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1704 DRAKE WAY; ; AS070034; Permit
10/13/2020 Job Address: Permit Type: Parcel No: Lot#: Reference No.: PC#: Project Title: Applicant: AS070034 Permit Data City of Carlsbad . Sprinkler Permit Permit No: AS070034 1704 DRAKE WY Status: ISSUED SPRINK Applied 2/14/2007 2111300300 Approved: 2/14/2007 0 Issued: 2/14/2007 Inspector: CARLSBAD RANCH VILLAS TWO FIRE SPRINKLER SYSTEM INSPECTIONS @ $62/EA Owner: WESTERN FIRE PROTECTION GRAND PACIFIC CARLSBAD LP 12232 THATCHER CT POWAY CA 858-513-4949 Fees($) Add'I Fees ($) 124 0 5900 PASTEUR CT #200 CARLSBAD CA Total($) 124 Balance($) 0 1/1 i-f llE COPV Contractor's Material and Test Certi.ficate for Aboveground Piping PROC~DUR~ . Upon completion of work, Inspection and teats shall be made by the contractor's. representative and witnessed by the property owmir or their authorized agent All defects $hall be correcled 111'.\d system left in S(')r\llce before con1.ractor's personnel finally leave tM. Job, A ~rtlflcate shall bo flllad out and signed by both representatives. Caples shall b(') pmp~red tor approving authorltlss, own em, and contractor, Ii.ls understood tha owner's reprollentative's signature In no way prejudices any clslm against contractor for faulty ma1erlal; poor workm11nshlp, or failure lo comply with approving authority's requirements or local ordlna.ncea. Property address i '1 0 4-DY'"'--~e... w" , . Plans Accepted by approving autt,orltles (namos)~ ire . f<.. '/0.. h . Add"" • G-.v-bl::wi ~R "G • Pf.if_,_ ---'----1 lnatallatlon conforms to aocepted plans • ,J)Yos QNo lm1tructions LOCl!ltlon of system Sprinklers Plp9 and linings Alarm valva or flow Indicator Equlprnent usod is approyod • If no, explain deviations Has per!lon rn charge of tire .equipment been Instructed as to location ol control valves and care and rnalntenanc8 of thla new equipment? If no, explaln Have coplea of tho following boon left on the prGmlse$? 1. Sye1ern components insttuctlone 2. Care and maintenance instructions 3. NFPA25 Suppllea bulld1ngs· Year of Make Modol menu!act1,1re ll\ \i!: ~ ;l).O, l)¥;._"f~f; ?oC::,·7 J ....klt2'13k 1...,./__J:'f,,,:,I 2c:>o,· TYPe ofplpo s-+eJ!. I ~d, C .f'. V·•C:.._ Type of fitting:; , ... ... I I Alarm device type Mal<e _ Model • ~1 r,~r \/f.,:r-'2. Orlflco size 17/'!>,:~- I/_ , ~Yes· ·~Yes auantltv /0-Z.. -, QNo ClNo 0No. • QNo QNo 0No Temperature rating /~y,5- '7.C)f/ .. Maximum time to operate through test connection [ ?.. 7 Orv valve I ----------='""'"------------~1--------~a""'c;,"" . .,.o,._. _______ __J Serial no. Mak9 l Model Make Model I 1--------1~-_.;_--11-..;::.:;;.;.::;,,;,;.:,:_--1-----11-SGrlal no. Dry plp9 opora11ng ~rk Without Q,O.D. • With .o,0n Tlm1;1totrip through teat connectiona.b Minutes S(')oonds If no, e)(plaln '@ 200~ National t=lre Protection Aeeocl~llon Wa1er pressure psi I! Measured from time Inspector's test conneotlon Is .opened b NFPA 13 only ret:1ulros the so-seoond !Imitation In apeoillc socttone Air orossure pal Trip point alr pressure psi Time water reaehed teat out1(')1a,b Minutes. Seconds Alarm opera.led DroPerly Yes No NFPA 13 (p. 1 ol 3) --·---........ •----· ... ~ ,v- ·Operation □Pneumatic QElectric □Hy~raunes Piping supervised Q'i'es CJNo I Deteetlng msdla aupervlsGd Qy~~ ClNo ·Does valve operate from the manual trip, remote, or-both Qvos QNo control stations? Oelugef.lnd Is there ah aaceaslble faclllty In ijach circuit If no, explain preaction for testing? valvas. Ores 0No Iv /Pr Make Does each clrcul1 operate Does each circuit operate Maximum ume to 'Model supervision loss alarm?• • valve relea1;1e? operate teleaso Yea I No Yes I No Mlnutea I Secohcl~ 8 ~ I I 1 • p~L~ L.ocatlon. Make and Residual pressure t'low rate I and floor model Ssttlng Static pressuro (tlowlng) reducing Inlet (pst) I Outlet (p~I) Inlet (psi) I Outlet (pal) Flow(gpm) ! valve 1est .. I I i ~~ Hydro!'1tatlc testa shall be made at not less than 200 psi (13,6 bar) for a hours or so p~I (3.4 bar) I above static pressure In excess of 1 GO psi (10.2 bar) for 2 hours. Dlfferontlal dry•plpe valve clappe'ri1 sh!III be left I Test open during the test to prevent damage, All aboveground piping fea!IR.ge shall be stopped. • description ~ l:stebllsll 40 psi (2. 7 bBr) air pressure end msosura drop, which Ghalf not exceed 1 ½ psi (0, 1 bar) In 24 houra. Test pressure 1enks at normlll water level and air press4re 1;1nd measute air pressure drop, which shall not exceed 1 ¼ pal (0, 1 bar) in 24 hours. I All piping l'lydrostallcally tested at -~ psi (-bar) for _z..._ hnrs If no, !ltau, rGason I Pry piping pooumatiC8lly tested Q Yes Q NO fv II\ i Equipment operates properly JaYeB □ No i Do you certify :;s the sprinkler contraotor.that additives and corrosive chemlcmls, sodium slllcate ·or derivatives of a~dl m slllcate, brine, or other corroslvs ohemtcal1;1 wero not used for tesclng systema or alopplng leakS? -o~ . Drain I Reeding ol gaugo located near wator I Reaidual pres!luro with valve In lt1st Tost~ test supply test connection: psi ( bar) connt1ctlon open wide: psi / bar) Underground mains and laad•ln connections to syatem rl!;lero flush«! before connection made to splinkler piping Verlfiiid·by copy of the Contractor"s Material and Test QYes C)No Olhar Explaln Cerll!lcate for Underground Piping, • '&lvea Flushed by lnetaJler of vnderground sprinkler piping ·. □No I If powder-driven fa1:1teners are used in concretG, Oves 0No ti no, oxpleln has reprnsontatlve sample testing baen aetlefactorlly completed? l:llonk tasting Number useb ·. L.ocatlons Number removed gaeketa Woldlng piping ]8v1;1s CJ No II yes ... Oo you cortlfy as the aprinkler contractor thnt welding proced1,1res uood complfod with §ave~ QNo the minimum requirements of AWS B:2, 1, ASME Section IX Ws/dlngancl Brazing Quflllf/ontlons, or other applicable qvalfflcatlon standard aa ret:iulred by the AHJ?. Do you eelilfy that ell weldlng was performed by welde~ or welding operators ~e~ ON0 ! qualified In accordance with the minimum roqu1rementa of AWS B~.1. ASME Section IX Welding and Brazing Oualifictitlons, or other applicable quallflcatlon st1mdard as Welding required by the AHJ7 Do you certify that the··weldlng wes conducted ,in compllance with a documented )ifvos O~o quality control procedure to ensure that (1).ell i;fiscs are retrieved; (2) that openings in piping are srnoo1h, that slag and other weld.Ing resld•le are removed; (3) the Internal diameters of piping are not penetrated; (4) complet1:1d welds are Ire@ from cracks, l11Complete f1,1slon, surface porosity greater than 1/,n In. diameter, undercut deeper than the lesser of 25% of the well thickness or ~ In.; and (5) completed clrc1.1mterentlal b1.1tt wi,ld r0lnforcement cJoee not exceei;I %, In.? CO 2006 National Fire F'rotectlon As~oeletlon NFPA 13 (p, 2 of$) - Cutouts (discs} Hydrsulic data • nameplate Aernarks Slgnatu~5. Do you cFJrtlfy that you have a control 1-eeture to ensure that all cutouts (discs) are relrloved? Nameplata provided ti no, e:xplaln QNo Date left in sorvlca with all control valves open lcsu~ witnessed by • Additional explanatlon5 @ 2006 National Fire Protection AsEIOCiatlon QNo Date NFPA 13 (p, 3 of 3) l As O :tcx:)~>'1. Job Number:(. I 974 Teport Description: VILA I -BLDG. 5G Jo~ , C. I 974 Hllv'iANSr,U ··---·----·-·--·-·---------------- CARLSB.6D RANCH RESORT ---~-----·------------------ VILLA I -BUILDING 5G I 7 I 2 DRAKE WAY ----------------------------·--·--------------------------------------1 (,:·.· :,:;; Ceo~ C-,~,.,~.o; IJ;;me CF.RLSBAD CA 92008 c-1 974 hyd. calc villa I I Gx I G.cad Remote Area(s) 7.4 K-factor 25.59 at I I .9GO Manually Calculated 100.00 NA NA Flow(gpm) 4 NA 100.00 5y!>tem flow Dem.ind ! Total W;1ter Ret:tuored Clndud,nq t1o!ioe Allow;ince) I 17.G9 217.G9 0.000 M.r,~,m"m Veloc,tv Abo"e Ground I I . 98 between nodes I 4 and I 3 Mil~•mum 1/eloc,tv Undc-r Ground I .30 between nodes 35 and 34 I 13 I 9G.48"!al Supplies {£9 IQ ·-J ' Q._ED lJ ·t. • '.~ C N. Node 3G Hose Flow (<;1pm) 100.00 Static (PSI) G?.500 (9 . DL.Q o' -0 0 ·~ \ ~✓ Contractor C-1974 Cor1tr;;ctor tJ;;me WESTERN FIRE PROTECTION I 2232 THATCHER COURT POWAY ~ © M E.P CAD, Inc. Residual (PSI) G3.000 CA @ Flow (,wm) I 185.00 920G4 Available (PSI) G7.304 ' C.nnt.:i,-:t,IJ;,,.,,.. Phone @ Total Demand (aom) 217.G9 G0.575 ! f::r,,,t_;ar.t T,tl,-. 0 I /2G/2007 I 0: I G:OSAM Safety Mar"l1n (psi) G.729 ~~~g !summary Of Outflowing Devices I Job Number: C-I 97 4 ,. Report Descnpt1on: VILA I -BLDG. 5G ' Actual Flow Minimum Flow K-factor Pressure Device (cwm) (cwm) (K) (psi) Sonnkler 103 32. ! G 25.59 74 18.884 --------- St?rinkler 102 27.83 25.59 7.4 14.140 -·-· - St:>nnkler 104 32.1 I 25.59 7.4 18.833 c) St:>nnkler IOI 25.59 25.59 7.4 I I.9GO c') Most Demand1nv1 Sprinkler Data ~ © M.E.P.CAD, Inc. •ll9Auto5PRINK® VRS v5.2.G 01/2G/2007 I 0: I G: I I AM Pav1e 2 I Node Elevat,on(Foot) F,ttincis ~--------23 220'-I 11/4 T(4G'-21/2l_ ----------------·--- 18 220'-I I¼ Ee2( I I '-Ol/2) 17 227'-53/4 LtE(9'-03/4) --·--· IG 227'-5¾ LtE(3'-81/4) 15 234'-G3/4 LtE(3'-81/4) 14 234'-P/4 red( I '-0) 52 254'-73/a 2T(I 0'-0) 51 254'-73/4 T( I 0'-0). Tr( I '-0) -3 254'-73/4 T( I 0'-0) 4 254'-73/4 T( I 0'-0). Ir( I '-0) 5 254'-73/4 21(10'-0) G 254'-7¾ E(I l'-0) 54 244'-G¾ E(I I '-0) 53 254'-73/4 E( I I '-Ol 7 244'-G¾ E( I I '-0) 2 258'-9¾ T(G'-0), Tr( I '-0) 58 234'-G3/4 E(I l'-0) 57 244'-G¾ E( I I '-0) I I 234'-G3/4 E( I I '-0) 10 244'-G3/4 E( I I '-0) 59 234'-G3/4 E(I l'-0) 5G 244'-G3/4 E(I l'-0) 55 244'-G3/4 T( I 0'-0), Tr( I '-0) 13 234'-G3/4 2T( I 0'-0) 8 244'-G3/4 T( I 0'-0) 12 ' 234'-G3/4 • E( I I '-0) 9 244'-G3/4 ' E( I I '-0) 50 254'-73/4 . E(7'-0l I 257'-41/4 : E(7'-0) 24 2 I 3'-51/2 ' LtE( I 9'-71/2) 25 221 '-9 • LtE(22'-03/4) 2G 221'-9 I BFP(-7.500) 28 2 I 4'-Gl/2 '. LtE(22'-03/4) 27 221 '-9 , LtE(22'-0¾l 29 214'-Gl/2 i T(52'-93/4) 33 20G'-I / J/4 ' 2T( I 4 I '-3) 34 20G'-9¾ I GV(4'-8¾l 35 20G'-93/4 30 204'-51/2 ' C(80'-51/4), C(G7'-5) 32 204'-01/4 ' PrV( I '-0) 31 204'-51/4 T(80'-51/4) 103 253'-21/2 i 5Pr(-I 8.884) 102 258'-41/2 Spr(-1 4. 140) 104 253'-I / 1/2 5Pr(-I 8.833) IOI 25G'-I I 1/4 , Spr(-I I .9GO) 3G 220'-0 :s @t_, © M.E.P.CAD, Inc. •:I~ AutoSPRINK® VR5 v5.2.G Pressure(ps1) -·---52.554 52.482 49.G27 49.589 45.405 45 024 24.924 23. ! 28 23.0G7 23080 24.518 24.918 30.101 25.231 29.941 15.709 3G.795 31.875 3G.G77 31.785 37.232 31 .438 30.513 39.SG8 i 30.480 37.092 31.371 19.791 13.432 55.852 ; 52.2GO I 59.759 G2.890 i 59.7G2 G2.901 GG.21 I GG.2G8 GG.275 G7.283 G7.47 I G7.294 18.884 I 14.140 18.833 I 1.9GO G0.575 Job Number: C-I 97 4 Report Description: VILA I -BLDG. 5G D,scharcie(cipm) -· -- I ' ' I ! i ! I ! I i ; 32.1 G 27.83 32.1 I 25.59 117.G9 ; 0 I !2G!2007 I 0: I G: I GAM Pacie 3 (~~~ !Hydraulic Analysis .. l ~[!,i;,e Type Diameter Flow Veloc1t:,, Downstream Elevation D1scharG]e K-factor Upstream ~ .. • • • Route I ..... DK 1.1010 0=25.59 8.G2 IOI 25G'-I I¼ ci=25.59 K=7.4 I 25 7'-41/4 J'Q ________ 1.1010 0=25.59 8.G2 I 257'-4¼ 2 258'-93/4 BL 1.3940 0=53.42 I I .23 2 258'-93/4 3 254'-7¾ CM 2.0030 0=30.% 3. 15 3 254'-73/4 4 254'-73/4 CM 2.0030 O=G3. I 2 G.43 4 254'-7¾ 5 254'-7¾ CM 2.0030 O=G3. 12 G.43 5 254'-73/4 G 254'-7¾ FR 2.0030 O=G3. 12 G.43 G 254'-73/4 7 244'-G3/4 CM 2.0030 O=G3. I 2 G.43 7 244'-G3/4 8 244'-G3/4 CM 2.0030 0=58.0G 5.91 8 244'-G¾ 9 244'-G3/4 CM 2.0030 0=58.0G 5.91 9 244'-G¾ 10 244'-G¾ FR 2.0030 0=58.0G 5.91 10 244'-G3/4 I I 234'-G.¥4 CM 2.0030 0=58.0G 5.91 I I 234'-G¾ 12 234'-G3/4 CM 2.0030 0=58.0G 5.91 12 234'-G3/4 13 234'-G¥4 FM 2.0030 O= 117.G9 11.98 13 234'-G¾ 14 234'-G¾ DY 2.1570 0= I 17.G9 10.33 14 234'-G¾ 15 234'-G¾ FR 2.1570 0= I I 7.G9 10.33 15 234'-G3/4 IG 227'-5¥4 FR 4.02GO 0=117.G9 2.97 IG 8oR 227'-53/4 17 227'-5¾ BL G.2800 O= I 17.G9 1.22 17 227'-5¾ 18 220'-I 11/4 UG G.0900 Q=ll7.G9 1.30 18 220'-I I¼ 23 220'-I 11/4 UG 7.9800 O= I I 7.G9 0.75 23 220'-I 11/4 24 2 I 3'-51/2 UG 8.3900 O= I I 7.G9 O.G8 24 2 I 3'-51/2 25 221'-9 DY 8.3900 0=117.G9 O.G8 25 221 '-9 2G 221 '-9 DY 8.3900 O=l 17.G9 O.G8 2G 221 '-9 27 221 '-9 @t., © M.E.P.CAD, Inc. •:iSAutoSPRINK® VR5 v5.2.G HWC Pt Pn C=J50 I! .9GO ! 3.432 C=150 13432 15.709 C=l50 15.709 23.0G7 C=l50 23 OG7 23080 C=l50 23.080 24.518 C=l50 24.518 24.918 C=l50 24.918 29.941 C=l50 29.941 30.480 C=l50 30.480 31.371 C= 150 31.371 31.785 C= 150 31.785 3G.G77 C=l50 3G.G77 37.092 C=l50 37.092 39.5G8 C= 150 39.5G8 45.024 C= 120 45.024 45.405 C= 120 45.405 49.589 C= 150 49.589 49.G27 C=l40 49.G27 52.482 C=l50 52.482 52.554 C=l50 52.554 55.852 C=l40 55.852 52.2GO C=l40 52.2GO 59.759 C=l40 59.759 59.7G2 Keport D Friction Loss F1tt1n"ls 0 I 073G I Spr(-I I .9GO) 2E(7'-0) 0.1073G I ----- 2E(7'-0), Tr( I '-0) 0. 132750 3E(8'-0), T( I 0'-0) 0.008282 --- Tr( I '-0) 0.030934 3T r( I '-0), T( I 0'-0) 0.030934 E( I I '-0) 0.030934 E( I I '-0) 0.030934 T( I 0'-0) 0.02G508 2Tr( I '-0), E( I I '-0) 0.02G508 E( I 1 '-0) 0.02G508 E( I I '-0) 0.02G508 E(I l'-0) 0.02G508 GT r( I '-0), red( I '-0), T( I 0'-0) 0.097959 escr,pt,on: - Job Number: C-1974 VILA I BLDG 5G Len"lth Pressure EC\. Len"lth Summary Total Lenc::ith l'-4¼ Pf 1.G49 14'-0 Pe -0.178 15'-4¼ Pv ! 