ceiling per FM and 6" minimum deflector distance below ceiling per UL. Adjust dimension as needed according to ceiling thick- ness and deflector distance below. *Based on 4" ceiling Insulating ceiling thickness structure C In T 4" (102 mm) 0. For FM 2" (51 mm) mm. For UL 13" (330 mm) max. 1. 3 6" 152 14" (356 mm) max. V *The protected area refers to the area below the ceiling, the ambient temperature is the tempera- ture at the discharge end of the sprinkler. For pro- tected area temperatures that occur between the values listed, use the next cooler temperature. S. Note: Exposed minimum barrel lengths are inclu- sive up to 30 mph wind evelocities Figure 4: Threaded ESFR Dry Pendent Sprinkler VK504 Installed Figure 5: Required Dry Pendent Sprinkler Minimum Barrel Length Based on Ambient Temperature (Threaded ESFR Dry Pendent Sprinkler Shown) Form No. F_062613 19.06.24 Rev 19.1 a S.4. I Page 10 of 10 ESFR DRY PENDENT 'J SPRINKLER VK504K16.8). The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Chart A - 18-1/2" ESFR Threaded Dry Pendent and 19-1/2" ESFR Grooved Dry Pendent Ambient Temperature of the Protected Area* at the Discharge End of the Sprinkler Exposed Barrel Ambient Temp. 40°F (4°C)5o°F (10°C)160°F I (16°C) Exposed Minimum Barrel Length Face of Tee to Top of Ceiling In. (mm) I In. (mm) I In. (mm) 40°F (4°C) 0 I 0 I 0 30°F(-1°C) 0 0 0 Less than 30°F (1°C) *Not Applicable Chart B - 24-1/2" ESFR Threaded Dry Pendent and 25-1/2" ESFR Grooved Dry Pendent Ambient Temperature of the Protected Area* at the Discharge End of the Sprinkler Exposed Barrel Ambient Temp. 40°F (4°C)50°F I (10°C)I60°F (16°C) I Exposed Minimum Barrel Length Face of Tee to Top of Ceiling In. (mm) I In. (mm) I In. (mm 40°F (4°C) 0 I 0 I 0 30°F (-1°C) 0 I 0 I 0 20°F (-7°C) 4(100) 0 0 Less than 20°F (-7°C) *Not Applicable 11 Chart C - 30-1/2" ESFR Threaded Dry Pendent and 31-1/2" ESFR Grooved Dry Pendent Ambient Temperature of the Protected Area* at the Discharge End of the Sprinkler Exposed Barrel Ambient Temp. 40°F (4°C)50°F I (10°C)6O°F I (16°C) Exposed Minimum Barrel Length Face of Tee to Top of Ceiling In. (mm) In. (mm) In. (mm) 40°F (4°C) 0 0 0 30-F (-1-C) 0 0 0 20°F (-7°C) 4(100) 0 0 10°F (-12°C) 8(203) 1(25.4) 0 0°F (-18°C) 12(305) 3(76) 0 Less than 0°F (-18°C) *Not Applicable Form No. F_062613 19.06.24 Rev 19.1 Chart D - 36-1/2" ESFR Threaded Dry Pendent and 37-1/2" ESFR Grooved Dry Pendent Ambient Temperature of the Protected Area* at the Discharge End of the Sprinkler Exposed Barrel Ambient Temp. 40°F (40C) I 50-F (10-C) I 6011F (16° Exposed Minimum Barrel Length Face of Tee to Top of Ceiling In. (mm) In. (mm) In. (mm) 40°F (4°C) 0 0 0 30-F (-1-C) 0 0 0 1 20°F (-7°C) 4(100) 0 0 • 10°F (-12°C) 8(203) 1(25.4) 0 0°F (-18°C) 12(305) 3(76) 0 -10°F (-23°C) 14(356 4(100) 1(25.4) -20°F (-29°C) 14(356) 6(152) 3(76) -30°F (-34°C) 16(406) 8(203) 4(102) -40°F (-40°C) 18(457) 8(203) 4(102) Less than -40°F (-40°C) *Not Applicable Replaces Form No. F_062613 Rev 18.2.P65 (Added patent number.) As the Leading supplier of steel sprinkler pipe, we understand that there are no second chances in fire suppression. You need products of enduring quality and exceptional strength—plus reliable service. You need Bull Moose. Bull Moose Fire lo'rinal Pipe Size (Inthisk,4& Sprinkler Pipe Product Information , 11/4 1 1/2 • -2 1/2 . 