2'-! 1/2 Pf 2.9 I 2 I5'-0 Pe -0.G35 27'-I 1/2 Pv 7'-91/2 Pf 5.548 34'-0 Pe 1.809 4 I '-91/2 Pv 0'-7 Pf 0.013 I '-0 Pe I '-7 Pv 33'-G Pf 1.438 13'-0 Pe 4G'-G Pv l'-11 Pf 0.400 I l'-0 Pe 12'-I I Pv I 0'-1 Pf O.G52 I l'-0' Pe 4.371 21 •-1 ;Pv 7'-SiPf 0.538 I 0'-0; Pe ' 17'-5' Pv 20'-7¼: Pf 0.891 13'-0; Pe : 33'-71/4; Pv ' 4'-7¾[ Pf 0.415 ' I l'-0: Pe i I 5'-7¾1 Pv l I 0'-0, Pf 0.557 ! I l'-Oi Pe 4.335 21'-0:Pv ' 4'-7¾' Pf 0.415 ! I I '-0 Pe I 5'-73/4 I Pv ' 7G'-43/4 i Pf 2.47G I 7'-0' Pe 93'-4¾:Pv 28'-81/2; Pf 5.45G 27'-0: Pe 4T r( I '-0), 2E( I I '-0), red( I '-0) i 55'-81/2: Pv 0.10319G 0'-0' Pf 0.381 ! 3'-81/4 Pe LtE(3'-81/4) 3'-81/4 Pv 0.10319G 7'-1 i Pf 1.1 12 i 3'-81/4! Pe 3.072 LtE(3'-81/4) ! I 0'-91/4 i Pv 0.003270 ! 2'-Gl/2 i Pf 0.038 9'-0¾: Pe LtE(9'-0¾) I l'-7iPv 0.00042G I l'-0 Pl 0.019 33'-11/4 Pe 2.83G E(22'-0¾), Ee2( I I '-Ol/2) 44'-I. Pv 0.00043G GG'-53/4' Pf 0.073 100'-I¾' Pe 0.000 CV(49'-31/2), PIV(4'-71/2), I GG'-71/4, Pv T(4G'-21/2) 0.0001 17 383'-3¾' Pf 0.054 79'-I I¾' Pe 3.243 3EE( 13'-7), 2LtE( 19'-71/2) 4G3'-31/2, Pv 0.000104 ; 8'-31/2, Pf 0.003 : 22'-0¾ Pe -3.595 LtE(22'-0¾) 30'-4¼;Pv ...0.000104 O'-Oi Pl 7.500 l,:H-\--C 1/4..f-:"\ 0 'w 'Pe -0.001 BFP(-7 500) 0'-0,Pv 0.000104 o·-o: Pl 0.002 22'-0¾ Pe -0.000 LtE(22'-0¾) 22'-03/4 Pv 01/2G/2007 IO:IG:22AM ~~~g I Hydraulic Analysis I Job Number: C-I 97 4 ... Report Description: VILA I -BLDG. 5G P\Pe Type' Diameter Flow Veloc1tl' HWC Friction Loss Lenqth Pressure Downstream Elevation D1schar<=1e K-factor Pt Pn F1ttrnqs Eq. Lenqth Summary Upstream Total Lencith UG 8.3900 0=117.G9 O.G8 C=l40 0.000104 7'-2½ Pf 0.003 27 221 '-9 59.7G2 22'-03/4 Pe 3. 125 28 2 i 4'-GV2 G2.890 LtE(2 2'-03/4) 29'-3V4 Pv UG 7.9800 0=1I7.G9 0.75 C=l50 0.0001 17 2 I '-4V2 Pf 0.012 28 214'-G½ G2.890 78'-5¾ Pe 29 2 I 4'-Gl/2 G2.901 LtE( I 9'-71/2), GV(G'-Ol/2), 99'-I 01/4 Pv T(52'-93/4) UG I I .G500 0= I I7.G9 0.35 C=l50 0.000019 348'-91/4 Pf 0.007 29 214'-G½ G2.901 25'-53/4 Pe 4.374 30 204'-51/2 G7.283 Ee I ( I 7'-51/4), GV(8'-0l/2) 374'-3 Pv _QL 1 I.G500 0= I 17._~----0.35 C=l50 0.000019 149'-9V4 Pf 0.005 30 204'-51/2 G7.283 I 3 I '-43/4 Pe O.OOG 31 204'-51/4 G7.294 2GV(8'-0l/2), 2EE( I 7'-5¼), 28 I'-I 3/4 Pv T(80'-5¼) DY 13.1240 O=l I7.G9 0.28 C= 120 0.00001 G 0'-0 Pf 0.000 31 204'-5V4 G7.294 l'-0 Pe 0.177 32 204'-0¼ G7.47 I GV, PrV( I '-0) 1'-0 Pv QG 15.9200 O= I 17.G9 ·--~-0.19 C=/50 0.000004 I 05'-IO½ Pf 0.001 32 204'-0¼ G7.47 I 141 '-3 Pe -I .2GI 33 20G'-I I V4 GG.21 I T( 141'-3) 247'-I 1/2 Pv UG G.2800 0=117.G9 I .22 C=/40 0.00042G 2'-91/2: Pl 0.003 33 20G'-I I¼ GG.21 I 4'-8¾· Pe 0.053 20G'-9¾ GG.2G8 GV(4'-8¾) ; 7'-G¼;Pv 34 UG G.0900 0= I I 7.G9 1.30 C=/50 0.00043G I 5'-53/4. Pf 0.007 34 20G'-93/4 GG.2G8 'Pe 0.000 ' 35 20G'-9¾ GG.275 I 5'-53/4; Pv UG G.2800 0= I I 7.G9 I .22 C=/40 0.00042G 18'-2¼ Pf 0.017 35 20G'-9¾ GG.275 I 22'-03/4 • Pe -5.717 220'-0 ' 40'-31Pv 3G G0.575 E(22'-03/4), 5 ! "iiti ••• • • Route 2 • • • • • DR 1.1010 0=27.83 9.38 C= 150 0.125348 I 1 '-0V4' Pf I .757 102 258'-4V2 q=27.83 K=7.4 14.140 Spr(-14.140) i 13'-0• Pe -0.188 2 258'-93/4 15.709 E(7'-0), T(G'-0) I 14'-0V4·Pv Q •••• • Route 3 • • • • • DR 1.1010 0=32.11 10.82 C=/50 0.1 G339G I 0'-8V4 Pf 1.25G , 104 253'-I I V2 q=32.1 I K=7.4 18.833 Spr(-18.833) ' 7'-0 Pe -0.298 I 50 254'-73/4 19.791 E(7'-0) ! 7'-81/4, Pv AO 1.1010 0=32.11 10.82 C=l50 0.1 G339G ! 10'-5° Pf 3.337 50 254'-7¾ 19.791 ' 10'-0 Pe 51 254'-73/4 23.128 T(I0'-0) 20'-5 Pv CM 2.0030 0=54.57 5.5G C=/50 0.023G37 ! 58'-0, Pf 1.797 51 254'-73/4 23.128 ! 18'-0' Pe ' 52 254'-73/4 24.924 8Tr( I '-0), T( I 0'-0) i 7G'-O:Pv CM 2.0030 0=54.57 5.5G C=/50 0.023G37 i 2'-0 Pf 0.307 52 254'-73/4 24.924 ! I l'-Oi Pe 53 254'-7¾ 25.231 E( I 1 '-0) 13'-0iPv FR 2.0030 0=54.57 5.5G C= 150 0.023G37 ! I 0'-1, Pf 0.498 53 254'-7¾ 25.231 i I l'-O: Pe 4.371 54 244'-G¾ 30.101 E( I I '-0) 21 '-I :Pv CM 2.0030 0=54.57 5.5G C= 150 0.023G37 ! 7'-5i Pf 0.41 I 54 244'-G3/4 30.101 10'-0; Pe 55 244'-G3/4 30.513 T(I 0'-0) ' 17'-5 Pv CM 2.0030 0=59.G3 G.07 C=l50 0.02784G 20'-3. Pf 0.92G 55 244'-G¾ 30.513 ' 13'-0, Pe 5G 244'-G¾ 31 .438 2Tr( I '-0), E( I I '-0) 33'-3'Pv CM 2.0030 0=59.G3 G.07 C=/50 0.02784G ' 4'-81/4 Pf 0.437 5G 244'-G3/4 31 .438 j I l'-0, Pe 57 244'-G¾ 31.875 E(I I '-0) 15'-81/4 Pv FR 2.0030 0=59.G3 G.07 C=/50 0.02784G I 0'-0. Pf 0.585 57 244'-G¾ 31.875 ' I 1'-0 Pe 4.335 58 234'-G¾ 3G.795 E( I 1'-0) i 21'-0.Pv CM 2.0030 0=59.G3 G.07 C= 150 0.02784G ' 4'-8V4: Pf 0.437 , I I '-0. Pe 58 234'-G¾ 3G.795 i 59 234'-G3/4 37.232 E( I 1 '-0) I 5'-8V4: Pv CM 2.0030 0=59.G3 G.07 C=/50 0.02784G ! GT-I 0V4 Pf 2.335 59 234'-G3/4 37.232 I I G'-O! Pe I 13 234'-G¾ 39.5G8 GTr( I '-0), T( I 0'-0) 83'-101/4 Pv -.. . . • Route 4 • • • • • DR 1.1010 0=32.IG 10.84 C=l50 0. I G3804 5'-5 Pf 4.819 103 253'-2½ q=32.IG K=7.4 18.884 Spr(-18.884) 24'-0 Pe -O.G23 4 254'-7¾ 23080 2E(7'-0), T( I 0'-0) 29'-5 Pv ~ .. . . • Route 5 • • • • • /h © M.E.P.CAD, Inc. •:i9AutoSPRINK® VR5 v5.2.G 01/2G/2007 IO:IG:22AM Paqe 5 <~~g jHydraulic Analysis " ; eport escnpt1on: VILA I -BLD l R D Job Number: C-/ 97 4 G 5G Pi["e T','E:e • Diameter Flow Veloc1t',' HWC ---Friction Loss Leno,th Pressure Downstream Elevation D1scharo,e K-factor Pt Pn F1ttmo,s Eo,. Leno,th Summary Upstream Total Lencith CM 2.0030 0=22.4G 2.29 C=l50 0.004574 I I '-33/4 Pf O.OGI --- 3 254'-73/4 23.0U 2'-0 Pe 51 254'-73/4 23. 128 2Tr( l'-0) 13'-3¾ Pv M" • . . . . Route b • • • • • CM 2 0030 0=5.05 0.51 C=l50 0.000290 I 03'-43/4 Pf 0.033 - 8 244'-G¾ 30.480 I 0'-0 Pe 55 244'-G3/4 30.513 I OTr( l'-0) I 13'-4¾ Pv Eo,u1valent Pipe Leno,ths of Valves and F1tt1no,s (C = I 20 only) • C Value Multiplier • ( Actual Inside Diameter ) 4.87 Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter = Factor Mult1plymci Factor 0.713 1. IG 1.33 I .51 Pipe Type Legend I Units Legend I Fittings Legend I AO Arm-Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot Ano,V Ano,le Valve CM Cross Mam Flow gpm b Bushino, DN Drain D1scharo,e gpm BalV Ball Valve DR Drop Velocity fps BFP Backf/ow Preventer DY Dynamic Pressure psi BV Butterfly Valve FM Feed Main Leno,th Foot C Cross Flow Turn 90° FR Feed Riser cplo, Coup/mo, MS Miscellaneous Friction Loss psi/Foot Cr Cross Run OR Outno,o,er HWC Hazen-W11/1ams Constant CV Check Valve RN Riser Nipple Pt Total pressure at a point m a pipe De/V Delu<1e Valve SP Spno, Pn Normal pressure at a point 1n a pipe DPV Dry Pipe Valve ST Stand Pipe Pf Pressure loss due to friction between points E 90° Elbow UG Underwound Pe Pressure due to elevation difference between 1nd1cated EE 45° Elbow points Eel I I ¼0 Elbow Pv Velocity pressure at a point in a pipe Ee2 22½0 Elbow I Flow Device FDC Fire Department Connection IE 90° F1relock(TM) Elbow IEE 45° F1reLock(TM) Elbow 1/o, Flano,e FN Floatino, Node fT F1relock(TM) Tee 0, Gauo,e GloV Globe Valve GV Gate Valve Hose Hose HV Hose Valve Hyd Hydrant LtE Lono, Turn Elbow mecT Mechanical Tee Noz Nozzle Pl Pump In P2 Pump Out PIV Post lnd1catino, Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reduc1no, Valve red Reducer/Adapter s Supply sCV Swino, Check Valve Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run u Union Wirf W1rsbo WMV Water Meter Valve z Cap ~ © M.E.P.CAD, Inc. 1liSAutoSPRINK® VR5 v5.2.G Ol/2G/2007 10:IG:22AM Pao,e G ~~~~ I Hydraulic Graph I Job Number: C-1974 • Report Description: VILA I -BLDG. SG . ~ ~ Supply at Node 3G 100 -------90 ---- ----80 -------- 70 -Static Pressure 67.500 -I I --1185.00 @ 63.000 ---_217 .69 with hose streams 60-= 117.69@ 60.575 -----'iii a. t 50 ::} -V, -V, -Q) -ct -----40 ------- 30 System demand curve ---------20 ---------10 -- ---- 0 -,.,, '"'111111 111111111 111111111 111111111 111111111 111111111 I I I I I I I I I I I I I I I I I I I I I ~50 300 450 600 750 900 1050 1200 1350 1500 Water flow, gpm Hydr;auhc Gr;,ph Supply at Node 3G 5t;it,c Pre!>!>vre G7.500 R.e~•duill Pre!>!>ure I 185.00@ G3.000 Av;,,l,1ble Pre!>!>vreT,me of Te~t 67.304 @ 2 I 7.G9 5v!>tem Dem.;nd I 17.G9 @ G0.575 5:v!>l<"m Demar,,::! /!r.cJudrrt,:; tio!>e Allowance) 217.G9@ G0.575 f1t_, © M.E.P CAO, Inc. •:I, AutoSPRINK® VRS vS.2.G 0i/2G/2007 10:IG:37AM Job Number: C-I 974 ,. Report De5cnpt,on: VILA 3 -BLDG. 54 I Job Jc:' 11.,...-,rl!'· c ... ~,::,,. ~r;.:;,r,!',"! C-: 9·74 Hlt\/1ANSHU -----·------·---·-------·----------------------- _,c::: ; ,~·-t =t ~: <" C ,!'r'..!,c;;t,cr.'L,.:cer,~c tl._,,,-,ce· CARLSBAD RANCH RESORT ·-------· :.~,~'tt: ;.,...-,J VILLA 3-BLDG. 54 --~c=-•----Jc:: ~•l<" 1704 DRAKE WAY (,i, ::C-tJtc :,i; (CC-1!' D,·v.,n ... 11-m· CARLSBAD CA 92008 c-I974 hyd. calc v,lla 3.cad Sv5tem Remote Area(5) l.',c!"i Oem;;.r,c, '•" Son'>l-le, [;.;;t.; Ccc"""'·'._ -7.4 K-factor 25.59 at I 1.%0 Manually Calcui,ted ~--- r-,c~<" i.,:o,• . .;r,cl!' :.1 !;;c.•r'-<" Oc-n~•h :.rei o! t..,:;,:,l,.;..;;t,or, 10000 NA NA /l ·.,,t.,'l".Olr--."' ""•H:mf,,-<, llu,nt>er Ol 5or,n~!er~ C.;1,:.,IJtee: Cc,-e,,;oe fer 5or,n~ler Node Flow(gem) 4 NA Aut0Fe,1l Ri!':-;ult~. Fre~~"'e For R.emot<" 11re.;f!:) A,:i1o1cer>t ic Uo~t -'.err.at<" Are,; lotJ! ho!le Stre;im!, 100.00 5v=,tem flow Demand Total W,1ter Re~uired (lncludmo, Ho!le Allow;once) I 13.27 213.27 MJ~1mvm Fre:o:ovre Unbil.ince ln loop:, ! 0.000 Mi>imvm Veloc,tv Al:;ove Ground I I 7. I 5 between nodes 4 and 3 I Mi>•mum Vetoc,tv Under Grovnd I .25 between nodes 22 and 18 ; Volume Cip,c,ty of Wet P,pe:> Volume c:..p;,c,ty of Dry P,pe:- I I 3350.J.jCjal I 5upplie5 ~ \ (_)·,,, 'f't.~f)VC """{ L.()'(\I. Ho5e Flow Static Residual @ Flow Available @ Total Demand Reciu1red ; Safety Marcim Node (cii?m) (i:?51) (1?51) (cil?m) (p51) (cirm) (rs,) (i?SI) 3G 100.00 ' G7.500 G3.000 ; I 185.00 G7.31 I 213.27 57.520 9.792 0=?.' re\ -t.J _, I oZ~O -cc) Contractor I r:nntr:ir.t.n, U,,mh,..r f'.n,.t.:irt Ihm,.. I r:n .. hr.t T,u,.. Cl859 Contr;ctor tJ;me P"hone E•ten:-,on WESTERN FIRE PROTECTION ! Adcl•e?>!:, 1 FA""I. I 2232 THATCHER COURT A,:ldre!:,!:, .2 E-r,,.;.i I--C,t)• ·=it_-te 2,p Code Wet;-=i,te POWAY CA 920G4 1£t., © M.EPCAD, Inc. •:~~AutoSPRINK® VR5 v5.2.G 0 I /2G/2007 I 0: I 8:4 I AM Pacie I i~~g ['Su":nmary Of Outflowing Devices I Job Number: C-I 974 ~. i<.eport Descnpt,on: VILA 3 -BLDG. 54 Actual Flow Minimum Flow K-factor Pressure Device (cwm) (cwm) (K) (ps,) r-'~ Sprinkler 101 25.59 25.59 7."1 I 1.9GO _:__-:,·' -·----·--------- ____ 2Ennkler 102 27.01 25.59 74 13.322 ------------·-·-------------- Sprinkler 104 31 .71 25.59 74 18.3G3 -- S<?r,nkler 103 28.% 25.59 7.4 15.319 c) Most Demand,nCJ Sprinkler Doto -· &, © M.EP.CAD, Inc. •1!9AutoSPRINK® VR5 v5.2.G 01/2G/2007 I 0: I 8:47AM PaCJe 2 I Node Elevat1on(Foot) F1ttinCJ5 22 220'-I I¼ T(4G'-2½) 23 2 20'-I __ i l/4 T(4G'-2V2) 18 220'-! I¼ ---,17 227'-53/4 LtE(9'-0¾) IG 227'-53/4 LtE(3'-8V• l 15 234'-G3/4 LtE(3'-8¼) -14 234'-G3/4 cplca(2'-0). red( I '-0) ! 255'-2 E(7'-0J 24 2 I 3'-5V2 LtE( I 9'-71/2) --25 221 '-9 T(35'-0), T(59'-4V2) -2G 221 '-9 BFP(-7.500) 28 2 I 4'-GV2 LtE(2 2'-03/4) t---·· 27 221 '-9 LtE(22'-0¾) 2 255'-2 T(G'-Ol. Tr( I '-0) 58 234'-f.3/4 E(I l'-0) 57 244'-f.3/4 E( I l'-Ol 5G 244'-f.3/4 2T(I0'-0) 59 234'-G¾ T( 10'-0) 9 244'-G3/4 2T(I0'-0) 12 234'-f.3/4 T( 10'-0) I I 234'-G3/4 E( I I '-Ol 10 244'-G¾ E( I I '-0) 52 255'-2 2T( I O'-Ol 54 244'-f.3/4 E( I I '-0) 53 255'-2 E( I I '-0) 7 244'-G¾ Er I I '-Ol G 255'-2 E( I I '-0) 5 255'-2 2T(l0'-0) 29 214'-Gl/2 T(52'-93/4) 50 255'-2 T(G'-Ol 3 255'-2 T(G'-0). Tr( I '-0) 55 244'-G¾ T( I O'-Ol 13 234'-G3/4 . 2T( I 0'-0) 8 244'-f.3/4 T( 10'-0) Tr( I '-OJ 51 255'-2 T( I 0'-0), Tr( I '-0) 4 255'-2 • T( 10'-0J 33 20G'-I / 1/4 • 2T(l4 l'-3l 34 20G'-9¾ GV(4'-83/4) 35 20G'-9¾ 30 204'-5½ C(80'-51/4l. C(50'-0l 32 204'-01/4 ; PrV( I '-0) 31 204'-51/4 Tr80'-5¼) 101 253'-I I 3/4 • Srr(-I I .9GOJ 102 253'-I / 3/4 Srr(-13.322) 104 254'-8¾ _ St1r(-18.3G3l 103 254'-I 01/4 , Srr(-I 5.31 9) 3G 220'-0 '5 ~ © M.E.P.CAD, Inc. •:i9 AutoSPRINK® VR5 v5.2.G Pre55ure(p51) --·----------····· "19.481 49.503 --------··--·---· 49.385 ---------·----. 4G.53G ---4G.50 I ------42.393 --·-· 42.038 ------ !4. ! 20 ----------________ 52.797 49.209 ··-··· 5G.708 --------- ··-------59.838 ___________ 5G.7 I 0 14.943 35.744 30.894 30.578 3G.04 I -30.GGO 3G.184 35.880 30.99G 23.179 28.811 23.G81 ' 28.794 23.G35 23.1 IG 59.849 20.720 : 17.2G5 29.124 ! 38.Gl7 29.124 21 .42G i 21.318 : G3.158 G3.214 G3.22 I G4.230 G4.4 I 7 f.4.241 11.9GO 13.322 18.3G3 ! 15.319 l 57.520 Job Number: C-I 97 4 Report De5cnpt1on: VILA 3 -BLDG. 54 D15charC]e(CJpm) ---- --------·--·-- ·----------- - - : ' ' ' 25.59 ' 27.01 31.71 28.% I 13.27 0 I /2G/2007 I 0: I 8: 53AM PaCJe 3 Job Number: C-I 97 4 ... ' Report Description: VILA 3 -BLDG. 54 I P,i:ie Tvi:ie Diameter Flow Veloc,t HWC Friction Loss Lenci th Pressure Downstream Elevation D,scharcie K-factor Pt Pn F1tt1ncis Eq. Lenqth Summary Upstream Tota I Lenqth @ •• .. • Route I . . . . . DR ! .!010 0=25.59 8.G2 C=!50 01073(1 3'-11 Pf 2.675 ·------· 101 253'-I I 3/4 ci=25.59 K=7.4 ! ! .9GO Spr(-! I %0) 21'-0 Pe -0.515 I 255'-2 14 !20 3E(7' OJ 24'-I I Pv AO 1.1010 0=25.59 8.G2 C=l50 0.1073G i 5'-8 Pf 0.823 -·--·· I 255'-2 14.120 2'-0 Pe 2 255'-2 I 4.943 2Tr( I '-0) 7'-8 Pv BL 1.3940 0=52.GO I I.0G C=!50 0. ! 29017 I G'-0 Pf 2.322 2 255'-2 14.943 2'-0 Pe 3 255'-2 17.2G5 red( I '-0), Tr( I '-0) 18'-0 Pv BL ------· 1.3940 0=81.5G 17.15 ____ C= 1_50 0.29045G ... 3'-1 I½ Pf 4.053 3 255'-2 17.2G5 10'-0 Pe 4 255'-2 21.318 T(I0'-0) 13'-I I V2 Pv CM 2 0030 0=57.4G 5.85 C=l50 0.02G004 43'-I¾ Pf 1.798 -, 4 255'-2 21 .318 2G'-O Pe 5 255'-2 23.1 I G 5Tr( I '-0), E( I I '-0), T( I 0'-0) G9'-I¾ Pv CM 2.0030 0=57.4G 5.85 C=l50 0.02G004 8'-11¼ Pf 0.519 5 255'-2 23.1 IG I l'-0 Pe G 255'-2 23.G35 E(I l'-0) I 9'-I I ¼ Pv FR 2.0030 0=57.4G 5.85 C=l50 0.02G004 I 0'-7V4 Pf 0.5G2 G 255'-2 23.G35 I l'-0 Pe 4.597 7 244'-G3/4 28.794 E( I I '-0) 2 l '-7V4: Pv CM 2.0030 0=57.4G 5.85 C=l50 0.02G004 2'-8V2' Pf 0.330 7 244'-G3/4 28.794 I 0'-0; Pe 8 244'-G¾ 29.124 T(I 0'-0) I 2'-8V2' Pv CM 2.0030 0=57.G I 5.87 C=/50 0.02GI 31 3G'-9V4i F'f 1.53G 8 244'-G¾ 29.124 22'-0: Pe 9 244'-G¾ 30.GGO 2Tr( I '-0), 2T( I 0'-0) 58'-9¼ i F'v CM 2.0030 0=57.GI 5.87 C=l50 0.02Gl31 I'-I 0V41 Pf 0.33G 9 244'-G3/4 30.GGO 11'-0i F'e 10 244'-G3/4 30.99G E( I 1 '-0) I 2'-1 OV4l F'v FR 2.0030 0=57.GI 5.87 C=l50 0.02G 131 10'-0i Pf 0.549 10 244'-G¾ 30.99G 11'-0! F'e 4.335 I I 234'-G3/4 35.880 E(I l'-0) 21'-0lf'v CM 2.0030 0=57.GI 5.87 C=l50 0.02Gl3 I l'-7¾: Pf 0.304 I I 234'-G¾ 35.880 10'-0! F'e 12 234'-G¾ 3G.184 T(I 0'-0) I 1 '-7¾!F'v CM 2.0030 0=57.GI 5.87 C=/50 0.02Gl31 70'-I V4; Pf 2.433 12 234'-G3/4 3G.184 23'-0! Pe 13 234'-G¾ 38.G/7 2T( I 0'-0), 2T r( I '-0), red( I '-0) 93'-I V41 F'v FM 2.0030 0= I 13.27 I I .53 C=/50 0.091270 29'-5¾; F'f 3.421 13 234'-G¾ 38.Gl7 8'-o: Pe 0.000 14 234'-G3/4 42.038 ST r( I '-0), cplg(2'-0), red( I '-0) : 37'-5¾:F'v DY 2. I 570 Q= I 13.27 9.95 C=/20 0.096150 0'-0 F'f 0.355 14 234'-G¥4 42.038 3'-8V4 Pe 15 234'-G¾ 42.393 LtE(3'-8V4) 3'-8V4' F'v FR 2.1570 0= I 13.27 9.95 C=/20 0.09Gl50 7'-I : Pf 1.03G 15 234'-G¾ 42.393 ; 3'-8¼i F'e 3.072 IG 227'-5¾ 4G.501 LtE(3'-8V4) ! I 0'-9V4' F'v FR 4.02GO 0= I 13.27 2.85 C=/50 0.00304G 2'-GV2 I F'f 0.035 IG Bok 227'-5¾ 4G.501 9'-0¾' F'e 17 227'-53/4 4G.53G LtE(9'-0¾) I / '-7: Pv UG G.2800 0= I 13.27 1.17 C=l40 0.000397 I I '-8'. Pf 0.013 17 227'-5¾ 4G.53G 22'-0¾. F'e 2.83G 18 220'-I I¼ 49.385 E(22'-03/4) 33'-8¾'Pv UG G.0900 Q= I 13.27 I .25 C=l50 0.00040G I I 3'-4V4: F'f 0.095 18 220'-I I V4 49.385 I 2 I '-8V2 1 Pe -0.000 22 220'-I I V4 49.481 EE( I 0'-9V2). Ee2( I 0'-9V2), 235'-03/4 • F'v CV(49'-3V2), F'IV(4'-7V2), T(4G'-2V2) UG 7.9800 Q= I 13.27 0.73 C=l50 0.000109 189'-I. Pf 0.023 22 220'-I I V4 49.481 19'-7½'Pe 23 220'-I I V4 49.503 LtE( I 9'-7 V2) 208'-8V2 i F'v UG 7.9800 0= I 13.27 0.73 C=l50 0.000109 383'-33/4' F'f 0.050 23 220'-I I¼ 49.503 79'-I I¾. F'e 3.243 24 213'-5½ 52.797 3EE( 13'-7), 2LtE( 19'-7V2) 4G3'-3v2: Pv UG 8.3900 0= I 13.27 O.GG t.=/40 0.000097 8'-3½' Pf 0.007 24 2 I 3'-5I/z 52.797 59'-4V2 Pe -3.595 25 221 '-9 49.209 T(59'-4V2) G7'-8, Pv DY 8.3900 0= I 13.27 O.GG C= 140 0.000097 . 0'-0 F'f 7.500 25 221'-9 49.209 f)J-J.cL<t-toO Pe -0001 2G 221'-9 5G.708 BFP(-7500) 0'-0 Pv @t, © M.E.PCAD, Inc. •:i~AutoSPRINK® VR5 v5.2.G 0 I /2G/2007 I 0: I 8: 58AM Pacie 4 ~~~·g !Hydraulic Analysis , ... I Pipe Tyi::e Diameter Flow Veloc1t):'. Downstream Elevation D1scharcie K-factor Upstream DY 8.3900 O= 113.27 O.GG 2G 221 '-9 27 22 l'-9 UG 8.3900 0=113.27 O.GG 27 221 '-9 28 214'-Gl/2 UG 7.9800 0= I 13.27 0.73 28 2 14'-Gl/2 29 2 I 4'-Gl/2 UG I 1.G500 O= I 13.27 ___ 0.34 29 2 14'-Gl/2 30 204'-51/2 DY I 1.G500 0=113.27 0.34 30 204'-51/2 31 204'-5¼ DY 13.1240 0=113.27 0.27 31 204'-5¼ 32 204'-0¼ UG 15.9200 0= I 13.27 0.18 32 204'-0¼ 33 20G'-I I¼ UG G.2800 O= 113.27 1.17 33 20G'-I I¼ 34 20G'-93/4 UG G.0900 0=113.27 1.25 34 20G'-9¾ 35 20G'-93/4 UG G.2800 0=113.27 1.17 35 20G'-9¾ 3G 220'-0 ,.. ... • • Route 2 • • • • • DR 1.1010 0=27.01 9.10 102 253'-I I¾ q=27.0I K=7.4 2 255'-2 ..... ••Route 3 • • • • • AO 1.1010 0=28.9G 9.7G 103 254'-I O¼ q=28.9G K=7.4 3 255'-2 ~ ... • • Route 4 • • • • • DR 1./010 0=31.71 10.G9 104 254'-8¾ q=31.71 K=7.4 50 255'-2 BL 1.3940 0=31.71 G.G7 50 255'-2 51 255'-2 CM 2.0030 0=55.81 5.G8 51 255'-2 52 255'-2 CM 2.0030 0=55.81 5.G8 52 255'-2 53 255'-2 FR 2.0030 0=55.81 5.G8 53 255'-2 54 244'-G3/4 CM 2.0030 0=55.81 5.G8 54 244'-G3/4 55 244'-G3/4 CM 2.0030 0=55.GG 5.G7 55 244'-G3/4 5G 244'-G¾ CM 2.0030 0=55.GG 5.G7 5G 244'-G¾ 57 244'-G¾ FR 2.0030 0=55.GG 5.~_7. 57 244'-G3/4 58 234'-G¾ CM 2 0030 0=55.GG 5.G7 58 234'-G3/4 59 234'-G3/4 I&© M.E P.CAD, Inc. •:i~AutoSPRINK® VR5 v5.2.G HWC Pt Pn C= 140 5G.708 5G.710 C= 140 5G.710 59.838 C=l50 59.838 59.849 C=l50 59.849 G4.230 C=l50 G4.230 G4.24 I C=l20 G4.24 I G4.417 C=/50 G4.4 I 7 G3.158 C= 140 G3.158 G3.214 C= 150 G3.214 G3.22 I C= 140 G3.22 I 57.520 C= 150 13.322 14.943 C= 150 15.319 17.2G5 C=/50 18.3G3 20.720 C= 150 20.720 21 .42G C=/50 21 .42G 23.179 C=/50 23.179 23.G81 C=/50 23.G81 28.811 C=/50 28.811 29.124 C=/50 29.124 30.578 C=l50 30.578 30.894 C=/50 30.894 35.744 C=/50 35.744 3G.041 R eport D Friction Loss F1tt1ncis 0 000097 LtE(22'-0¾) 0 000097 LtE(2 2'-03/4) 0.000109 LtE( I 9'-71/2), GV(G'-01/2), T(52'-93/4) 0.000017 ··-·- Ee I ( I 7'-5¼), GV(8'-0l/2) 0.000017 2GV(8'-0l/2), 2EE( I 7'-5¼), T(80'-5¼) 0.0000!5 ·-- GV, PrV( I '-0) 0.000004 T(l 4 l'-3) 0.000397 GV(4'-83/4) 0.00040G 0.000397 E(22'-0¾), S 0.1 18G21 Spr(-1 3.322) E(7'-0). T(G'-0) 0.134982 Spr(-15.319) E(7'-0), T(G'-0) O. I 59G2G Spr(-I 8.3G3) E(?'-0), T(G'-0) 0.050588 T( I 0'-0) 0.024G40 Tr(2'-0), 5Tr( I '-0), E( I I '-0). T( I 0'-0) 0.024G40 E( I I '-0) 0.024G40 E( I I '-0) 0.024G40 T(I0'-0) 0.02451 G 2T r( I '-0), 2T( I 0'-0) 0.02451 G E(I I '-0) 0.02451 G E( I I '-0) 0.02451 G T(I0'-0) escnpt1on: I -L Job Number: C-1974 V LA 3 B DG 54 Lencith Pressure Eci. Lencith Summary Total Lencith 0'-0 Pf 0.002 22'-03/4 Pe -0.000 22'-0¾ Pv 7'-21/2 Pf 0.003 22'-0¾ Pe 3.1 25 29'-3¼ Pv 2 I '-41/2 Pf 0.011 78'-5¾ Pe 99'-I 01/4 Pv 348'-9¼ Pf O.OOG 25'-53/4 Pe 4.374 374'-3 Pv 149'-9¼ Pf 0.005 131'-4¾ Pe O.OOG 281'-I ¾ Pv 0'-0 Pf 0.000 l'-0 Pe 0.177 / '-01Pv I 05'-I 01/2 1 Pf 0.001 141'-31Pe -I .2GI 247'-11/2: Pv 2'-91/2; Pf 0.003 4'-8¾! Pe 0.053 I 7'-G¼.Pv 15'-5¾' Pf 0.00G j Pe 0.000 15'-5¾•Pv 18'-2¼1 Pf O.OIG ' 22'-03/41 Pe -5,717 I 40'-3; Pv 5'-0; Pf 2.13G ' 13'-0 Pe -0.515 ' 18'-0!Pv 2'-5 i Pf 2.082 13'-01 Pe -0.135 15'-5! Pv 2'-I I 1/2 1 Pf 2.54G 13'-0; Pe -0.190 I 5'-I I 1/2' Pv 3'-I I 1/2: Pf 0.70G I o•-o' Pe I 3'-I I 1/z; Pv i 43'-l¾i Pf 1.753 28'-0! Pe i 7 I '-I 3/4 i Pv 9'-43/4· Pf 0.503 I I '-0: Pe 20'-4¾ Pv I 0'-71/4. Pf 0.532 11'-0IPe 4.597 2 I '-7¼1Pv 2'-81/2 Pf 0.313 10•-o· Pe I 2'-81/2: Pv 37'-4, Pf I .455 22'-0, Pe 59'-4:Pv , ._, ov2: Pf 0.31 G I l'-O! Pe I 2'-I 01/2 [ Pv I 0'-0· Pf 0.515 11'-0 Pe 4.335 21 ·-o;Pv 2'-1 Pf 0.29G 10'-0 Pe I 2'-1 Pv 0 I /2G/2007 I 0: I 8:58AM Pao,e 5 Job Number: C-1974 -Report Descr1pt1on: VILA 3 BLDG. 54 I __f'!J::>tlYee Diameter Flow Veloc1t1' HWC Friction Loss Len"!th Pressure Downstream Elevation D1schar"le K-factor Pt Pn F1ttin"ls Ell. Len"!th Summary Upstream Total Lencith CM 2.0030 0=55.GG 5.G7 C=ISO 0.02451 G 80'-03/4 Pf 2.57G 59 234'-G¾ 3G.04 I 25'-0 Pe 13 234'-G3/4 38.G 17 ST r( I '-0), 21 ( I 0'-0) 105'-0¾ Pv @ •• . . . Route 5 • • • • • CM 2.0030 0=24.10 2.45 C=ISO 0.005212 I 8'-81/4 Pf 0108 4 255'-2 21.318 2'-0 Pe 51 255'-2 21 .42G red( I '-0), Tr( I '-0) 20'-81/4 Pv ...... . . . Route G • • • • • CM 2 0030 0=01_5 __ 0.02 C=l50 0 000000 ·-7G'-O¾ Pf 0.000 55 244'-G3/4 ____ 29.124 7'-0 Pe 8 244'-G¾ 29.124 7Tr( I '-0) 83'-03/4 Pv E"!u1valent Pipe Len"!ths of Valves and F1tt1n'1s (C= I 20 only) • C Value Multiplier • ( Actual lns,de Diameter ) 4 87 Value Of C 100 130 140 150 Schedule 40 Steel P,pe Inside Diameter = Factor Mult1plyin'1 Factor 0.713 I. IG 1.33 I .51 Pipe Type Legend I Units Legend I Fittings Legend I AO Arm-Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot An"!V An"!le Valve CM Cross Main Flow gpm b Bushin"I DN Drain D1schar'1e gpm BalV 5311 Valve DR Drop Velocity fps BFP Backflow Preventer DY Dynamic Pressure BV Butterfly Valve FM Feed Main psi C Cross Flow Turn 90° Len"!th Foot FR Feed Riser Friction Loss psi/Foot cpl"! Couplin"I MS Miscellaneous Cr Cross Run OR Outn"l"ler HWC Hazen-Williams Constant CV Check Valve RN Riser Nipple Pt Total pressure at a point in a pipe DelV Delu"le Valve SP Spn"I Pn Normal pressure at a point 1n a pipe DPV Dry Pipe Valve ST Stand Pipe Pf Pressure loss due to friction between points E 90° Elbow UG Under"!round Pe Pressure due to elevation difference between indicated EE 45° Elbow points Eel I 11/4° Elbow Pv Velocity pressure at a point 1n a pipe Ee2 221/2° Elbow f Flow Device FDC Fire Department Connection fE 90° F1relock(TM) Elbow fEE 45° F1relock(TM) Elbow fl"! Flan"le FN Float1n'1 Node . fT F1reLock(TM) Tee '1 Gaulle GloV Globe Valve GV Gate Valve Hose Hose HV Hose Valve Hyd Hydrant LtE Lon"! Turn Elbow mecT Mechanical Tee Noz Nozzle Pl Pump In P2 Pump Out PIV Post lnd1catin"I Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reduc1n'1 Valve red Reducer/Adapter 5 Supply sCV Sw1n'1 Check Valve Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run u Union Wirf W1rsbo WMV Water Meter Valve z Cap ~ © M E.P.CAD, Inc. •:i9Auto5PRINK® VR5 vS.2.G 0 I J2GJ2007 I 0: I 8:58AM ~f~g jHydraulic Graph I Job Number C-1974 " Report Description: VILA 3 -BLDG. 54 Supply at Node 3G 100 ---------90 --------80 ---------70 -Static Pressure 67.500 ---1185.00 @ 63.000 ----60 -,.213.27 with hose streams -113.27@ 57.520 --'iii -0.. --~ 50 ::; -(/) -(/) -~ -a_ -----40 ----- - -30-System demand curve -------20 ---------10 - - - 0 -.. ,, "'"11111 111111111 111111111 II II II II "'"" ' " ' ' " I ' I I I I I I I I I I I I I I I I I I I 0150 300 450 600 750 900 1050 1200 1350 1500 Water flow, gpm Hydrauhc Gr,1i,h Supply at Node 3G 5t.it,c Pre!>!'>ure G7.500 Re!'>id.,;;,1 Pre:,:iure I 185.00@ G3.000 Av.i,lable Pre!'>!'>urel,me of le!'>t G7.31 I @ 213.27 Sy:,tem Demand I 13.27 @ 57.520 ·-- 5v!>tem Dem.1nel {lnclud•l'l<"I Ho!>e Allowance) 2 13.27@ 57.520 ~ © M.E.P.CAD, Inc. •ll~ AutoSPRINK® VRS v5 .2 .G 0 i /2G/2007 I 0: I 9 08AM .. April 21, 2006 \IIKINai'' 1. PRODUCT NAME Viking Freedom® Residential Pendent Sprinkler SIN VK458t • Sprinkler Base Part Number 13230 t The Sprinkler Identification Number (SIN) is stamped on the sprinkler deflector. Available since 2005. 2. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058, USA Telephone: (269) 945-9501 (877) 384-5464 Fax: (269) 945-9599 e-mail: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION Viking's Freedom® Residential Pendent Sprinkler SIN VK458 is a thermosensi- tive glass-bulb residential sprinkler avail- able in various finishes and temperature ratings to meet design requirements. The orifice design, with a K-Factorof7.4, allows efficient use of available water supplies for hydraulically designed fire- protection systems. The fast response type glass bulb and special deflector combine speed of operation and areas of coverage to meet residential sprinkler standards. During fire conditions, the heat-sensitive liquid in the glass bulb expands, caus- ing the glass to shatter, releasing the 4. TECHNICAL DATA LISTINGS AND APPROVALS Refer to the Approval Chart on pg 140 w. Glass-bulb fluid temperature rated to -65 °F (-55 °C). Rated to 175 psi (1 207 kPa) water work- ing pressure. Factory tested hydrostatically to 500 psi (3 448 kPa). Testing: U.S.A. Patent No. 4,831,870 Thread Size: 3/4" (20 mm) NPT Nominal K-Factor: 7.4 U.S. (10,7 met- ric*) * Metric K-Factor shown is for use when pres- sure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. Overall Length: 2-5/16" (58,7 mm) SPRINKLER MATERIALS Frame Casting: Brass UNS-C84400 Deflector: Brass UNS-C51000 Bulb: Glass, nominal 3 mm diameter Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Compression Screw: Brass UNS-C36000 Pip Cap: Brass UNS-C31600 or Pip Cap and Insert Assembly: Copper UNS-C 11000 and Stainless Steel UNS-S30400 Pip Cap Attachment: Brass UNS- Sprinkler 140 w FREEDOM® RESIDENTIAL PENDENT SPRINKLER SIN VK458 (7.4 K-FACTOR) Part No. 12144W/B (available since 2003). NOTE: Recessed pendent sprinklers with protective caps must use wrench 12144W/B. **A½" ratchet is required (not available from Viking). Refer to the "Sprinkler Accessories" sec- tion of the Viking data book for informa- tion on sprinkler accessories. 