3 __ 4 6 8 D 1i4iI.1Ei EDDY FLOt'J ADVANTAGES: UL listed (US & Canada) and FM approved ASTMA35 and A795 Type E, Grade A Certified Complies with NFPA-13 13R and 14 Indistrv-Leadiig hydraulic characteristics CRR of 10 and greater All pipe NDT weld tested OTHER IBELllTSfS1EflVItES: We have the most stocking locations in the industry, for best delivery and availability Plain end or roll groove Eddy Guard ir bacterial-resistant internal coating Custom length options Hot dipped galvanization Reddi-Pipe® red or black pipe eliminates field painting Compatible for use in wet dry preaction and deluge sprinkler systems The only maker with EPDs (to help 'earn LEED points) U c®us LISTED <@> Cool OAM APPROVE NFPA As the leading suppler of steel sprinkler pipe, we understand that there are no second chances in fire suppression. You need products of enduring quality and exceptional strength—plus reliable service. You need Bull Moose. Bull Moose Fire Sprinkler Pipe Product IorninaI Pipe size i 1/2 Information , 21/2 4 6 8 MIN rtN _________________ kriEia: ki Et EODYThflEAI) 40 ADVANTAGES: UL listed (US & Canada) and FM approved ASTM A135 and A795 Type E, Grade A Certified Complies with NFPA-13. 13R and 14 Industry-Leading hydraulic characteristics CRR of 1.0 and greater All pipe NDT weLd tested 0714E BELEITS/SE VICES. We have the most stocking locations in the industry, for best delivery and availability Plain end or roll groove Eddy Guard ir bacteriaL-resistant internal coating Custom Length options Hot dipped galvanization Reddpe fed or black pipe eliminates fiddpainting Compatible for use in wet, dry, preaction and deluge sprinkler systems The only maker with EPDs (to help earn LEED points). U c®us LiSTED 4.. n Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N Victaulic Mechanical-TI Outlet provides a direct branch connection at any location a hole can be cut in pipe. The hole is cut oversize to receive a "holefinder" locating collar which secures the outlet in position permanently. A pressure responsive gasket seals on the pipe O.D. Cross-type connections can be achieved by utilizing two upper housings of the same style and size, with the same or differing branch size connections. NOTE: Style 920 and Style 920N housings cannot be mated to each other to achieve a cross connection. Style 920 and Style 920N Mechanical-T outlets are available with grooved or female threaded outlet. Specify choice on order. Units are supplied painted with plated bolts. Galvanized hous- ings are available, supplied with plated bolts. All sizes of Style 920 and 920N are rated at 500 psi/345OkPa working pressure on Schedule 10 and 40 carbon steel pipe. They may also be used on high density polyethylene or poly- butylene (HOPE) pipe. Pressure ratings on HDPE are dependent on the pipe rating. Contact Victaulic for ratings on other pipe. Style 920 and 920N are not recommended for use on PVC plastic pipe. Standard piping practices dictate that the Mechanical-T Styles 920 and 920N must be installed so that the main and branch connections are a true 90° angle when permanently attached to the pipeline surface. Additionally, the Vic-Tap Il® hole cutting tool, which allows for hole cutting capabilities on pressurized systems, utilizes the Style 920 Mechanical-T in conjunction with the Series 726 Vic-Ball Valve to create the Style 931 Vic-Tap II Mechanical-T unit. See page 8 for further information. STYLES 920 AND 920N STYLE 920 CROSS PATENTED MATERIAL SPECIFICATIONS Housing/Coating: Ductile iron conforming to ASTM A-536, grade 65-45-12, with orange enamel coating. Ductile iron conforming to ASTM A-395, grade 65-45-15, is available upon special request. Optional: Hot dipped galvanized Gasket: (Specify choice*) Grade "E" EPDM EPDM (Green color code). Temperature range —30°F to +230°F/-34°C to +110°C. Recommended for cold and hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemical services. UL Classified in accordance with ANSI/NSF 61 for cold +86°F/+30°C and hot +180°F/+82°C. NOT RECOMMENDED FOR PETROLEUM SERVICES. Grade "T" nitrile Nitrile (Orange color code). Temperature range —20°F to +180°F/-29°C to +82°C. Recommended for petroleum products, air with oil vapors, vegetable and mineral oils within the specified temperature range. Not recommended for hot water services over +150°F/+66°C or for hot dry air over +140°F/+60°C. *Services listed are General