6. INSTALLATION When using Viking Residential Sprinkler SIN VK458 for systems designed to NFPA 130 or NFPA 13R, apply the listed areas of coverage and minimum water supply requirements shown in the ap- proval chart on page 140 x. For systems designed to NFPA 13: The number of design sprinklers is to be the four contiguous most hydraulically demanding sprinklers. The minimum re- quired discharge from each of the four sprinklers is to be the greater of the following: • The flow rates given in the approval chart on data page 140 x for NFPA 130 and NFPA 13R applications for () each listed maximum area of cover-JJ"✓(\\ · age, Qr . • -• minimum discharge of 0.1 gpm sq. C36000 5. ACCESSORIES ft. over the "design area" consisting of the four contiguous most hydraulically ~ demanding sprinklers for the cover- age areas being protected by the four Sprinkler Cabinets: A. Six-head capacity: Part No. 01724A B. Twelve-head capacity: Part No. 01725A (avilable since 1971) Sprinkler Wrenches: A. Standard wrench: Part Number 10896W/B (available since 2000) or 05000CW/B (no longer available) B. Wrench for coated and recessed sprinklers**: Part No. 13577W/B (available since 2006) or Part No. 07398W** (available since 1990), or sprinklers. NOTE: The AS = S x L method must be used to determine the sprinkler protection area of cover- age er NFPA 13. Refer to "Viking Residential Sprinkler Installation Guide" pages (i-iv) for general care, installation, and main- tenance information. pip cap and sealing spring assembly. Water flowing through the sprinkler ori- fice strikes the sprinkler deflector, form-.• ing a uniform spray pattern to extinguish Sprinkler Temperature Classification ~ Ordinary Intermediate Sprinkler Nominal Temperature Rating1 155 °F (68 °C) 175 °F (79 °C) Maximum Ambient Bulb Cofor2 Ceiling Temperature2 100 °F (38 °C) Red 150 °F (65 °C) Yellow or control the fire. Available Sprinkler Finishes: Brass, Chrome-Enloy® (patents pending), W_hite, and Black Footnotes ,. 1 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. 2 The sprinkler temperature rating is stamped on the deflector. Table 1 Note: Units of measure in parentheses may be approximations. Form No. F _042005 Replaces page 140 w-x, dated October 14, 2005 (added listings for sloped ceilings). Refer to residential sprinkler technical data page (i-iv) for general care, installation. and maintenance information. .. Sprinkler 140 x Sprinkler Base NPT Thread Size Part Number3 Inches I mm 13230 3/4 I 20 Nominal K-Factor U.S. metric4 7.4 10.7 Maximum April 21, 2006 FREEDOM® RESIDENTIAL PENDENT SPRINKLER SIN VK458 (7.4 K-FACTOR) Overall Length Water Working Pressure Inches mm 175 psi (1 207 kPa) 2-5/16 58,7 Approval Chart ~ Temperature KEY Residential Pendent Sprinkler SIN VK458 (7.4 K-Factor) •.-Finish A 1 X ,._ Escutcheon (if applicable) For systems designed to NFPA 13D or NFPA 13R. Installed below smooth, flat, horizontal ceilings, including ceilings with slopes up to and including 2/12 (9.5°). Maximum Areas of Coverage6 Minimum Water Supply Requirements6 Listings and Approvals3 cULus4 NYC NSF8 J -~ 12' X 12' (3,7 rryf 3,7 mt 20 gpm@ 7.3 ,P§i (75,7 ~in@ 50,4)Pa) A1X --A1X 14' X 14' (4/m X 4,3~) 20 gpm @}'3 psi (7§,l'ltmin@ 5¢ kPa) A1X --A1X 16' x 16:A,9 m x 3/,9 m) 20 gpm./4 7.3 psW5,7 I/min @150,4 kPa) A1X --A1X 18' x.fa· (5,5 m /5,5 m) 22 \j'Pm@8.8;{si (83,3 l/mi(@60,9 kPa) A1X --A1X 2ofc 20· (6, 1 n< x 6, 1 m) 2/gpm@ v{5 psi (90,8 I/min @ 72,4 kPa) A1X --A1X Installed below sloped ceilings up to and including an 8/12 (33.7°) pitch7. Refer to Figure 1 on page 140 y. Maximum Areas of Coverage6 Minimum Water Supply Requirements6 Listings and Approvals3 ✓ cULus4•7 NYC NSF8 16' x 16' (4,9 m/4,9 m) 20 gpm@ 7.3 p{i (75,7 I/min fjJ 50,4 kPaJ B1X --B1X 16' X 16' (4,9ft X 4,9 rr/J 24 gpm@ 15)'.'5 psi (90,8 l/r¢h@ 72,4 y(a) C1X --C1X 18' x 18' W,5 m x 5,fm) 23 gpm (ff 9.7 psi (87,1 J/4,in @66,9'1<Pa) B1X --B1X 18' x 1t(5,5 m x/,5 m) 25 gp'}(@ 11.4 psi (9j0 I/min @ 716, 7 kPa) C1X --C1X 20' xflO' (6,1 mp 6,1 m) 24 !]i{m@ 10.5 psj,{90,8 I/min,£ 72,4 kPa) B1X --B1X 20' X 20' (6, 1 fh X 6, 1 m) 2/gpm@ 11.4 p;i (94,6 I/min @ 78, 7 kPa) C1X --C1X Approved Escutcheons Approved Temperature Ratings Approved Finishes X -Standard surface-mounted escutcheons or the Viking A-155 °F (68 °C) and 175 °F (79 °C) 1 -Brass, Chrome-Enloy®, While, Microfast® Model F-1 Adjustable Escutcheon9 or re-B -155 °F (68 °C) only and Black cessed with the Viking Micromatic® Model E-1 or E-2 C -175 °F (79 °C) only Recessed Escutcheon Footnotes 1 Base part number shown. For complete part number, refer to Viking's current price list. 2 Metric K-Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. 3 This chart shows the listings and approvals available at the time of printing. Other approvals may be in process. Check with the manufacturer for any additional approvals. 4 Listed by Underwriter's Laboratories, Inc. for use in the U.S. and Canada. 5 Listed for residential occupancies with smooth, flat, horizontal ceilings, including ceilings with slopes up to and including 2/12 (9.5°). 6 For areas of coverage smaller than shown, use the "Minimum Water Supply Requirement" for the next larger area listed. Flows and pres- sures listed are per sprinkler. The distance from sprinklers to walls shall not exceed one-half the sprinkler spacing indicated for the "Minimum Water Supply Requirement" used. 7 Areas under sloped ceilings must be measured along the ceiling slope. Actual floor coverage in the horizontal plane under sloped ceilings will be less than the listed area of coverage. 8 Tested and Certified by NSF to NSF/ANSI Standard 61, Drinking Water System Components. 9 The Viking Microfast® Model F-1 Adjustable Escutcheon is considered a surface-mounted escutcheon because it does not allow the fusible element of the sprinkler to be recessed behind the face of the wall or ceiling. '\\(\ , N l fYYV f') ft\ f)~ ,2- w~·1;Jt_ 5V@Pt.y N~1f~ )3 - {At;({ U\ IZ. b' l'Y\ E-JV\ M f\-t · ] G 'X \ G 1 ( 0 \) • ... April 21, 2006 Maximum ceiling slope= 8/12 (33.7°). I I I I '·--·---t / y<-,. __ _ Refer to the Approval _/: ·------------, . ..._ _ Chart for listed I '·, areas of coverage. I I I I Sprinkler 140 y FREEDOM® RESIDENTIAL PENDENT SPRINKLER SIN VK458 (7.4 K-FACTOR) Listed areas of coverage correspond to areas measured along the ceiling slope. (For sloped ceiling installations, actual floor coverage in the horizontal plane under sloped ceilings will be less than the listed area.) /_,./ Notes: 1. Actual installations may require multiple sprinklers. A single sprinkler installation has been shown for clarity. 2. For "cathedral" ceiling applications, install sprinklers in a symmetrical mirror-image of Figure 1. 3. For areas of coverage smaller than the listed areas, use the "Minimum Water Supply Requirements" for the next larger listed "sloped" spacing. Refer to the Approval Chart on page 140 x. Figure 1: Installation Instructions -Sloped Ceilings LOBE. AUTOA1ATIC SPR/JVJ(LERS FIRE SPRINKLER CORPORATION GL SERIES RECESSED PE1VDE~NT RECESSED HORIZONTAL SIDEWALL DESCRIPTION AND OPERATION The Globe Quick Response GL Series Sprinkler is a low profile yet durable design which utilizes a 3mm frangible glass ampule as the thermosensitive element. This provides sprinkler operation approxi- mately six times faster than ordinary sprinklers. While the Quick Response Sprinkler provides an aesthetically pleasing appearance, it can be installed wherever standard spray sprinklers are specified but offers the additional feature of greatly increased safety to life. Quick Response Sprinklers should be used advisedly and under the direction of approving authorities having jurisdiction. The heart of Globe's GL Series sprinkler proven actuating assembly is a hermetically sealed frangible glass ampule that contains a precisely measured amount of fluid. When heat is absorbed, the liquid within the bulb expands increasing the internal pressure. At the prescribed temperature the internal pressure within the ampule exceeds the strength of the glass causing the glass to shatter. This results in water discharge which is distributed in an approved pattern depending upon the - /. QUICK RESPONSE • RECESSED PENDENT deflector style used. L {\ \) N OR~ J l~ \_ ~ \_'-\ ~ l C' f\L- 9: Q_\~ 0-. \\_Qc)\V\ TECHNICAL DATA .a See reverse side for Approvals and Specifications. "Temperature Ratings -I 35°F (57°C), I 55°F (68°C), I 75°F (79°C), 200°F (93°C), 286°F (141°C). 0 Water Working Pressure Rating -175 psi ( 12 Bars). • Factory tested hydrostatically to 500 psi (34 Bars). • Maximum low temperature glass bulb rating is -67°F (-55°C). • Frame -bronze • Deflector -brass I('; Screw -brass " Bulb seat -copper 0 Spring -nickel alloy " Seal -teflon " Bulb -glass with alcohol based solution, 3mm size. 0 Escutcheon Assembly -steel QUICK RESPONSE RECESSED HORIZONTAL SIDEWALL • SPRINKLER TEMPERATURE RATI1VG/CLASSIFICATION and COLOR CODING CLASSIFICATION ORDINARY ? INTERMEDIATE / HIGH AVAILABLE SPRINKLER TEMPERATURES BULB COLOR N.F.P.A. MAXIMUM CEILING TEMPERATURE •s.C=, 1}5,ffLl~-?~L • ... v:.C:t6~~C::J,·.. ORANGE/RED • IQ0~L,. •• )j'~tc ';" .. _ ..... __ · 175?Ff2Q0°F 79°C/9rC . YELLOW/GREEN . 150°F 66°C 2• ·a6°" ••• • '.· 1'41 °c·· •• • BLUE _-·-.··-'. ···• .. ·,2· ·2•.·s-:. c. ...... -... -··.· .. ·.-,-.. •·.· ... ····· · ',.•.,·•.·.·1·0''.·, .. z,-.~;.,. ....... ',~-' .. :.-.•. '.,•••.,;.,_'-~. f7,z•::·;;,,?'.,· .. ,re~,;;, •:":fcC:"':,i·,f:Ci_ic._'''i· __ -,·~•.:••ci::•. -·-.• o --"--·---·--.--• -·""-"".''_ , ... 4077 AIRPARK DRIVE, STANDISH, MICHIGAN 48658 OCTOBER 2003 A-24 989-846-4583 • FAX 989-846-9231 BULLETIN GL2801, REV. #4 AUTOMATIC SPRJl\TKLERS GL SERIES RECESSED PENDENT RECESSED HORIZ01\TTAL SIDEWALL SPECIFICATIONS NOMINAL "K" FACTOR THREAD SIZE *LENGTH FINISHES 2.8 (39 metric) 1/2" NPT 2 1/4" (5.7 cm) Factory Bronze 4.2 (59 metric) 1/2" NPT 2 1/4" (5.7 cm) ,jcfcSatin Chrome Bright Chrome ~5.6 (80 metric) 1/2" NPT 2 1/4" (5.7 cm) White Polyester+ 7.8 ( 11 I metric) 1/2" NPT 2 1/4" (5.7 cm) Black Polyester+ 8.1 ( I 16 metric) 3/4" NPT 2 7/16" (6.2 cm) ,jcfclead Coated NOTE: METRIC CONVERSIONS ARE APPROXIMATE. *HORIZONTAL SIDEWALL IS 2 9!16". SIN K I35°F STYLE MODEL FACTOR s1°c GL2801 2.8 X GL4201 4.2 X PENDENT ,...GL5601 S.6 X RECESSED_/. GL8101 7.8* X GL8106 8.1 X GL2826 2.8 X HORIZONTAL GL4226 4.2 X SIDEWALL RECESSED § GLS626 5.6 X GL8127 8.1 X ""'FINISHES AVAILABLE ON SPECIAL ORDER. +AVAILABLE AS cULus LISTED CORROSION RESISTANT WHEN SPECIFIED ON ORDER. APPROVALS Iss°F I75°F 200°F **286°F ... tt NYC-DOB I 68°C 19°c 93•c I4I°c cULus FM L.P.C. MEA I0I-92-E X X X X X ------X X X X X X ------X X X X X X X X X X X X X X X ---X X X X X X X X X X X X X X ------X X X X X X ----X X X X X X ------X X X X X X --------- CROSS SECTIONS § HORIZONTAL SIDEWALL cULus LISTED FOR DEFLECTOR 4" TO 12" BELOW THE CEILING. t5.6K ORIFICE. 7.8K ORIFICE AND 8.IK ORIFICE LISTED FOR ALL HAZARDS. • 7.8K X In'' NPT. ""286'F cULus LISTED ONLY. tt 1/2" RECESSED ESCUTCHEONS ARE REQUIRED FOR FM APPROVED SPRINKLERS. z-01,1,,. MIN. ICIL[INC[l.lHG PENDENT lri:;~"777 11/sa_-::::.. __J LOBE" FIRE SPRINKLER CORPORATION OCTOBER 2003 I r i / REl&UO> ../ HORIZONTAL SIDEWALL ORDERING INFORMATION SPECIFY • Quantity • Model Number • Style • Orifice • Thread Sizes • Temperature • Finishes desired • Quantity -Recessed Wrenches -PIN 325391 ( 1/2"); P/N 325401. Rev. F (LO.) • Quantity -Protective Caps -P/N 327109-CAP (Friction Fit Recessed) GLOBE®PRODUCTWARRANTY Globe agrees to repair or replace any of its own manufactured products found to be defective in material or workmanship fora period of one year from date of shipment. For specific details of our warranty please refer to Price List Terms and Conditions of Sale (Our Price List). 4077 AIRPARK DRIVE, ST AN DISH, MICHIGAN 48658 989-846-4583 1-800-248-0278 FAX 989-846-923 I www.globesprinkler.com PRINTED U.S.A. BULLETIN GL2801, REV. #4 \ -tqca I Fire & Building / Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 8lazellllaster ® CPIIC Fire Sprinkler Pipe & Fittings Sub,nittal Sheet General Description Tyco Fire & Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are designed exclusively for use in wet pipe automatic fire sprinkler systems. They are made from a specially devel- oped thermoplastic compound com- posed of post chlorinated polyvinyl chloride (CPVC) resin and state of the art additives. TFBP BlazeMaster CPVC products are easier to install than traditional steel pipe systems, and at the same time, provide superior heat resistance and strength as com- pared to traditional CPVC and PVC piping materials used in the plumbing trade. Various adapters are available to connect CPVC pipe to metallic pip- ing. All female pipe thread adapters have brass inserts for durability. Grooved adapters connect directly to grooved end valves and metallic pipe, with flexible grooved end couplings. WA.RN/NG Technical Data Sizes 3/4" to 3" Maximum Working Pressure 175 psi Approvals UL, FM, CUL, NSF, Dade County, LPCB, MEA, and the City of Los Ange- les. (Refer to IH-1900, Rev. 0, Janu- ary 2005 "Installation Instruction & Technical Handbook" for exact list- ing/approval information.) Manufacture Source U.S.A. Material • Pipe: ASTM F442, SOR 13.5 • Fittings: ASTM F438 (Sch. 40) and ASTM F439 (Sch. 80), ASTM F1970 Color Orange ti rapid response™ HOME ftRE SPRINKLER SYSTEM Tyco Fire & Building Products (TFBP) Blazel'vtaster CP\/C Pipe and Fittings described herein rnust be installed and rnaintained in cornpliance with this docurnent, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may irr,pair the performance of these de- vices. To \j T J p 1r-1Ncr, S(JJ6\C.T~-~ IN The owner is responsible for rnaintain- ing their fire protection systern and de- vices in proper operating condition. The installing contractor or sprinkler rnanufacturer should be contacted with any questions. Page 1 of 6 \--.i f\ lL ~0 ri,__ R \ \ t-'\'~ ~ U lV \ 1.s (i.PJ_-f JANUARY. 2006 BlazeMaster® is a registered trademark of Noveon IP Holding Corp. TC'D101 C Page 2 of 6 WATER NOMINAL AVERAGE AVERAGE WEIGHT FILLED WEIGHT SIZE O.D. 3/4" 1.050" ~1" 1.315" .. 1-1/4" 1.660" 1-1/2" 1.900" ..,,...¥ 2" 2.375" 2-1/2" 2.875" 3" 3.500" Installation Tyco Fire and Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are to be installed in accord- ance with IH-1900, Rev. 0, January 2005 "Installation Instruction & Techni- cal Handbook". I.D. lbs./ft. lbs./ft. 0.874" 0.18 0.44 1.101' 0.26 0.67 1.394" 0.42 1.08 1.598" 0.54 1.41 2.003" 0.84 2.20 2.423" 1.26 3.26 2.952" 1.87 4.83 FIGLJ~E 1 -PIPE DIN/ENSIONS Care and 11/laintenance The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stalling contractor or product manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. NOTES Before closing a fire protection systern control valve for inspection or rnainte- nance work on the fire protection sys- tern that it controls, perrnission to shut down the affected fire protection sys- tern rnust first be obtained frorn the proper authorities and all personnel who rnay be affected by this action rnust be notified. After placing a fire protection systern in service, notify the proper authorities and advise those responsible for rnoni- toring proprietary and/or central sta- tion alarrns. TFP1915 FT. OF PIPE WEIGHT PER LIFT PER LIFT lbs. 7875 1339 5040 1320 2835 1191 2205 1213 1260 1084 1215 1531 720 1344 TFP1915 Page 3 of 6 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD. WEIGHT TYPE NUMBER (T/0) (lb.) TEE 80000 314" 518" 40 0.11 _J~ -TIO 80001 1" 11116" 40 0.19 ,..._ I 80002 1-114" 718" 40 0.26 80003 1-112" 1-1116" 80 0.51 I 80004 2" / 1-318" 80 0.90 80005 2-1/2" 1-9116" 80 1.59 TIO TIO 80006 3" 1-13116" 80 2.41 XxYxZ X y z 80132 314" X 314" X 1" 314" 314" 518" 40 0.14 80133 1" X 314" X 314" 9116" 9116" 314" 40 0.14 80134 1" X 314" X 1" 3/4" 11116" 314" 40 0.17 80260 1"x1"x314" 518" 518" 13116" 40 0.16 80135 1-114"x 1"x314" 518" 518" 15116" 40 0.21 80136 1-114" X 1" X 1" 3/4" 314" 15/16" 40 0.22 80137 1-114" X 1" X 1-114" 15116" 15116" 718" 40 0.26 REDUCING TEE 80261 1-114" X 1-114" X 3/4" 518" 518" 718" 40 0.23 80262 1-1/4" X 1-1/4" X 1" 314" 314" 718" 40 0.26 z 80138 1-114" X 1-114" X 1-112" 1" 1" 1" 80 0.43 I~ t-8 TIO I 80140 1-112" X 1-114" X 314" 9116" 9116" 1" 80 0.36 i=:z.] 1f=1 80141 1-112" X 1-114" X 1" 9/16" 9/16" 1-1/16" 80 0.38 80263 1-112" X 1-112" X 314" 9116" 9116" 1" 80 0.36 X vi 80264 1-1/2" X 1-112" X 1" 9116" 9116" 1-1116" 80 0.38 , ~ 80275 1-1/2" X 1-112" X 1-114" 718" 718" 1" 80 0.45 TIO I TIO 80265 2" X 2" X 314" 314" 314" 1-318" 80 0.61 80266 2" X 2" X 1" 718" 718" 1-318" 80 0.66 80274 2" X 2" X 1-114" 1-1116" 1-1116" 1-318" 80 0.74 80267 2" X 2" X 1-112" 1-118" 1-118" 1-318" 80 0.78 80271 2-112" X 2-1/2" X 1" 1-9116" 1-9116" 1-9116" 80 1.43 80272 2-112" X 2-112" X 1-114" 1-9/16" 1-9116" 1-9116" 80 1.46 80273 2-1/2" X 2-1/2" X 1-112" 1-9116" 1-9116" 1-9116" 80 1.48 80276 2-112" X 2-112" X 2" 1-9116" 1-9116" 1-9116" 80 1.50 80270 3" X 3" X 1-112" 1-13116" 1-13116" 1-13116" 80 2.28 80268 3" X 3" X 2" 1-13116" 1-13116" 1-314" 80 2.25 80269 3" X 3" X 2-1/2" 1-13116" 1-13116" 1-13116" 80 2.44 CROSS & REDUCING CROSS 80009 314" 9116" 40 0.13 ~ ~ TIO 80010 1" 11116" 40 0.23 ......-< 80011 1-114" 15/16" 40 0.34 80012 1-112" 1-1116" 80 0.67 80013 2" 1-5/16" 80 1.00 -80014 2-112" 1-9116" 80 1.91 -t-TIO 80008 3" 1-13116" 80 2.89 TIO TIO 80015 1" X 1" X 314" X 314" 7/8" 40 0.28 90° ELBOW & 80025 314" 518" 40 0.09 REDUCING ELBOW 80026 1" 314" 40 0.14 80027 1-114" 716" 40 0.21 X 80028 1-1/2" 1-1116" 80 0.40 ~ 80029 2" 1-5116" 80 0.79 80030 2-112" 1-9116" 80 1.14 80031 3" 1-13116" 80 1.82 XxY X y 0 80032 1" X 314" 11116" 13116" 40 0.16 FIGURE 2 -F/TilNG DINIENSIONS (Part 1 of 4) Page 4 of 6 TFP1915 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD. WEIGHT TYPE NUMBER (T/O) (lb.) 45° ELBOW 80050 3/4" 3/8" 40 0.08 ~ JO 80051 1" 3/8" 40 0.11 80052 1-1/4" 3/4" 40 0.20 80053 1-1/2'" 1/2" 80 0.31 TIO 80054 2" 3/4" 80 0.56 80055 2-1/2'" 13/16" 80 0.89 80056 3" 1" 80 1.19 80075 3/4" 1/8" 40 0.07 COUPLING & 80076 1" 1/8" 40 0.11 REDUCING COUPLING 80077 1-1/4" 3/16" 40 0.12 c;g~ 80078 1-1/2" 3/16" 80 0.25 80079 2" 3/16" 80 0.38 80080 2-1/2" 1/4" 80 0.67 80081 3" 3/16" 80 0.91 80220 1" x3/4" 1/8" 40 0.08 80200 1"x 3/4" 7/16" 40 0.04 80201 1-1/4"x3/4" 1/2" 40 0.11 80202 1-1/4" X 1" 5/16" 40 0.12 80203 1-1/2" X 3/4" 5/8" 80 0.16 80204 1-1/2" X 1" 1/2" 80 0.14 REDUCER BUSHING 80205 1-1/2" X 1-1/4" 3/8" 80 0.17 80206 2"x3/4" 13/16" 80 0.27 J~1 80207 2" X 1" 11/16" 80 0.26 80208 2"x 1-1/4" 9/16" 80 0.24 80209 2" X 1-1/2" 7/16" 80 0.19 80215 2-1/2" X 1" 15/16" 80 0.42 80214 2-1/2" X 1-1/4" 13/16" 80 0.45 80213 2-1/2" X 1-1/2" 11/16" 80 0.46 80211 2-1/2" X 2" 5/8" 80 0.29 80210 3" X 2" 3/4" 80 0.72 80212 3" X 2-1/2" 1/2" 80 0.47 CAP 80100 3/4" 5/16" 40 0.04 80101 1" 3/8" 40 0.06 TQl 80102 1-1/4" 7/16" 40 0.10 80103 1-1/2" 11/16" 80 0.20 80104 2" 5/8" 80 0.31 80105 2-1/2" 7/8" 80 0.58 80106 3" 1" 80 0.88 GROOVED TIO PIPE O.D. COUPLING ADAPTER 80160 1-1/4" x 1-1/4" Groove 2-5/16" 1-1/4" (1.660") 40 0.78 cg ]' 80161 1-1/2" x 1-1/2" Groove 2-5/16" 1-1/2" (1.900") 80 0.95 80162 2" x 2" Groove 2-5/16" 2" (2.375") 80 1.42 80163 2-1/2" x 2-1/2" Groove 2-5/16" 2-1/2" (2.875") 80 2.28 T/O_j 80164 3" x 3" Groove 2-1/4" 3" (3.500") 80 3.00 80169 2-1/2" x 76.1 mm Groove 2-5/16" 76,1 mm (3.000") 80 2.28 FIGURE= 2 -F/TilNG DIMcNSIONS (Part 2 of 4) TFP1915 FITTING TYPE SPRINKLER HEAD ADAPTER Cl SPRINKLER HEAD ADAPTER ~ SPRINKLER HEAD ADAPTER (SPIGOT) FEMALE ADAPTER MALE ADAPTER ~ mrm tzzzz:~=~ WJ >-TIO j SPRINKLER HEAD ADAPTER TEE z ~~ =:l:'.A ~cz::z::J TIO I X y I l::zz:z:Z~,:z=::::21 TIO -,..-,..-+-TIO PART NUMBER 80175E 80176E 80175WL 80179 80175W 80176W 80177L 80178 80180 80142 80145 80146 80147 80148 80157 80158 80250 80251 80249 80256 80252 80257 80254 80258 80253 NOMINAL SIZE 314" x 112" NPT 1" x 1/2" NPT 314" x 1/2" NPT 1" x 314" NPT 314" x 112" NPT 1" x 112"NPT 314" x 112" NPT 1" x 112" NPT 1" x314"NPT 314" x 314" NPT 1'x 1"NPT 1-114" x 1-114" NPT 1-112" x 1-112" NPT 2" x2" NPT 314" x 314" NPT 1'x 1"NPT XxYxZ 314" X 314" x 112" NPT 1" x 1" x 112" NPT 1"x1"x1"NPT 1-114" x 1" x 112" NPT 1-114" x 1-114" x 112" NPT 1-112" x 1-1/4" X 112" NPT 1-112" X 1-112" x 1/2" NPT 2" x 1-112" x 112" NPT 2" x 2" x 1/2" NPT X 9116" 11/16" 15116" 7116" 7116" 112" 112" 112" 112" NOMINAL TAKE-OUT (T/0) 7116" 7116" 7116" 13/16" 112" 1/2" 112" 9116" 718" 13116" 7/8" 1-118" 1-318" 1-11116" 1-5/16" 1-318" y 9116" 11116" 15116" 9/16" 7116" 11116" 112" 518" 112" FIGURE 2 .._ FITTING Dl/1//ENSIONS (Part 3 of 4) z 1" 1-3116" 1-9116" 1-5116" 1-5116" 1-7116" 1-7/16" 1-11116" 1-11116" Page 5 of 6 SCHD. 80 80 40 40 40 40 40 40 40 40 40 40 80 80 40 40 40 40 40 40 40 80 80 80 80 WEIGHT (lb.) 0.20 0.22 0.16 0.43 0.19 0.18 0.16 0.20 0.40 0.41 0.63 1.03 1.42 2.66 0.33 0.56 0.22 0.29 0.73 0.30 0.31 0.43 0.46 0.56 0.62 Page 6 of 6 TFP1915 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD. WEIGHT TYPE NUMBER (T/O) {lb.) BACK-TO-BACK TEE XxYxZ X Y,Z X r n TIO I Yffi'rn R µ mm 80459 1" X 112'" NPT x 112" NPT 518" 1-5116" 40 0.48 11 l ~ \. 1 ~,! z I 80460 1" x 112" NPT x 112" NPT 518" 1-3116" 40 0.46 = / // TIO TIO BACK-TO-BACK CROSS . XxYxZxW X,Y Z,W X TIO I 12rmti LJ ,u ffiffl LU SA 1171 kbkJwl 80462 1" x 1" x 112" NPT x 112" NPT 518" 1-3116" 40 0.46 I l J 80463 1" X 1" x 112" NPT x 112" NPT 518" 1-5116" 40 0.47 TIO y TIO TIO SPRINKLER HEAD XxY X y ADAPTER 90" ELBOW y a TIO I ~~~ tz:::z:: 80199 314" x 112" NPT 9116" 1" 40 0.20 80198 1" x 112" NPT 314" 1-114" 40 0.26 xi 80196 1" x 314" NPT 1-1116" 1-7116" 40 0.26 --TIO FIGURE: 2 -FITTING DINtl:NSIONS (Part 4 of 4) Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten ( 10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages. and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties ex- press or implied including warranties of merchantability and fitness for a par- ticular purpose, This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 1 yco rife & tiUJJctmg .Products Tyco Fire Products . Hied TD nHHll, er SIN \'o. l Addendum dated April 24, 2002 to Tyco Fire Products Installation Instructions & Technical Manual No.19-1.0, TD910, 4-1.1.10, Rev. 8 Dated 8/2001: Page l ot 1 BlazeMaster™ CPVC Sprinkler Pipe and Fittings for use with Listed Light Hazard, Quick Response, Extended Coverage Sprinklers In accordance with the UL Listing, Tyco Fire Products BlazeMaster™ CPVC Fire Sprinkler pipe and fittings may be installed without protection (exposed) when subject to the following additional limitations: 1. Exposed piping is to be installed below a smooth, flat, horizontal ceiling construction. 2. Listed pendent, light hazard, quick response, extended coverage sprinklers, 155°F maximum temperature rating having deflectors installed within 8 in. from the ceiling and a maximum distance between sprinklers not to be less than 15 ft and not to exceed 20 ft with an applicatio1 density of at least 0.10 gpm/sqft. 3. Listed pendent residential sprinklers, 155°F maximum temperature rating having deflectors installed within 8 in. from the ceiling and a maximum distance between sprinklers not to be les: than 15 ft and not to exceed 20 ft with an application density of at least O .10 gpm/sqft. 4. Listed horizontal sidewall, light hazard, quick response, extended coverage sprinklers, 165°F maximum temperature rating having deflectors installed within 6 in. from the ceiling and within in. from the sidewall and a maximum distance between sprinklers not to be less than 14 ft and not to exceed 18 ft with an application density of at least 0.10 gpm/sqft. 5. Listed horizontal sidewall residential sprinklers, 165°F maximum temperature rating having deflectors installed within 6 in. from the ceiling and within 4 in. from the sidewall and a maximum distance between sprinklers not to be less than 14 ft and not to exceed 18 ft with an application density of at least 0.1 O gpm/sqft. 6. When using fittings in the 1-1/2 in. and greater size only schedule 80 fittings may be used. 7. The end use application is limited to unobstructed construction. 8. All solvent cement joints shall be made with TFP-500 One Step Solvent Cement. http://www.tyco-fire.com/index.php?P=blaze_add&B= a vit&I part of} © 2006 Tyco Fire & Building Products LP. 1 11/3/2006 1 yco F1re & Hmlctmg 1-'roducts 1-'age 1 ot 2 BlazeMaster® Enhanced Listings B/azeMaster® CPVC Pipe Becomes First Non-Metallic Pipe Approved for Use in Unfinished Basements Exposed System Risers BlazeMaster® CPVC pipe and fittings are now Listed by Underwriters Laboratories, Inc. (UL) for use in unfinist basements with exposed solid wood joist installations in accordance with NFPA 13D and in exposed system rif accordance with NFPA 13D and 13R. BlazeMaster CPVC pipe is the only non-metallic pipe Listed by UL for th applications. o Unfinished Basements In one-and two-family dwellings, BlazeMaster CPVC pipe and fittings may be installed in unfinished basements without protection (exposed) in accordance with NFPA 13D for horizontal ceilings utilizing 2 in. x 10 in. or 2 in. x 12 in. solid wood joists on 16 in. centers. When installed exposed, the system must utilize a residential sprinkler head with a maximum temperature rating of 155°F, with deflectors a maximum of 1-3/4 in. below the bottom of the wood joist. Installing the sprinkler head with the deflector 1-3/4 in. below the bottom of the joists accommodated the future addition of a finished ceiling (reference NFPA 13D, Section 4-2.4, 1999 Edition). There are additional Listing limitations for BlazeMaster CPVC sprinkler systems installed in unfinished b with exposed solid wood joists, so the manufacturer's installation instructions must be referenced before installation. BlazeMaster CPVC Now in Combustible Concealed Truss Construction when Space Protected by Cent, Sprinkler's Model CC1 Sprinkler Head o Change: Combustible concealed spaces not requiring sprinkler protection by NFPA standards are presently allowed to be piped using BlazeMaster® CPVC. Up to now, BlazeMaster® CPVC could not be used in any combustible concealed spaces requiring sprinkler protection. When using Model CC1 Sprinklers, BlazeMaster® CPVC can now be installed in combustible concealed space requiring sprinklers in open wood truss construction. BlazeMaster® CPVC Now in Ordinary Hazard Applications o Change: An exception to Section 3-3.5 of NFPA 13 was implemented in its 1999 edition which allows BlazeMaster® CPVC to protect ordinary hazard rooms of otherwise light hazard occupancies where the not exceed 400 ft2. Use the same installation guidelines as used for light hazard installations for both cc and exposed ordinary hazard applications. o Benefit: Fewer transitions between BlazeMaster® piping and other piping systems or materials. o Examples: Light hazard buildings such as schools, apartments