Service Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Reference should always be made to the latest Victaulic Gasket Selection Guide for specific gasket service recommendations and for a listing of services which are not recommended. Bolts/Nuts: Heat-treated plated carbon steel, trackhead meeting the physical and chemical requirements of ASTM A-449 and physical requirements of ASTM A-183. JOB/OWNER CONTRACTOR ENGINEER System No. Submitted By Spec Sect- Para__________ Location Date Approved Date www.victaulic.com vciAuic IS A REGISTERED TRADEMARK OF aCTAULIC COMPANY. © 2018 vICTAuLIc COMPANY. ALL RIGHTS RESERVED. REV-0 'J't a uI i cr 11.021 CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.02 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N DIMENSIONS IMPORTANT NOTES: Style 920 and Style 920N housings cannot be mated to one another to achieve cross connections. 1Lft!k 2 ½ lal a 500 1.50 2.00 2.53 : 161 ' 5.35 2.75 3,1 920N 50 '<15 3450 . 38.1 51 64 - 41 136 70 1.5 - 1/4la) 920~ 500 1.50 1.97 2.53 .61 5.35 2.75 3.1 20 3450 38.1 50 64 - 41 136 70 , 1.5 1 ) a 920N 500 1.50 1.85 2.53 ' - 1.61 5.35 2.75 3.0 - 25 3450 38.1 47 64 41 136 70 1.4 1¼ (a) t 920N 500 1.75 2.05 2.75 3.00 1.61 5.35 1 3.00 3.5 3.2 32 3450 . 44.5 52 70 76 41 136 76 ' 1.7 1.5 1½ (a( tra 500 1.75 + 2.03 2.75 . 3.12 4. 4. 1 61 5.35 I 3.25 3.6 3.2 40 . 3450 500 44.5 1.50 38.1 ' 52 2.21 70 . 2.74 79 41 136 83 -,- 1.82 I 1.7 .............. 21/2 x ½ (a) §u 65 15 3450 56 70 - 46 143 70 1.4 '/4 (a) § 920N 500 1.50 2.18 2.74 - 1.82 . 5.64 . 2.75 3.0 20 3450 38.1 55 70 46 143 70 1.4 1(a) 5a 920N 500 1.50 2.06 2.74 1.82 5.64 2.75 ' 2.9 25 3450 38.1 52 70 - ' 46 143 4 70 1.4 . + - 1 ¼ t,3) a 920N 500 1.75 2.30 3.00 3.25 1.82 6.29 3.00 3.5 3.2 32 3450 44.5 58 76 83 46 160 76 1.7 1.5 1½ t (a) 500 2.00 2.28 - 3.00 3.25 4 . 4.. 1.82 6.26 3.25 3.6 3.3 40 3450 50.8 58 76 83 46 159 ' 83 1.7 1.6 .1 ½ (a) 300 1.50 ' 2.22 2.75 . 2.25 i 646 ) 3.18 ' 3.9 '< 15 2065 38.1 56 70 - 57 I 164 I 81 ' 1.8 - N (a) 300 • 1.50 2.19 4' 2.75 +. - + 2.25 ' 646 3.18 3.9 20 1(a) 2065 300 38.1 - 1.50 56 70 - 2.07 2.75 - 57 1 164 I 81 1.8 4. +' . t 2.25 6.46 3.18 3.8 N , I 25 11/4 (a) 2065 500 ' 38.1 1.75 53 2.30 70 3.00 3.31 57 164 81 + - I 1.92 6.29 3.00 1.7 3.5 - 3.2 32 920N - 3450 + 44.5 58 76 4 84 49 I 160 76 .. _ 4. 1.6 I 1.5 1½ (a) a 500 2.00 ' 2.28 3.00 . 3.31 - 1.92 6.29 3.25 _ 3.5 3.3 40 3450 500 50.8 1.50 58 2.52 ' 76 3.05 84 49 I 160 83 1.6 +- 2.28 6.15 I 2.75 ' 3.4 1.5 3 ½ (<) a 80 X 15 3450 I 38.1 64 , ' 78 - 58 i 156 70 ' 1.6 N 500 1.50 2.49 4' 305 - ± ..........t 2.28 6.15 2.75 34 20 , - ". 3450 38.1 63 78 - ' ' 58 156 70 + 1.6 1(a) 500 1.50 2.38 3.06 '"+ 2.28 6.15 2.75 4.. 3.3 25 3450 38.1 61 78 - 58 156 70 1.6 1 IA (a) fa 920N 500 1.75 2.55 3.25 3.56 t 2.28 6.15 3.00 3.8 1 3,7 32(b) 3450 44.5 65 83 90 58 156 76 I 1.8 1.8 1 ½ (a) ta 500 2.00 2.78 3.50 3.56 2.28 ' 6.15 3.25 4.1 3.8 40(b) 3450 50.8 71 89 90 58 156 ' 83 1.9 1.8 2 (a) a 920N 500 2.50 2.75 3.50 3.56 4' -f-- 2.28 6.75 ' 3.88 ' 4.9 4.6 50 '! 920N ' 3450 500 63.5 2.50 7,0 3.00 89 90 3.75 58172 ........., 2.44 6.72 3.88 2.3 [2.1 3.8 3½ 2 90 X 50 3450 63.5 76 "' 95 62 171 99 - 1.8 TABLE CONTINUED ON PG. 3 Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). t Available with grooved or female threaded outlet. Specify choice on order. * Center of run to end of fitting. 8 Female threaded outlets are available to NPT and BSPT specifications. See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed, Specify "BSPT" clearly on order (b)For 76.1 mm threaded outlet, specify 21/2" BSPT clearly on order. § Vds approved for fire protection services LPCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. F Y - z - oiv GROOVED OUTLET Y F-r- 7 --,1 F f-: FEMALE THREADED OUTLET Provides a direct branch connection at any location where a hole can be cut in the pipe A pressure responsive gasket provides the seal Request Publication 11.03 for Mechanical-T cross assemblies Pressure rated up to 500 psi/3450 kPa on steel pipe; also available for use with HDPE pipe e Sizes from 2 x 1/2'750 x 15 mm through 8 x 4/200 x 100 mm www.victaulic.com VICTAULIC IS REGISTERED TRADEMARK OF vlc'rAuLIc COMPANY. 