and hotels that contain ordinary hazards such as storage areas, laundry facilities, or mechanical rooms that do not exceed 400 ft2. http://www.tyco-fire.com/index.php?P=blaze _ enh&B= 11/3/2006 Return I Preyious I L Next JI Contents Sc -•edu le-10®/Schedule-40® Fully Listed and FM Approved Sprinkler Pipe \Vhen you specify Schedule-] 0/Schedule-40 sprinkler pipe you get a UL listed and FM approved product. Although these products do not require separate approvals, Schedule-] 0/Schedule-40 gives you the extra quality assurance you demand. Our Sch-] 0 ( 1 \" -8 ") pipe and Sch-40 ( l "-21~") pipe have passed the same thorough lab testing as our other listed pipe products, and receive periodic mill inspections from both UL and FM agents to ensure consistent quality. Galvanized Pipe Schedule-I 0/Schedule-40 product can be "hot-dip" galvanized to meet FM requirements for my systems in accordance with the zinc coating specifications of ASTM A-123. Superior Coating Our advanced formula mill coating of- fers a clean, durable surface. It is also paint-ready for custom color applications without special preparation. The internal surface of all black Allied Tube & Conduit Fire Sprinkler pipe products up to 4.5000" in diameter is coated with our new Antibacterial For- mula, "ABF". In scientific laboratory test, ABS proved to have superior resis- tance to microbial colonization of pipe walls, thereby delaying or possibly pre- venting the onset ofMicrobiologically Influenced corrosion (MIC) when the First Sprinkler System is first installed. American Made Meets ''Buy American" requirement ., and is available through distributors in / the USA, Canada and Mexico. Specifications & Approvals Schedule-I 0/Schedule-40 pipe are in compliance with the following: ASTM A-135, and NFPA 13. Both pipe products have a working pressure rating of 300 psi maximum and also meet the stringent requirement for the following tests: NPS ln;mm 1" 25 1¼" 32 1½" 40 2" 50 2½" 65 NPS ln;mm 1" 25 1¼" 32 1½" 40 2" 50 (2½" 65 3" 80 4" 90 5" 125 6" 150 8" 200 Nominal I. D. ln;mm 1.049 26.6 1.380 35.1 1.610 40.9 2.067 52.5 2.469 62.7 Nominal t.D. In; mm 1.097 27.9 1.442 36.6 1.682 42.7 2.157 54.8 2.635 66.9 3.260 82.8 4.260 108.2 5.295 134.5 6.357 161.5 8.249 209.5 Sch-40 Specifications Wt. WI. (H20 Filled) Pcs/ WIA.ill (21') Lbs/Ft; Kglm Lbs/Ft; Kglm Lift Lbs; Kg 1.680 2.05 70 2,470 2.5 3.05 10 1,120 2.270 2.93 51 2,431 4.36 4.36 51 1,103 2.720 3.61 44 2,513 4.0 5.37 44 1,140 3.650 5.13 30 2,300 5.4 1.63 30 1,043 5.790 7.86 19 2,310 8.6 11.13 19 1.048 Sch•10 Specifications WI. Wt. (H20 Filled) PCs/ WIA.111 (21') Lbs/Ft; Kglm Lbs/Ft; Kg/m Lift Lbs; Kg 1.400 1.81 91 2,675 2.1 2.10 91 1,213 1.810 2.52 61 2,319 2.7 3.15 61 1,052 2.080 3.04 61 2,664 3.1 4.52 61 1,208 2.640 4.22 37 2,051 3.9 6.28 37 930 3.530 5.89 30 2,224 5.3 8.17 30 1,009 4.330 7.94 19 1,728 6.4 11.82 19 784 5.610 11.78 19 2,238 8.3 17.53 19 1,015 7.77 17.33 10 1,632 11.56 25.80 10 140 9.290 23.03 10 1,951 13.8 34.21 10 885 16.490 40.15 7 2,424 24.5 59.75 1 1,100 • Welded Outlets • Hydrostatic Pressure • Side Wall Rupture • Vibration Test FDR \~ \~ SR ... , ·T_ \\11 R \~l; R. i~ o o (\f\ Listed 1:qco I Row Control {;)allied TIJBE & CONDUIT 16100 S. Lathrop • Harvey, IL 60426 11350 Norcom Rd.· Philadelphia, PA 19154 2525 N. 27th Ave. • Phoenix, AZ. 85009 WIA.ill (24') WIJtill (25') Lbs; Kg Lbs; Kg 2,822 2,940 1,280 1,334 2,778 2,894 1,260 1,313 2,872 2,992 1,303 1,351 2,628 2,738 1,192 1,242 2,640 2.750 1,197 1,241 WIA.111 (24') WIJtlff (25' Lbs; Kg Lbs; Kg 3,053 3,185 1,385 1,445 2,664 2,760 1,208 1,252 3,045 3,172 1,381 1,439 2,344 2,442 1,063 1,108 2,542 2,648 1,153 1,201 1,975 2,057 896 933 2,558 2,665 1,160 1,209 1,865 1,943 846 881 2,230 2,322 1,012 1,053 2.770 2,885 1,256 1,309 <S>@ Approved Listed Customer Service: (800) 882-5543 Fax 708-339-1806 S5 -3 FM Approved and UL Listed Sprinkler Pipe Bull Moose Tube Company is a recognized producer of quality pipe products. Our Schedule 10 and Schedule 40 are FM Approved and UL Listed (for U.S. and Canada), even though these products do not require separate approvals and listings. Bull Moose Tube made the decision to have them approved and listed for your peace of mind. Our Sch. 10 and Sch. 40 have been through the same rigorous testing as our other fine pipe products. Schedule 10 Pipe Nominal Pipe Size O.D. I.D. (in) (in) (in) 1 1.315 1.097 1-1/4 1.660 1.442 1-1/2 1.900 1.682 2 2.375 2.157 2-1/2 2.875 2.635 3 3.500 3.260 4 4.500 4.260 Schedule 40 Pipe Nominal Pipe Size O.D. I.D. (in) (in) (in) 1 1.315 1.049 1-1/4 1.660 1.380 1-1/2 1.900 1.610 2 2.375 2.067 Bull Moose Tube's Sch. 10 and Sch. 40 pipes are made to ASTM A135 and ASTM A795. These products are typically supplied with our protective coating but can be supplied without the coating so they can be hot-dip galvanized to meet FM requirements for use in dry systems in accordance with the zinc coating specifications of ASTM A795 or ASTMA53. Norn. Wall Weight/Ft Bundle (in) Size 0.109 1 .40 lbs/ft 91 0.109 1.81 lbs/ft 61 0.109 2.08 lbs/ft 61 0.109 2.64 lbs/ft 37 0.120 3.53 lbs/ft 30 0.120 4.33 lbs/ft 19 0.120 5.62 lbs/ft 19 Norn. Wall Weight/Ft Bundle (in) Size 0.133 1.68 lbs/ft 70 0.140 2.27 lbs/ft 51 0.145 2.72 lbs/ft 44 0.154 3.65 lbs/ft 30 PIPE PREPARATION For proper operation, all pipe surfaces should be cleaned prior to installation. In order to provide a leak-tight seat for the gasket, pipe surfaces should be free from indentations and projections from the end of the pipe to the groove. All loose paint, scale, dirt, chips, grease, and rust must be removed prior to installation. Failure to take these important steps may result in improper coupling assembly, causing leakage. Also, check the manufacturer's instructions for the specific fitting used. ~~ a BULL MOOSE TUBE COMPANY ACAPAR.Ocompany 1819 Clarkson Road Chesterfield, MO 63017 (800) 325-4467 FAX: (636) 537-2645 www. bul lmoosetube .com e-mail: info@bullmoosetube.com For additional information, contact your salesperson today at (800) 325-4467 or (636) 537-2600 in the USA, or from Canada call (800) 882-4666 All information contained herein is accurate as known at the time of publication. Bull Moose Tube reserves the right to change product specifications without notice and without incurring obligation. 02/03 IPS CARBON STEEL PIPE -FIRE PROTECTION PRODUCTS 10.03 FireLock® Fittings PRODUCT DESCRIPTION F irelocke products comprise a unique system specifically designed for fire protection services. Fire Lock full-flow elbows and tees are a CAD-developed. hydrodynamic design that has a shorter center-to-end dimension than standard fittings. A noticeable bulge allows the water to make a smoother turn to maintain similar flow characteristics as stan(iard full flow fittings. Firelock fittings are designed for use exclusively with Style 005 Fire Lock couplings. Use of other couplings or nange adapters may result in bolt pad interference. Victaulic Firelock fittings pressure ratings conform to the ratings of Victaulic Firelock Style 005 couplings. DIMENSIONS C :--toE->j·• No. 002 C to E __J No. 003 No. 006 Patented See Victa ulic publication 1 O O 1 for details. Fitting Size Actual Nominal Outside Diameter Diameter Inches/mm Inches/mm l'/, 1.660 32 42,4 ,,,, 1.900 40 48,3 2 2.375 50 60,3 2'!, 2.875 65 73.0 76,1 mm 3.000 76, l 3 3.500 80 88.9 4 4.500 100 114,3 5 5.563 ~12s ~141,3 6 6.625 150 168.3 8 8.625 200 219.1 No. 001 90' Elbow Aprx. Cto E Weight Inches Each mm LbsJkg -- -- -- -- 2.75 1.7 70 0,8 3.00 3.1 76 1.4 3.00 3.30 76 1,5 3.38 4.0 86 1.8 4.00 6.7 102 3.0 4.88 12.6 124 5 7 5.50 18.3 140 8.3 6.81 25.5 17~: 11.6 ® AEG(STEAED TRADEMARK OF V(CTAUUC -© COPYR(GHT 2003 V(CTAULIC -PAINTED IN U.S.A. No. 003 45' Elbow Aprx. CtoE Weight Inches Each mm LbsJkg -- -- -- -- 2.00 1.8 51 0,8 2.25 2.2 57 1,0 2.25 2.4 57 1,1 2.50 3.1 64 1.4 3.00 5.6 76 2,5 3.25 8.3 83 3.8 3.50 11.7 89 5.3 4.25 20.4 108 9,3 Victaul1c Cotrpa1r; oi America • Phone: 1-300-PICK-VIC il ·&00-742-5342) • Fax: 610·2~0-3317 • e-mo1!:p1ckv1c@v1aaulic.com \/1ctau!1C Companj oiCanada • Pl1one· 905-834-7444 • Fax: 905-834-9774 • E--rnait: viccdn:.:idaf·v1n;:iulic [(Jill Vrctaul1c Europe • Phone:32·0· 381 · 1 SOO • Fax: 32-~i-32,0-4433 • e• maii: v1cE-urc,@:v1ctalJli!.be V1ctaul1c ;\rner1ca Latina • Phone·. b"J{) . .':)~9-3300 • Fax. bl(i· 5S~L3ij(!8 • e-mad·. vic3llS.-v1UJu\\{ .( •:ini VictaulK Asia Pac1liC • Phone: 65-6{35-3035 • Fax· 65-f.?35·0535 • e-mail: vicap<s:v1crnufic.cnm No. 002 No. 006 StraightTee Cap Aprx. Thickness Clo E Weight "T" Inches Each Inches mm LbsJkg mm --0.82 --21 --0.82 --21 2.75 2.4 0.88 70 1,1 22 3.00 3.6 0.88 76 1,6 22 --- --- 3.38 5.3 0.88 86 2.4 22 4.00 8.7 1.00 102 3.9 25 4.88 15.7 1.00 124 7,1 25 5.50 22.7 1.00 140 10.3 25 6.94 38.7 1.13 176 17.6 29 Aprx. Weight Each LbsJkg 0.3 0,1 0.4 0,2 0.6 0.3 1.0 0,5 - - 1.2 0.5 2.4 1.1 4.1 1.9 5.9 2.7 12.7 5.8 1539AEVD ~-fi-~ ---,. • • -H ~-,,, -~ , , • 1~~ .;, ~ ... ~ • \i::,IPS CARBON STEEL PIPE-EIRE PROTECTION PRODUCTS , . , , • ,, •0 :., , • ' ~ ,.::·· 10.02 ~~½ ;, -. ., ~ , ''!: £" .' -' ... ,i ~· """--.. ~ ~ -~ --. -, "' • ;A •• ~ Style 005 Firelock® Rigid Coupling with Vic-Plus® Gasket System fVic \:°jet System F •.~ E 1' i EC PRODUCT DESCRIPTION 2xaggeraFGd tor c!arfty DIMENSIONS Rated for wet and dry sprinkler systems at 350 psi (2413 kPa) for 1 '/, -4" (32-100 mm) sizes and 300 psi (2068 kPa) for 41/,-8" (708 -200 mm) sizes: Schedule 10 roll grooved or Schedule 40 cut or roll grooved steel pipe. Style 005 is rigid and does not accommodate expansion, contraction or angular deflection. FireLock'' Styie 005 rigid coupling has a unique patented angle-paci design which allows the housings to offset wh11e ciamping the grooves By pErmiti1r1g th;c; housings to slide on the angled bo1t pads, rigiclity is obta1necl. The FireLock couplings provide rigidity for valve connections. fire mains and long straight runs Support and hanging requirements correspond to NFPA 73 Sprink!er Systems. Angle-pad design permits assembly by removing one nut/bolt and sw,nging the housing over the gasket. This reduces components to handle during assembly: speeds and eases installation on pipe grooved to Victaulic specifications. Style 005 Firelock couplings with the Vic-Plus™ Gasket System are designed and recommended for use ONLY on fire protection systems. Vic-Plus Gasket System: Victaulic-S· now offers a gasket system which requires no field lubrication on wet pipe systems. The Vic-Plus™ System (patented) 1s dry, clean, and non-toxic. It reduces assembly time substantially and eliminates the mess and chance of over-lubrication. Please refer to the latest copy of the Victaulic Field Installation Handbook (1-100) for supplemental lubrication requirements @®<8> Request Victaulic publication 10.01 for details. Pipe Size Nominal Diameter Inches/mm 1'h 2 76.1 mrn 3 4 iGO 108.0rnm 5 133.0 mm 139.7 mrn 6# 159,0 rnm 165.1 mm 8# Actual Outside Diameter Inches/mm 1.660 .:12.4 1.900 48-.~ 2.375 60,:-i 2.875 13,C• 3.000 76.1 3.500 88,9 4.500 4.250 5.563 5.250 5.o00 139.7 6.620 168,3 6.250 6.500 185.1 8.625 • @ ~ t Reier lo notes on page 2. Max. Work. Press.§• PSVkPa 350 350 350 350 350 350 2413 350 300 2()68 300 2%8- 300 2068 300 300 2088 300 Max. End load' lbs/N 755 990 b50 690(: 2270 2475 11010 3365 14985 5565 24770 4255 1f94C, 7290 6495 7125 10340 9200 9955 1752S Allow. Pipe End Sep. t lnlmm 0.05 005 0.07 0.07 007 007 0.16 0.16 4. ~ 016 0.16 0.16 016 < .• 016 {,. ~ 0.16 0 19 # Not avaiiable wrth Vrc-Plus gasket syslem. Lubrication is required. @Bolt/Nut No.-Size Inches/mm 2 -3/s X 2'I, 2 • 3/,. X 2¼ 2 • 3/e X 21!; 2 • '/, X 2 • '/; X 2 • ''I, X 4'/, Dimensions Inches/mm X Y Z 2. 75 4.50 1.88 !O 11, i48- 3.00 4.75 1.88 IC• 121 148 3.50 5.25 1.88 89 133 148 4.00 5.75 1.88 ";" ';46 148 4.13 5.75 1.88 4.63 6.13 1.88 118 156 148 5.75 7.25 2.13 146 184 54 688 6.88 8.00 7.63 8 15 10.o0 9.00 9.00 229 9.00 1000 1000 1000 13.13 2.13 t4 2.13 2.13 S4 2.13 $.4 2.13 E-il 2.13 54 2.13 2.63 Aprx. Wgt. Ea. lbsJkg 1.2 0,5 1.2 0,5 1.6 0,7 1.9 0,.9 1.9 O,? 2.1 1.0 3.1 3.1 4.5 2,0 4.5 2.0 4.8 2,2 50 5.5 2.5 5.5 11.3 ® REGrSTERED TRADEMARK OF VICTAUUC -© COPYRIGHT 2CO> VICTAULiC -PRINTED IN L1 SA 1S38REV G Victaulic Company ol Americ:a • Phone: 1-80ll-PICK-\/IC (1-800-742-5842) • fax: 610-250-8817 • e-mail:pickvic@"✓iclauliccoin \/1,'.!auli;; ,~ompany ot Canada • Ptrone: 90S-Bi'-4-7 444 • fax: 80S-BB4-9?7 4 • e-mail: viccanada@viciaulic com Vii:!aulk Euro,;e • Pllone:3,'-9-381-1:iOQ • fax 32-9-380-44'.\8 • E-mail: viceuro@viclaulic.be ViL!aul1c runtrica Latina• Pl1orw: 6iD-SS8-:r~00 • FaX: 6HJ-SS9-36tl8 • e-rnaH: vical@victaulic.wm if1ddulic Asta Pdt:1lit; • Plwne: 65-62'35-3035 • Fax: 65-6lSt,-053~ • t:-mail: vicaf.@vic!auilc.com • 10.02 MATERIAL SPECIFICATIONS Housing: Ductile iron contorrning tc /~ST!',1) P..-5.36 gu.:1de 65-45-12 Ductile iron conforrn!ng io ASTt-/1 A-395. grade 65-45-15. !s available upon special requsst Housing Coating: Orange enamel Optional: Hot dipped galvanized Gasket: • Grade "E" EPDM -Type A Vic-Plus Gasket System t, (Violet color code). F;reLock products ,,ave been Listed by Underwriters Laboratories Inc and ,C..pproved by Factory Mutuai Research for wet and dry (oil free a,r) sprinkler services up to the rated working pressure us- ing the Grade "E'' Type f'.. Vic-Plus Gasket System. requiring no field lubrication for most instailation condi- tions. For dry services, Victaulic continues to recommend the use of Grade "E" Type A FiushSeal"' Gasket. Contact Victaulic for details. 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 .!I S1anda1d gaskel and FlushSeal gasl<el appr.}ved IOI dry p,pe syslems lo -4tfF (-40°C). Based c•n "lypical" pipe surlace condilic•ns. supplernenlal lubricanl is recommended !or services installed b8!0·11 r.rF (-1.s.::•c) and tor ali dry pipe systems or svstems to be subjected lo ai1 1ests pri1:.i1 to I-.J6ing lilied with waler. Supplementc1l lubri1:alior1 may a!s,-"' !)e 1qui,e«i on pipe whh 1aised or undercul v,.ielcl seams c•r pipe that has voids andior cracks al the wek.i sea1T1~. Viclau!ic continues to recommend the use ol FlushSeal gaske1s 101 dry services. LISTINGS/ APPROVALS 2 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. Rated orking Pressure -PSI Rated Working Pressure-PSI Rated Working Pressure -PSI Pipe Size Pipe Size Pipe Size Sch. Inches UL ULC FM Sch. Inches UL ULC FM Sch. Inches UL ULC FM 5 11/~ -3 175 175 175 EL 1'/,-2 300 NJ/, Nf,>\ MT 1¼·2 300 N/A NiA 1¼-4 350 350 350 ET 11/4-2 300 NiA N/A STF 1¼·4 N/A N/A 300 10, 40 Steady 5-8 300 300 300 EZ 4-6 300# NiA 300 Thd. 1¼-2 N/A N/A 300 BU 1¼-2 300 300 N/A FF 1¼-4 NiA NiA 300 TF 3-8 N/A N/A 300 DF 1 '/, • 4 300 300 300 GAL-7 11/4 -2 300 NiA N/A WLS 1¼-2 300 300 N/A DT 1¼-2 300 300 N/A MLT 1 'i. · 2 300 N!A N/A XL 1¼·3 300 300 300 EF 1'h • 4 175@ N/A 175 MF H,· 4 300 N/A 300' • FM approved to, service in 1 ½ • 4" pipe. # UL Listed for service up to 4" pipe only. @UL Listed for service up to 3" only. PIPE SCHEDULE NOTES: 5 relers lo Listed/Approved Schedule 5 sleel sp11nkler pipe 10 refers to Listed/Approved Schedule 10 sleel sprinkler pipe 40 refers lo Listed/Approved Schedule 40 sleel sprinkler pipe BLT raters lo Lisled steel sprinkler pipe rnanutactu,ed by Allied Tube & Condun OF 1ete1s lo Lisled/Approved Dyna-Flow sleet sprinkle, pipe rnanulactu,ed by .'lilied Tube & Conduit OT 1ele1s to Usled Dyna Thread sleel sprinkle, pipe rnanulaclwed by Allied Tube & Conduil EF 1ele1s lo Lisled/App,oved Eddy Flow sleel sp1inkler pipe rnanulaclu1ed by Bull Moose Tube Co. EL refers lo Lisled Eddylile sleel sprinkler pipe rnanulaclured by Bull Moose Tube Co. ET 1ele1s lo Lisled Eddyth,ead 40 sleel sprinkler pipe manulacfured by Bull Moose Tube Co. EZ relers to Listed EZ-Flow sf eel sprinkler pipe manulaclured by Norlhwesl Pipe & Casinq Co. FF refers lo Lisled Fire-Flo steel sprinkle, pipe rnanulaclu1ed by Youngslov:n Tube Co. GAL-? ,ete,s lo Lisled steel sprinkle, pipe rnanu1aclu1ed by 1000 Syslems. LLC ML T refers lo Listed steel sprinkle, pipe manutaclurnd by Wheatland Tube Company MF relers lo Lisled Mega-Flow sleel sprinkle, p,pe rnanlaclurer.1 by WheallanrJ Tul,e Company MT refers lo Listed Mega-Thread steel sp11nkle1 pipe manulaclwed bv Wheal land Tube Company STF refers le, Lisled Sleady Flow sleel sp1inkle1 pipe rnanLqaclwed by AMS Tube C:.:>1po1alion Steadv Thread 1ele1s lo Appproved sleel sprinkler pipe manulaclwed bv AMS Tul)e Corpo,alion TF rele1s to Tex-Flow sleel sprinkler pipe rnanutaclu,ed by Tex-Tube Ccmpany WLS refers lo Lisled/App,ovecl steel sprinkle1 pipe rnanulactu,ed by Whealland Tube Company XL 1ele1s lo Lisled XL or XL II sleel sprinkle, pipe rnanulaclwed t;y Allied Tube & Conduil Corp. NOTES • Working Presswe and End Load a,e Iola I. 1,orn all internal and exlernal loads. based on slandard weigh! (ANSI) steel pipe. slandard roll 01 cut g,oove,i in acco1danc& wrth Victaulic specn,calions. Contacl Viclaulic to, perto,mance on olhe, pipe. WARNING: FOR ONE TIME FIELD TEST ONLY, lt,e Maxim urn Join! Working P1~ssu1e. may t;e inc,aas-,d lo 1 ½ times !he liQures sr,own. t For field inslallalion onl'/. Fi,eLock Slyle 005 couplings are essentially rigid anti do nol accornrnodBle expansioniconlraction. @ Number ot bolts required equals numl)EH ol housing segments. Metric tliread size bolls are available (color coded goki) 101 all coupling sizes 11pon 1eqtles1. Contacl Viclaulic IOI ,jela,ls § Style 005 couplings are VdS and LPC Approved lo 12 Ba, (175 psi). WARNING: Dep,essu,ize and drair, lhe piping syslem before allempling lo ,nslall. 1ernove. 01 ad1us1 any Vicla11lic piping procJucls 1his pre-duct shall be manutaclu1ed by Victaulic Company. AH prorlucls st·1al! hr. installed in acx:orclance V/1lh currE:nt Victau!tc installr11iN1/assernbly instru~tions. V1ctautic rese1ves lhe 1igt1I tCl c:rianga producl specifications. d2signs: and stonda11i equipn1ent \·\'1lhout r101i.~B anti 'tvi!hrnit inc1J1ring obligations Style 005 F!relock'f' Rigid Coupling ~ -----------==--=--= STI Specified Technologies Inc. 200 Evans Way. Suite 2 Somerville. N .J. 08876 Phone: (908) 526-8000 Fax: (908) 526-9623 Toll Free: (800) 992-1180 GENERAL CERTIFICATE of CONFORMANCE Description: SpecSeal® Firestop Products Included Products: Se1ies SSS Jntumescent Sealant Se11es LCJ Jntumescent Sealant Senes LC Latex Endothermic Sealant Se,ies SSP Jntumescent Putty Series EP Power Shield™ Box Insert Senes SSWRED Jntumescent Wrap Stnps Series SSWBLU Jntumescent Wrap Strips Series SSC Jntumescent Firestop Collars Senes LCC Jntumescent Firestop Collars Series SSB lntumescent Firestop Pillows Series ASJ00 Elastomeric Spray Series AS200 Elastomeric Spray Series ESJ00 Elastome,ic Sealant Series SSM Fire stop Mortar Pensil Senes PEN200 Silicone Foam Pensil Senes PEN300 Silicone Sealant Pensil Series PEN300SL Silicone Sealant These products are tested to the following standards where applicable: ASTM STANDARD: Fire Tests of Through-Penetration Fire Stops Fire Tests of Building Construction and Materials Fire-Resistive Joint Systems E 814 E 119 E 1966 E84 Surface Burning Characteristics of Building Materials E 1399 Cyclic Movement and Measuring the Minimum and Maximum Joint Widths of Architectural Joint Systems UL STANDARD 1479 Fire Tests of Through-Penetration Firestops 263 Fire Tests of Building Construction and Materials 2079 Tests for Fire-Resistance of Building Joint Systems 723 Tests for Surface Burning Characteristics of Building Materials Chemical Content Statements: No asbestos, PCB's or water-soluble intumescent ingredients are used or contained in these products. February l, 2002 / James P. Stahl, Jr. Date Technical Manager PRODUCT DESCRIPTION Exaggerated for clarity r . . ~~ DIMENSIONS Style 75 is available where moderate pressures are expected or weight consid- erations are a factor. Up to 50% lighter in weight than See Victaulic publication 10.01 for details. Pipe Size Nominal Actual Diameter Out. Dia. In.Imm ln./irdH 1 1.315 ( .. J '·'.·. 1¼ 1.660 ~:.'.' .. 1½ 1.900 .,_! 2 2.375 ... , If 2½ 2.875 -~· !' ~·: ,' 76.1 mm 3.000 .. 3 3.500 .-.,..,, .,, 3½ 4.000 -;f·_"; 4 4.500 ;; 108.0 mm 4.250 4½ 5.000 5 5.563 133.0 mm 5.250 139.7 mm 5.500 152,4 mm 6.000 6 6.625 . Max. Max. Work End Pres. Load PSI* Lbs.* I\PR t< 500 680 ' .·, ,~>, 500 1080 ::,=' .. ' • -~ 500 1,420 ;,.,,,., 500 2.215 ~ . ' -~·: •• ·,.··· ... ·· 500 3,245 -,,,·.,:, __ ~ ,; .·' . 500 3,535 •. 500 4,800 ... 500 6,300 .. 500 7,950 ·• 450 6,380 450 8,820 : 450 10,935 450 9,735 450 10,665 450 12. 735 450 15.525 the Style 77. the Style 75 coupling is recommended for service up to 500 psi (3450 kPa) depending on size. Housings are cast in Allow. Deflect. Fr. @ Pipe Clt Bolt/Nut End t Per Pipe No. -Size Sep. Cplg. ln./Ft. Inches In.Imm Deg. nm,fm mm 0-0.06 2° -43' 0.57 2-3/aX2 :: -'-~ ,;(: 0-0.06 2° -10' 0.45 2-3/aX2 n _t'; 30 0-0.06 1° -56' 0.40 2-3/sX2 ;_; _I; --- 0 -0.06 1 ° -31' 0.32 2-3/aX2 {\ (, / .. , 0 -0.06 1° -15' 0.26 2-3/sX2 :·: -(i «. 0 -0.06 1 ° -12' 0.26 2-3/sX2 :: (: L.[_ 0-0.06 1· -2' 0.22 2-½X2¾ '.-: 0-0.06 o· -54' 0.19 2-½X2¾ :·· , r; .· 0 -0.13 1° -36' 0.34 2 -½X2¾ 0 -0.13 1 ° -41' 0.35 2 -12 X 700 .. • 0-0.13 1° -26' 0.25 2 -5/s X 3¼ .. 0 -0 13 1° -18' 0.27 2-S/sX3¼ 0-0.13 1 ° -21' 0.28 2 -16 X 82.5 0 -0.13 1 ° -18' 0.28 2 -5/s X 3¼ 0 -0.13 1° -12' 0.21 2-S/sX3¼ ., 0-013 1 ° -5' 0.23 2 -5/s X 3¼ Style 75 Coupling two identical pieces in all sizes. Hot-dip galvanized and special coatings are available for all sizes. Dimensions Aprx. lnches/mil'imc1,,,-,,. Wgt. Each Lbs. X y z kg 2.38 4.27 1.77 1.3 ",, :, .. \;. -~: 2.68 4.61 1.77 1.4 ·-·-· 'j =.~ 2.91 4.82 1.77 1.5 ,',; ---,_._ 3.43 5.22 188 17 f;7 1,_-, n ~ 3.88 5.68 1.88 1.9 )l•' ... ... ., .. · 4.00 5.90 1.88 1.9 t:.i I."; 4.50 7.00 1.88 29 i 5 00 7.50 1 88 2.9 1.·, 580 8 03 2.13 4.1 . ,. ,.·-.. 5.55 7.79 2.13 3.7 •, . 6.13 9.43 2.13 5.5 " 6.88 10.07 2.13 58 6.55 9.37 2.13 6.0 6.80 9.59 2.13 6.3 7 38 10.48 1.88 6.2 8.00 11.07 2.13 7.0 159.0 mm 6.250 450 13,800 0 -0.13 1° -9' 0.24 2-16X82.5 7.63 10.49 2.13 6.8 Table continued on page 2. ·t@ Refer to no1es on page 2. VICTAULIC® IS AN ISO 9001 CERTIFIED COMPANY Phone: 1-800-PICK-VIC (1-800-742-5842) Phone: 416-675-5575 Phone 32-9-381-1500 Phone: 510-559-3300 Fax 610-250-8817 Fax 416-675-5565 Fax 32-9-380-4438 Fax 610-559-3608 e-mail:pickvic@victauiic corn e-mail viccanada@v,wu,1c com e-mail: viceuro@·vic1aulic.be e-mail: vicai@vii:tau!ic.com 1470 Rev E 6i02 ~. Registered Trademark of Viet::iut1c 'f· Coovr1oht 2002 V1crnu1ic Phone: 65-235-3035 Fax: 65-235-0535 email: vi.:8p@vicaulic.com Pr1nr••rl 1n !l C, A • ---~f;-,~~•;-,''>P 1~; ·~' '\~,..,\~; ,:-,;:-:: DIMENSIONS Allow. Deflect. Fr. Pipe Size Max. Max. Pipe Clt @ Work End End t Bolt/Nut Nominal Actual Pres. Load Sep. Per Pipe No. -Size Diameter Out. Dia. PSI* Lbs.* In. Cplg. ln./Ft. Inches ln.h·•· In./,,. l<P;: N rnin Deg. ,mn, rnP\ 165,1 6.500 450 14,940 0 -0.13 1° -6' 0.23 2 -%X3¼ mm ·, \ ..... .----~<< 203,2 mm# 8.000 450 22,635 ·•.\. 0-013 o· -54• 0.16 2-¾X4¼ 8 8.625 450 26,280 0 -0.73 o· -50' 0.18 2-¾X4¼ ,: !:'_,:~ ,:=-;,v:) 254,0 mm# 10.000 350 27,500 0 • 0.13 o· -43' 0.15 2-7/aX5½ 'I.: ,,., .,, ·-.-., ,, 304,8 mm# 12.000 350 39,500 0-0.13 o· -36' 013 2-7/sX5½ ' '<'-;·_);1 :::.,: : ; ... # Style 7 4 Couplings ·t@ Refer to notes below. c:r:-::: -:::s-i~11""'."'~~ MATERIAL SPECIFICATIONS Housing: Ductile iron conform- ing to ASTM A-395. grade 65- 45-15. and ASTM A-536, grade 65-45-12. Housing Coating: Orange enamel 0 Optional: Hot dipped galva- nized and others_ Gasket: (specify choice*)t 0 Grade "E" EPDM EPDM (Green color code). Temperature range -30°F to +230°F (-34°C to+ I !0°C). Recommended for hot water service within the specified temperature range plus a variety of dilute acids. oil-free air and many chemical ser- vices. UL classified in accor- dance with ANSI/NSF 61 for cold +86°F {+30°C) and hot +!80°F {+82°C) potable water service. NOT RECOM- MENDED FOR PETROLEUM SERVICES. 0 Grade "T" nitrile Nitrile (Orange color code}. Temperature range -20°F to +!80°F (-29°C to +82°C). Recommended for petroleum products. air with oil vapors. vegetable and mineral oils within the specified tempera- ture range: except hot, dry air over+ I 40°F (+60°C) and water over +150°F {+66°C). NOT RECOMMENDED FOR HOT WATER SERVICES. NOTES Dimensions lnches/,ni!'"""'•-· Aprx. Wgt. Each Lbs. X y z ,•9 7.84 10.66 2.06 7.2 ··:,· -·· 9.72 7 3.33 2.31 12.6 .. '· ., 10.34 13.97 2.32 12-4 /( -,,;,; 12.16 15.81 2.53 20.8 c_J: .·,. 74.16 17.69 2.53 23.6 .;•,(> '•:'-,.-, *Services listed are General Ser- vice Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Refer- ence should always be made to the latest Victaulic Gasket Selection Guide for specific gas- ket service recommendations and for a listing of services which are not recommended. tSupplemental lubricant is rec- ommended for services installed at or continuously operating below 0°F {-J8°C) Bolts/Nuts: Heat treated car- bon steel. zinc plated to ASTM B-633. track-head conforming to physical properties of ASTM A-183 minimum tensile 110,000 psi (758340 kPa). • Working Pressure and End Load are total, from all internal and external loads, based on standard weight (ANSI) steel pipe, standard roll or cut grooved in accor- dance with Victaulic specifications. Contact Victaulic for performance on other pipe. WARNING: FOR ONE TIME FIELD TEST ONLY, the Maximum Joint Working Pressure may be increased to 1 ½ times the figures shown. t Allowable Pipe End Separation and Deflection figures show the maximum nominal range of movement available at each joint for standard roll grooved pipe. Figures for standard cut grooved pipe may be doubled. These figures are maximums: for design and installation purposes these figures should be reduced by: 50% for 3/. • 3½" (20 -90 mm); 25% for 4" (100 mm) and larger. @ Number of bolts required equals number of housing segments. Metric thread size bolts are available (color coded gold) for all coupling sizes upon request. Contact Victaulic for details, WARNING: Depressurize and drain the piping system before attempting to install, remove, or adJust any Victaulic piping products. This product shall be manufactured by Victaulic Company. All products shall be installed in accordance with current Vic1aulic installation/assembly instructions. Victaulic reserves the righ1 to change product specifications, designs and standard equipment without notice and wi1hout incurring obligations. 