8 2018 VICTAIJLIC COMPANY. ALL RIGHTS RESERVED. XAa-c- -tau I -i& 11.022 REV _0 CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.02 s.'. Mechanical-I® Bolted Branch Outlets .. . STYLES 920 AND 920N DIMENSIONS X. Dimensions Weight Each * Y ft.-- Z -b ' • 41212 (2112 (2112 (1212 : CONTINUED FROM PAGE 2 4 ½ (a) x 500 1.50 3.03 3.56 2.69 7.01 2.75 3.7 / V 100 X 15 92014 3450 38.1 77 90 - 68 178 70 1.8 - I t . 0 0 •.'. -..- 54 (a) a 920½ 500 1.50 3.00 3.56 2.69 7.01 2.75 3.7 -- - 20 3450 38.1 76 90 68 178 701.8 W 1(a) x 500 1.50 2.88 3.56 2.69 7.01 2.75 3.6 25 920½ 3450 38.1 73 90 - 68 178 70 1.8 - GROOVED OUTLET 1¼(a)tx 920½ 500 1.75 3.08 3,78 4.00 2.69 7.01 3.00 4.0 3.6 32(b) 3450 44.5 78 96 102 68 178 ' 76 1.9 1.8 4 4- i- - ,- - + - . .- 1 ½ (a) f 500 2.00 3.28 4.00 4.00 2.69 7.01 3.25 4.2 3.9 F ________ 40(b) 92014 3450 50.8 83 102 102 68 178 83 2.0 1.9 V Fe- Z -4 ..- 9 . .4 . .. 4. 2(a) to 920N 500 ' 2.50 3.25 4.00400 2.69 7.01 3.88 5.0 4.6 50 3450 63.5 83 102 102 , 68 , 178 99 2.3 2.1 V + 2½ (a) t 920 500 2.75 2.88 , 4.00 4.00 ' 2.69 7.34 ' 4.63 , 5.8 5.0 4. T 65 345069.9 73 102 4.102 , 68186118 4, 2.6 2.3 - - - - - - 7 2 500 2.75 2.88 ' 4.00 2.69 7.34 4.63 ' 6.4 6.1mm 9 0 - 920 3450 69.9 73 - 102 68 186 118 - + 2.9 3 (a:) 6 500 3.50 3.31 4.50 4.12 2.69 ' 7.73 5.12 8.4 6.4 80 3450 88.9 84 114 105 68 196 130 3.8 2.9 FEMALE THREADED OUTLET 1080 x 1)4 (a(a 92014 500 1.75 3.08 3.78 2.63 7.64 3.05 5.0 32 3450 44.5 78 96 - - 67 - 194 78 2.3 - 1 ½ (a)D 500 2.00 3.28 4.00 ' 2.63 ' 7.64 3.25 5.0 Provides a direct branch connection at 92014 3450 50.8 83 102 - 67 ' 194 83 2.3 - any location where a hole can be cut 2(a( 500 2.50 3.25 4.00 2.63 7.64 4.00 4.0 in e pipe 4-14 920N , 3450 . 63.5 83 102 - 67 194 102 1.9 - f 500 2.75 2.88 4.00 4.00 2.63 7.64 4.29 8.0 7.8 A pressure responsive gasket provides 761 mm -. - 3450 69.9+ 73 102 102 67 1- 194 109 3.6 3.5 the seal 3(a) 920 - 500 3.50 3.31 4,50 4.50 2.63 7.63 4.88 6.8 6.5. * 80 3450 88.9 84 114 114 67 194 124 3.1 3.0 Request Publication 11.03 for 5 1½ (a) t 500 2.00 4.03 4.75 ' 4.75 3.16 ' 9.70 3.69 7.4 7.6 Mechanical-T cross assemblies 125 X 40 , 920 3450 50.8 102 121 121 80 4246 , 94 34 3.4 - 2(a)') 920500250 4.00 4.75 4.75.3.16 9.70-4.38i8.2 8.0' •S Pressure rated up to 500 psi/3450 kPa 50 - 3450 63.5 102 121 121 80 246 111 3.7 3.6 on steel pipe; also available for use 2½ (a) t 500 2.75 3.63 4.75 4.75 3.16 9.70 . 4.63 8.3 7.9 ' with HDPE pipe 65 920 • 3450 , 69.9 92 121 121 + 80 464 .3.8 ..-.6 . •4 76.1 mm 920 500 ' 2.75 3.75 4.75 3.16 9,70 4,63 8.0 Sizesfrom2x½'750x15mm 3450 69.9 95 121 80 246 118 - 3.6 • through 8 x 4/200 x 100mm 3 (a) t 920 500 3.50 3.81 5.00 4.63 3.16 ' 9.70 5.31 8.4 8.8 80 3450 , 88.9 97 - 127 118 80 246 135 3.8 40. 33.0 x 2 920½ 500 . 2.50 3.75 4.50 3.17 8.00 3.88 8.0 3450 63.5 95 114 - 81 203 - 99 , 3.6 - - 920 500 3.50 ' 3.81 5.00 3.00 9.46 5.31 8.0 80 3450 88.9 97 127 - 76 240 135 3.6 TABLE CONTINUED ON PG. 4 IMPORTANT NOTES: Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). Style 920 and Style 92014 housings cannot be t Available with grooved or female threaded outlet. Specify choice on order+ mated to one another * Center of run to end of fitting. to achieve cross connections. A Female threaded outlets are available to NPT and BSPT specifications. @ See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT" clearly on order. (b)For 76.1 mm threaded outlet, specify 21/2" BSPT clearly on order. § Vds approved for fire protection services o LPCB approved for fire protection services 0 Approved for use in China by Tianjin Approvals Company. www.ViCtauIic.com A-C-tnuh& VICTAUUC IS A REGISTERED TRADEMARK OF V)CTAUL)C COMPANY. © 2018 vIcTAuLIc COMPANY. ALL RIGHTS RESERVED. REV-0 11.02...3 - 4 .1 CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.021- Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N .4 DIMENSIONS size No. _ I Y ' 4 (4- Z TABLE CONTINUED FROM PAGE 3 1397 x 1112 920N 500 200 378 4.50 40 3450 50.8 96 114 34 209 83 32 2t 920N 500 2.50 3.75 4.50 - 3.30 8.23 3.88 9.0 -- 50 345O63.S 4 95 ,1l4' 84 209i994], W 6 1¼ (a) 500 1.75 4.43 5.13 5.13 3.79 9.15 3.25 5.1 4.8 ' 150 < 32(b) 20N 3450 44.5 112 130 130 96 232 83 2.3 2.2 4 * +' + 4- GROOVED OUTLET 116 (a) to 500 2.00 4.40 5.13 5.13 3.79 9.15 3.25 5.4 i 5.1 40(h) 3450 50.8 112 130 130 96 232 I 83 2.4 2.3 A, +- + 2(a) to 920N 500 2.50 4.38 5.13 5.13 3.79 9.15 3.88 6.0 5.6 50 3450 63.5 111 130 130 96 232 99 2.7 2.5 Y r._z_*1 2½ 5002.75 4.01 513 5.12 3.69 10.51 4.63+8.3+7.6 .---.t t .. . + ....-..-.- .-- v 4 500 . 2.75 4.15 5.21 3.69 10.51 4.63 8.4 T , 3450 69.9 105 - 132 94 ' 267 118 - 3.8 II 65 920 3450 69.9 110 130 130 94 267 118 3.8 3.4 - - 'a)t 920 500 350 431 550 513 369 l05 531 99 84 w 80 3450 88.9 110 140 130 94 267 135 4,5 3:8 4 (a) to 920 500 4.50 3.81 + 5.75 + 5.38 3.69 10.51 6.25 10.1 10,1 100 3450 114.3 97 146 137 94 267 159 4.6 4.6 FEMALE THREADED OUTLET 159.0 x - - '. . "•• '• - j' 1½ (a) 500 2.00 4.41 5.13 3.63 9.40 3.25 7.8 4, 40 3450 50.8 112 130 92 239 83 3.5 ' . . 2 (a) 920N 500 2.50 4.38 5.13 3.63 9.40 3.88 8.0 Provides a direct branch connection at so 3450 63.5 lii 130 - 92 239 99 3.6 any location where a hole can be cut 500 2.75 4.38 5.50 ' 5.13 . 3.63 9.40 4.63 9.5 9.5 in the i 76.1 mm 920 3450 69.9 111 140 130 92 239 118 I 4.3 I 4.3 pipe 1- -"k '- 4 . -.--+.-- +. 920 500 3.50 4.31 5.50 513 3.63 9.40 5.31 8.1 14.0 A pressure responsive gasket provides 80 i 3450 88.9 110 ' 140 130 92 239 i 135 3.7 6.4 ......... 113 . -- 'f--....... the seal 1080mm 920 : 500 4.50 . 4.45 - 5.38 3.63 9.40 6.12 ' 10.01 , ,? 3450 . 114.3 113 . 137 92 239 I 155 - 4.5 . . .. . . +, 4..,, Request Publication 11.03 for 920 500 4.50 3.81 ' 5.75 3.63 9.40 6.25 18.0 Mechanical-T cross assemblies 100 3450 114.3 96.80 146 - . 92 239 159 8.2 - TABLE CONTINUED ON PG. 5 Pressure rated up to 500 psi/3450 kPa Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). 4. on steel pipe; also available for use t Available with grooved or female threaded outlet. Specify choice on order. with HDPE pipe * Center of run to end of fitting. Sizes from 2 x ½/SO x 15 mm 8 Female threaded outlets are available to NPT and BSPT specifications. through 8 x 4/200 x 100mm @ See page 7 for Fire Protection approvals and pressure ratings. (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT" clearly on order. . L. (b)For 76.1 mm threaded outlet, specify 21/2 BSPT clearly on order. § Vds approved for fire protection services LPCB approved for fire protection services IMPORTANT NOTES: 0 Approved for use in China by Tianjin Approvals Company. Style 920 and Style 920N housings cannot be mated to one another to achieve cross connections. I. www.victaulic.com - ,vICTAULIC IS A REGISTERED TRADEMARK OF ICTAULI COMPANY. © 2018 vICTAULIC COMPANY. ALL RIGHTS RESERVED, iCtUtiC 11.02 REV_0 'S. A CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.02 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N DIMENSIONS Dimensions Weight Each P . Pi K I it'gh I 1W (lit (111L Z2 V H- Z -+( 'I - ___ TABLE CONTINUED FROM PAGE 4 v 165,1 x 2 1 500 5 920N + 150 388 456 379 934 275 - I 3450 38.1 99 11.6 96 237 3.6 500 1.75 443 513 379 934 325 84 0 -- ;, 920N 3450 44.5 113 130 - 96 237 - 83 38 - W 1 ½ (a) t N 500 2.00 241 5.13 5.13 3.79 9.34 3.25 82 54 6+ 40 3450 50.8 112 130 130 96 237 83 38 2 GROOVED OUTLET 2(a) 6 00 2.50 4.38 5.13 5.13 3.79 934 388 85 60 50 920N 3450 4 63.5 111 130 130 96 237 99 39 27 F 4 • F )' -+ 76.1 500 275 401 5.13 521 363 1051 463 86 76 e. mm 3450 699 110 130 132 92 267 118 39 34 V 1- Z - . . - t - 4' -'-4" 0 ________ 3(a) a 920 500 350 431 5.50 5.13 3.63 1051 531 102 84 1' 0 -i-n 80 3450 889 110 140 130 92 267 135 46 38 V 4 (a) 920 500 450 381 5.75 5.38 3.63 1' 1051 625 10 100 3450 1143 97 + 146 137 92 267 159 4, 48 38 8 2 (a) 6 920 500 2 75 544 6.19 6.25 4.81 [ 1242 450 11 6 11 6 200 1<5Q 3250 699 138 157 159 122 316 114 53 53 2½ (a) 6 500 2.75 507 6.19 6.19 4.81 1242 459 116 116 65 920 3450 69.9 129 157 157 122 316 114 53 53 FEMALE THREADED OUTLET 500 2.75 5.25 6.25 4.81 12.42 + 456 116 /61mm' 920 3450 69.9 133 - 159 122 316 116 - 53 3(a) t 500 3.50 5.31 6.50 650 281 1242 ' 531 126 116 Provides a direct branch connection at 920 3450 88.9 135 165 165 122 316 135 57 53 4.81 6.75 6.38 I 4.81 + 1242 625 153 125 in the pipe 100 3450 . 114.3 122 171 162 122 316 159 69 57 any location where a hole can be cut 4(a) t 920 500 4.50 Center of run to engaged pipe end, female threaded outlet only (dimensions approximate). A pressure responsive gasket provides f Available with grooved or female threaded outlet. Specify choice on order. the seal * Center of run to end of fitting. . Request Publication 11.03 for # Female threaded outlets are available to NPT and BSPT specifications. Mechanical-T cross assemblies @ See page 7 for Fire Protection approvals and pressure ratings.' Pressure rated up to 500 psi/3450 kPa (a) British Standard female pipe threaded outlet is available as listed. Specify "BSPT clearly on order. • " on steel pipe; also available for use (b)For 76.1 mm threaded outlet, specify 21/2" BSPT clearly on order. with HDPE pipe § Vds approved for fire protection services LPCB approved for fiie protection services Sizes from 2 x 1/2750 x 15mm 0 Approved for use in China by Tianjin Approvals Company. through 8 x 4/200 x 100 mm IMPORTANT NOTES: Style 920 and Style 920N housings cannot be mated to each other to achieve cross connections. www.victauiic.com vicTAuLic IS REGISTERED TRADEMARK OF viCTAuLic COMPANY. C 2018 viclAuLic COMPANY. ALL RIGHTS RESERVED. REV-0 11.025 FLOW DATA CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.02 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N Flow test data has shown that the total head loss between point (1) and (2) for the Style 920, 920N and 929 Mechanical-Ti fittings can best be expressed in terms of the pressure difference across the inlet and branch. The pressure difference can be obtained from the relationship below. C, and Ky Values Values for flow of water at +600F/+16*C are shown in the table below. ' 0, Formulas for C5 ,K. Values: AP =Q2 Where: p = Where: C,2 0 = Flow (GPM) 0 = Flow (m3/hr) AP = Pressure Drop (psi) K V AP = Pressure Drop (Bar) 0 = x ç = Flow Coefficient Q K,, x 4i K = Flow Coefficient Exaggerated for c!aiity OUTLET $1P'4 El Equivalent Length • Outlet Size Schedule 40 Carbon Steel Pipe I '24. 1.050 20 26.7 - - 13.7 1 1.315 3' 8 - 21 - 25 33.7 1.8 1 y 1.660 50 48 ., 32 42.7 ½ 6 42.9 41.1 1 ½ 1.900 11 53 . 53 40 48.3 45.4 , 45.4 2 2.375 112 T 104 50 60.3 - 9 10 2 96 89.1 2.875 - 119 - - 150 65 73,0 20 12½ + 102 128.5 76.1 mm 3.000 16* - 161 76.1 138.1 3 3.500 249 237 80 88.9 -- 14 15 iS 213.4 203.1 4.500 421 • 401 100 114.3 20 22 360.8 343.6 Hazen-Williams coelticlent or triction is 120. Pipe with a wall thickness of 0.165in./4.2mm. FireLock Innovative Groove System (IGS) outlet www.victaulic.com vic'rAuLic IS REGISTERED TRADEMARK OF VICTAULIC COMPANY. © 2018 VICTAULIC COMPANY. ALL RIGHTS RESERVED. 11.02 6 J4tEIUIIC, 0 REV _O 0' a CARBON STEEL PIPE - HOLE CUT PRODUCTS 11.02 Mechanical-I® Bolted Branch Outlets STYLES 920 AND 920N FIRE PROTECTION APPROVALS AND PRESSURE RATINGS The information provided below is based on the latest listing and approval data at the time of publication. Listings/Approvals are subject to change and/or additions by the approvals agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. , LIM"- am W) II J~m ij -. 21/2-6 2.875 - 6.625 All 10 40 400 400 400 290 232 362 65-150 _J 73.0- 168.3 - - - - 2755 2755 2755 1999 1599 2496 - t + 21/2-4 2.875 - 4.500 A F 300 300 300 290 232 362 65-100 73.0-114.3 2065. 2065- 2065 1999 1599 2496 21/2 -4 2.875 - 4.500 . ---+— l 300 ..- 300 .- -,--. 300 290 232 362 65-100 73.0-114.3 All SF 2065 2065 2065 1999 1599 2496 6 6.625 34 10 300 300 250 290 232 ±------- 362 150 168.3 2065 2065 1724 1999 1599 2496 6 6.625 - -4---- 3,4 30,40 2065 300 300 300 -.-. 290 --- ----F- 232 362 150 168.3 I 2065 2065 1999 1599 2496 8 8.625 21/2 I 40 400 145 200 219.1 2755 - - 1000 - 8 8.625 • 300 - - 250 — 145 200 219.1 34 10 2065 1724 1000 8 8.625 300 1 • 40 300 . 145 200 219.1 2065 2065 ' 1000 NOTES: 10 refers to Listed/Approved Schedule 10 steel sprinkler pipe. 40 refers to Listed/Approved Schedule 40 steel sprinkler pipe. DF refers to Listed/Approved Dyna-Flow steel sprinkler pipe manufactured by American Tube Company. SF refers to Listed/Approved Super-Flo steel sprinkler pipe manufactured by Allied Tube and Conduit Corporation VIC-TAP II HOLE CUTTING TOOL FOR The Vic-Tap II hole cutting tool is designed for use with the Style 931 Vic-Tap H Mechanical-T unit, 4 - 81100 - 200 MM CARBON STEEL PIPE which is a combination of the Style 920 Mechanical-T and Series 726 Vic-Ball Valve. The Vic-Tap II is capable of tapping into carbon steel pipe systems under pressures up to 500 psi/3450kPa. The Style 931 Vic-Tap II Mechanical-T unit is a full port ball valve which can be mounted on 4/100mm, 4 5/125mm, 67150mm and 8'7200 mm diameter pipe. The Style 931 comes with a 21/2765mm grooved outlet. The drill motor is an electric motor with ground fault circuit interrupter (GFCl) in accordance with safety codes. For more information, refer to publication 24.01. www.victaulic.com vlcrAuLIc IS A REGISTERED TRADEMARK OF VICTA0LIC COMPANY. © 2018 vlclAuuc COMPANY. ALL RIGHTS RESERVED. I'lo 4-ic—ta _U1 ii REVO 11.027 STYLES 920 AND 920N INSTALLATION Reference should always be made to the -100 Victaulic Field Installation Handbook for the product you are installing. Handbooks are included with each shipment of Victaulic products for complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. WARRANTY Refer to the Warranty section of the current Price List or contact Victaulic for details. NOTE This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. .1 For complete contact information, visit www.victaulic.com 11.02 1480 REV UPDATED 11/2018 ictau11c vlcTAuuc IS A REGISTERED TRADEMARK OF VIcTAuLIc COMPANY. © 2018 vlcTAuuc COMPANY. ALL RIGHTS RESERVED. : 11.02 L . 90 Victaulic® FireLockTM Fittings J'taUIic 10.03 1.0 PRODUCT DESCRIPTION Available Sizes 11/4 - 8/DN32 - DN200 Maximum Working Pressure Pressure ratings for Victaulic FireLockTM Fittings conform to the ratings of Victaulic FireLock EZTM Style 009N couplings (refer to publication 10.64 for more information). Application FireLockTM fittings are designed for use exclusively with Victaulic couplings that have been Listed or Approved for Fire Protection Services. Use of other couplings or flange adapters may result in bolt pad interference. Connects pipe, provides change in direction and adapts sizes or components Pipe Materials Carbon steel 2.0 CERTIFICATION/LISTINGS Lam (( © EN 10311 Regulation (EU) No. 305/2011 3.0 SPECIFICATIONS - MATERIAL Fitting: Ductile iron conforming to ASTM A536, Grade 65-45-12. Fitting Coating: El Orange enamel. El Red enamel in Europe, Middle East, Africa, and India. O Optional: Hot dipped galvanized. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. System No. Location Spec Section Paragraph Submitted By Date Approved Date victaulic.com 10.03 1539 Rev N updated 09/2017 © 2017 Victaulic Company. All rights reserved. "tI au 1 _________________ victaulic.com 4.0 DIMENSIONS I.-CtoE C to E Zl .-Aj I I 'Ci T WE to L-= . Yj No. 001 No. 003 No. 002 No. 006 No. 001 No. 003 No. 002 No. 006 90° Elbow 450 Elbow Straight Tee Cap Approximate Approximate Approximate Approximate Actual Nominal Outside Weight Weight Weight Weight Size Diameter C to E Each C to E Each C to E Each T Each inches inches inches lb inches lb inches lb inches lb DN mm mm kg mm kg mm kg mm kg 11/4 1.660 - - - - - - 0.82 0.3 a. DN32 42.4 - - - - - - 21 0.1 11/2 1.900 - - - - - - 0.82 0.4 DN40 48.3 - - - - - - 21 0.2 2 2.375 2.75 1.7 2.00 1.8 2.75 2.4 0.88 0.6 DN50 60.3 70 0.8 51 0.8 70 1.1 22 0.3 21/2 2.875 3.00 3.1 2.25 2.2 3.00 3.6 0.88 1.0 73.0 76 1.4 57 1.0 76 1.6 22 0.5 3.000 3.00 3.30 2.25 2.4 3.00 3.8 DN65 76.1 76 1.5 57 1.1 76 1.7 - - 3 3.500 3.38 4.0 2.50 3.1 3.38 5.3 0.88 1.2 0N80 88.9 86 1.8 64 1.4 86 2.4 22 0.5 4.250 4.00 5.7 3.00 5.1 4.00 7.5 108.0 102 2.6 76 2.3 102 3.4 - - 4 4.500 4.00 6.7 3.00 5.6 4.00 8.7 1.00 2.4 DN100 114.3 102 3.0 76 2.5 102 3.9 25 1.1 5 5.563 4.88 12.6 3.25 8.3 4.88 15.7 1.00 4.1 141.3 124 5.7 83 3.8 124 7.1 25 1.9 5.500 4.88 12.4 3.25 8.2 4.88 15.4 DN125 139.7 124 5.6 82.6 3.7 124 6.9 - - 6.250 5.50 12.6 3.50 9.2 5.50 17.9 158.8 140 5.7 89 4.2 140 8.0 - - 6 6.625 5.50 18.3 3.50 11.7 5.50 22.7 1.00 5.9 DN150 168.3 140 8.3 89 5.3 140 10.3 25 2.7 6.500 5.43 17.6 3.50 11.4 5.50 22.0 165.1 140 7.9 89 5.2 140 9.9 - - 8 8.625 6.81 25.5 4.25 20.4 6.94 38.7 1.13 12.7 DN200 219.1 173 11.6 108 9.3 176 17.6 29 5.8 - 8.515 6.81 23.1 - - 6.94 33.6 - 173 10.5 - - 176 15.2 - - 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 2 victaulic.com 5.0 PERFORMANCE Flow Data Size Frictional Resistance Equivalent of Straight Pipe' No. 002 Actual Elbows Straight Tee No. 001 No. 003 Nominal Outside Size Diameter 90 Elbow 45 Elbow Branch Run inches inches feet feet feet feet DN mm meters meters meters meters 11/4 1.660 - - - - DN32 42.4 - - - - 11/2 1.900 - - - - DN40 48.3 - - - - 2 V 2.375 3.5 1.8 8.5 3.5 DN50 60.3 1.1 0.5 2.6 1.1 2½ 2.875 4.3 2.2 10.8 4.3 73.0 1.3 0.7 3.3 1.3 3.000 4.5 2.3 11.0 4.5 DN65 76.1 1.4 0.7 3.4 1.4 3 3.500 5.0 2.6 13.0 5.0 DN80 88.9 1.5 0.8 4.0 1.5 4.250 6.4 3.2 15.3 6.4 108.0 2.0 0.9 4.7 2.0 4 4.500 6.8 3.4 16.0 6.8 DN100 114.3 2.1 1.0 4.9 2.1 5 5.563 8.5 4.2 21.0 8.5 141.3 2.6 1.3 6.4 2.6 5.500 8.3 4.1 20.6 8.3 DN125 139.7 2.5 1.3 6.3 2.5 6.250 9.4 4.9 25.0 9.6 158.8 2.9 1.5 7.6 2.9 6 6.625 10.0 5.0 25.0 10.0 DN150 168.3 3.0 1.5 7.6 3.0 6.500 9.8 4.9 24.5 V 9.8 165.1 3.0 1.5 7.5 3.0 8 8.625 13.0 5.0 33.0 13.0 DN200 219.1 4.0 1.5 10.1 4.0 8.515 13.0 - 33.0 13.0 216.3 4.0 - 10.1 4.0 The flow data listed is based upon the pressure drop of Schedule 40 pipe. 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. 3 jt -au uic! victaulic.com 6.0 NOTIFICATIONS General Notes NOTE: When assembling FireLock EZTM couplings onto end caps, take additional care to make certain the end cap is fully seated against the gasket end stop. For FireLock EZTM Style 009N/009H couplings, use FireLockTM No. 006 end caps containing the °EZ" marking on the inside face or No. 60 end caps containing the "QV EZ" marking on the inside face. Non-Victaulic end cap products shall not be used with Style 009/009V/009H/009N couplings. 7.0 REFERENCE MATERIALS - 10.64: Victaulic® FireLockiM Rigid Coupling Style 009N 10.02: Victaulic® FireLockrM Rigid Coupling Style 0051-f with Vic-Plus°5' Gasket System 29.01: Victaulic® Terms and Conditions of Sale C.. User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms "Patented" or "Patent Pending" refer to design or utility patents or palest applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or In Victaulic specifications. All products to be installed is accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available' in POF format on our website at www.aictaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or ether countries. 10.03 1539 Rev N Updated 09/2017 © 2017 Victaulic Company. All rights reserved. victaulic.com 4 f