06.05 -2 • PRODUCT DESCRIPTION 2 -8" Sizes ~,::;:~:=' . : ,i:t;.., ; . ~Ii-~ DIMENSIONS Style 744 Sizes 2 -8'' (50 -200 mm) ANSI Class 125 and 150 Flange --Jzr- 1 f YW JJ Note: Gray area of mating face must Style 7 44 FireLock Flange adapter is designed for directly incorporating flanged components with ANSI CL. 125 or CL. 150 bolt hole patterns into a grooved pipe system. Sizes 2 -8" (50 -200 mm) are hinged for easy handling with integral end tabs which facilitate assembly. The design incorporates small teeth inside the key shoulder I.D. to prevent rotation. See Victaulic publication 10.01 for details. Pipe Size Max. Max. Nominal Actual Work End Outside Outside Pres. Load Diameter Diameter PSI* Lbs.* ln.hm ln.h,rn i,Pa M 2 2.375 175 775 .,·. ; 2½ 2.875 175 1135 ' .! ., 3 3.500 175 1685 4 4.500 175 2780 5 5.563 175 4250 C 6 6.625 175 6030 be free from gouges. undulations or :;;i deformities of any type for effective /< ~ sealing. 8 8.625 175 10219 ·Refer to notes on Page 2. Style 744 Firelock™ Flange Adapter with Vic-Plus TM Gasket System Because of the outside flange dimension, FireLock Flange adapters should not be used on FireLock fit- tings. When wafer or lug- type valves are used adjoin- ing a Victaulic fitting, check disc dimensions to assure proper clearance. FireLock Flange adapters should not be used as anchor points for tie-rods across nonrestrained joints. Mating rubber faced flanges. valves. etc., require Sealing Surface Inches/,,-,,,, No. Bolt Bolts t Size t "A" "B" Req'd. Inches Max. Min. 4 5/aX2¾ 2 38 3.41 ,, ,; 4 5/aX3 2.88 3.91 4 5/aX3 350 4.53 8 %X3 4.50 5.53 ,. 8 ¾X3½ 5.56 6.71 8 ¾X3½ 6.63 7.78 8 ¾X3½ 8.63 9.94 ,. .. the use of a F ireLock Flange washer. FireLock Flange adapters with Vic-Plus gaskets do not require lubrication. The gasket must always be assembled with the color coded lip on the pipe and the other lip facing the mat- ing flange. Dimensions lnches/rnililtn~tc,·s Aprx. Wgt. Each Lbs. w X y z kl, 6.75 6.00 4.75 0.75 2.7 -· ., C 7.88 7.00 5.50 0.88 4.2 ,··, .·, .. 8.44 7.50 6.00 0.94 4.8 ,_ i 9.94 9.00 7.50 0.94 7.1 1100 1000 8.50 1.00 8.3 12.00 11.00 9.50 1.00 9.3 "' 14.63 13.50 11.75 1.13 13.9 ;Total bolts required to be supplied by installer. Bolt sizes for conventional flange-to-flange connection. Larger bolts are required when Vic-Flange adapter is utilized with wafer-type valves. VICTAULIC® IS AN ISO 9001 CERTIFIED COMPANY Phcne 1-800-PICK-VIC (1-800-742-5842) Phone: 416-675 5575 Phone32-9-381-1500 Phone: 6 i 0-559-3300 Fax 610-250-8817 Fax 416-675-5565 Fax 32-9-380-44:l8 Faw 610-559-3608 e-moil pickvic@vic1autic.com ,;-mail: viccanada<:<>victauiic.corn e-milil: viceuro@victaulic.be e-milil: viciJl@'victau!ic.com 1477 Rev( 4/02 .J:, Rea1stered Trademark of Victnul1c r_. rnn,,rinht ,nn? \/,r1c:>,ol,r Phone 65-235-3035 Fax: 65-235-0535 e-mail: vicap@>victaulic.com VIC-FLANGE ADAPTER NOTES 1. The Style 7 4 4 (2 -8"'/50 -200 mm) design incorporates small teeth in- side the key shoulder I.D. to pre- vent rotation. 2.Firelock Flange adapter should not be used on Firelock fittings When wafer or lug-type valves are used adjoining a Victaulic fitting, check disc dimensions to assure proper clearance. 3. Firelock Flange adapters should not be used as anchor points for tie- rods across nonrestrained joints. Mating rubber faced flanges, valves, etc. require the use of a Firelock Flange washer. 4.Area A-B noted in the above draw- ing must be free from gouges, un- dulations or deformities of any type for effective sealing. 5. Fire Lock Flange adapter gaskets must always be assembled with the color coded lip on the pipe and the other lip facing the mating flange. • MATERIAL SPECIFICATIONS Flange Housing: Ductile iron conforming to ASTM A-395, grade 65-45-15, and ASTM A- 536, grade 65-45-12. Coating: Black enamel 0 Optional: Hot dipped galvanized Bolts/Nuts: Supplied by installer 6. Flange Washers: Firelock Flange adapters require a smooth hard surface at the mating flange face for effective sealing. Some applica- tions for which the Vic-Flange adapter is otherwise well suited do not provide an adequate mating surface. In such cases, it is recom- mended that a metal Flange Wash- er be inserted between the FireLock Flange adapter and the mating flange to provide the neces- sary sealing surface. Typical applications where a Flange Washer should be used are: A. When mating to a serrated flange: a standard flat flange gasket should be used adjacent to the serrated flange and then the Flange Washer is inserted between the FireLock Flange adapter and the flange gasket. B. When mating to a wafer valve: where typical valves are rubber lined and partially rubber faced (smooth or not), the Flange Washer is placed between the valve and the FireLock Flange adapter. Gasket*: 0 Grade "E" EPDM -Type A Vic-Plus Gasket System t (Violet color code). FireLock products have been Listed by Underwriters Laboratories Inc. and Approved by Factory Mutual Research for wet and dry (oil free air) sprinkler ser- vices up to the rated working NOTES C. When mating a rubber faced flange: the Flange Washer is placed between the FireLock Flange adapters and the rub- ber faced flange. D. When mating AWNA cast flanges to IPS flanges: the Flange Washer is placed be- tween two Firelock Flanges. The hinge points must be ori- ented approximately 90' to each other. If one flange is not a FireLock Flange adapter (e.g., flanged valve), then a standard flat flange gasket must be placed adjacent to that flange and the Flange Washer inserted between the flange gasket and the FireLock Flange adapter. E. When mating to components (valves, strainers, etc.) where the component flange face has an insert: follow the same ar- rangement as in Application 1. F. When mating to a Series 708-W Butterfly valve, Style 744 may only be used on one side of the connection. When ordering Flange Washers, always specify product style (Style 744} and size co assure proper Flange Washer is supplied. pressure using the Grade "E" Type A Vic-Plus Gasket System, requiring no field lubrication. Hinge Bushing: 2 -8" (50 -200 mm). Electroplated steel. t Supplemental lubricant is recommend- ed for services installed at or continuous- ly operating below O'F (-lB'C). • Working Pressure and End Load are total. from all internal and external loads, based on standard weight steel pipe. standard roll or cut grooved in accordance with Victaulic specifications. Contact Victaulic for performance on other pipe. WARNING: FOR ONE TIME FIELD TEST ONLY, the Maximum Joint Working Pressure may be increased to 1½ times the figures shown. Style 7 44 Fire Lock Flange adapters provide rigid joints when used on pipe with standard roll or cut groove dimensions and consequently allow no linear or angular movement at the joint. WARNING: Depressurize and drain the piping system before attempting to install. remove, or adjust any Victaulic piping products. This product shall be manufactured by Victaulic Company. 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. 10.04 -2 Style 750 Reducing Coupling PRODUCT DESCRIPTION Exaggerated for clarity DIMENSIONS The Style 750 Reducing Coupling permits direct reduction on the piping run. Designed to replace two couplings and a reducing fitting, the Style 750 fea- tures a special reducing gasket for pressure respon- sive sealing. A steel washer which prevents telescop- ing of the smaller pipe inside the larger pipe dur- ing vertical systems assem- bly is available upon request. See Victaulic publication 10.01 for details. - Max. Max. Allow. Deflect. Fr. Dimensions Work End Pipe CLt @ lncheshr,Hiirneters Nominal Size Pres. Load End t Per Pipe BolUNut Inches PSI* Lbs.* Sep. In. Cplg. ln./Ft. No. -Size mm kF<", ,\ mrn Deg. re .. 1, m Inches X y z 2 X 1 350 1000 0 -0.07 o·-57" 0.20 2-3/aX2 3.38 5.25 1.88 ~!_; X . , .. ,. .. -<L~ ,1;:-; ~; ;, -: ,:_:;:_, Xl½ 350 1000 0-0.D7 o·-57· 0.20 2-3/aX2 3.38 5.25 1.88 ;(. :., ::. ... , µ, 2½ X 2 350 1550 0-0.D7 o·-47· 0.16 2-3/aX2 4.13 6.00 1.88 X ,., ; , ··,: 'f.; ,,' ... ·- 76,1 mm X 2 350 1550 0 -0.07 o·-47' 0.16 2-1/aX2 4.13 6.00 1.88 K '/) ;;··. , ~! : '·'· ,,_:=) ::-,:._ -•S 3 X 2 350 1550 0-0.D7 o·-39· 0.13 2-½X2¾ 4.75 7.13 1.88 •,• y ::(; :, :· .. •,: C '" ·< X 2½ 350 2275 0-0.D7 o·-39· 0.13 2-½X2¾ 4.75 7.13 1.88 X (:'.': ·;. ,,, ) . ~-- X 76,1 mm 350 2275 0 -0.07 o·-39· 0.13 2-½X2¾ 4.75 7 13 1.88 , ... :· " _,-:_ ·' :-. ' .. , 4 X2 350 1550 0-0.13 1 °-79· 0.28 2-5/aX3¼ 6.25 8.88 2.25 .·,, .x '' ', // ·: X 2½ 350 2275 0-0.13 1 °-19· 0.28 2-%X3¼ 6.25 8.88 2.25 X3 350 3365 0-0.13 1°-19· 0.28 2 -5/a X 3¼ 6.25 8.88 2.25 V. 4½ X 76 1 350 2275 0-0.13 1°-19· 0.28 2-5/aX3¼ 6.25 8.88 2 25 :,. , mm " ,, 5 X 4 350 5565 0-013 1 °-3· 0.22 2 -¾ X 4¼ 7.13 10.63 2.13 ·' 6 X 4 350 5565 0-0.13 o·-52· 0.18 2-¾X4¼ 8.63 11.88 2.25 '< X 5 350 8500 0 -0.13 o·-52· 0.18 2-¾ X 4¼ 8.50 11.88 2.25 ., 165,1 mm X 4 350 5565 0-013 o·-55· 0.19 2 -¾ X 4¼ 8.50 11.38 2.25 ,< < 8X6 350 12000 0 -0.13 o·-38-0.13 2-'laX5 10.75 14.75 2.50 ,: Refer to notes on page 2. Style 750 Reducing couplings should not be used with end caps (#60) in systems where a vacuum may be developed. Contact Victau!ic for details. VICTAULIC® IS AN ISO 9001 CERTIFIED COMPANY Aprx. Wgt. Each Lbs. kg 2.0 ,. -,:_·.; 2.0 2.9 ·: I 4.6 ·,·: ..: .. • 4.6 2_·1 4.1 4.8 / . 8.8 , ' .. ,, 8.3 6.6 6.4 108 16.1 12.6 15.2 22.3 Phone 1-800-PICK-\/IC (1-800-7,12-58·12) Phone: 416-675-5575 f'ilone:32-9-381-1500 Phone: 610-559-3300 rhone: 65-235-3035 Fax 65-235-0535 Fax 610-250-8817 Fax 416-675-5555 Fax 32-9-380-,1438 Fax 610-559-3608 e -mai!:pickvic,Pvictau!ic. com e. mail: viccanada(il'victau!ic.com e-maii· viceuro@victaul!c.tl€ e-mail: vica!@victauiic com e-ma1i. vicap@>victaulic.com FLOW DATA Head Loss The head loss across Style 750 Reducing coupling is very small and is essentially the same as for standard short body reducing pipe fittings. Equivalent lengths of stan- dard weight steel pipe are shown in the tables. All data is based on water flowing at ambient temper- ature. MATERIAL SPECIFICATIONS Housing: Ductile iron conform- ing to ASTM A-395, grade 65- 45-15, and ASTM A-536, grade 65-45-12. Housing Coating: Orange enamel 0 Optional: Hot dipped galvanized and others Gasket: (Specify choice*): 0 Grade "E" EPDM EPDM (Green color code}. Temperature range -30°F to +230°F (-34°C to+ I I0°C). Recommended for cold and hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemi- cal services. UL classified in Flow Reducing Equiv. Nominal Size Inches Pipe Length Sm. Dia. 2 X 1 Xl½ 2½ X 2 j. •·i 3 X 2 '< :.-·· X 2½ 4 X 2 X :··· Feet/., 5.9 2.0 1.9 5.5 3.8 6.0 --+-------i X 2½ 5 X 4 ·_,,_; X 6 X 4 0·: X '('C 6.0 3.0 6.0 ••. :1 --+-----~ XS 4.5 X ,,•: 165,1 mm ~;. 6.0 8X6 7.3 accordance with ANSI/NSF 61 for cold +86°F (+30°C) and hot + I 80°F ( +82°C) potable water service. NOT RECOM- MENDED FOR PETROLEUM SERVICES. 0 Grade "T" nitrile NOTES Nitrile (Orange color code). Temperature range -20°F to +l80°F {-29°C to +82°C). Recommended for petroleum products, air with oil vapors, vegetable and mineral oils within the specified tempera- ture range. Not recom- mended for hot water services over+ I 50°F {+66°C) or for hot dry air over + I 40°F (+60°C). Flow Expanding Nominal Size Inches 1 X 2 2 X 2½ X4 / ·-:-:. 2½ X 3 .,_. ">( c:: Equiv. Pipe Length Sm. Dia. Feet/,, 2.7 1.9 1.0 3.5 3.0 2.5 X -4---+---3-_-0---t X. :.:· 3 X 4 ;;,_. X •::• 4 X 5 .'C )o( ··L'.: X6 X 2.5 3.3 4.6 ----+------t X x 165,1 mm 5 X 6 :;:-:. )( /.'.:· 6 X 8 ;.·,(: >< ,=>:: 4.6 2.3 6.0 : '··' *Services listed are General Ser- vice Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Refer- ence should always be made to the latest Victaulic Gasket Selection Guide for specific gas- ket service recommendations and for a listing of services which are not recommended. 0 Optional: Assembly Washer: Galva- nized, carbon steel Bolts/Nuts: Heat treated car- bon steel, track-head, zinc plated to ASTM B-633 conform- ing to physical properties of ASTM A-183 minimum tensile I 10,000 psi (758340 kPa) • Working Pressure and End Load are total. from all internal and external loads. based on standard weight (ANSI) steel pipe. standard roll or cut grooved in accor- dance with Victaulic specifications. Contact Victaulic for performance on other pipe. Maximum working pressure rating based on larger pipe size. Maximum End Load rating based on smaller pipe size. WARNING: FOR ONE TIME FIELD TEST ONLY. the Maximum Joint Working Pressure may be increased to 1 ½ limes the figures shown. t Allowable Pipe End Separation and Deflection figures show the maximum nominal range of movement available at each joint for standard roll grooved pipe. Figures for standard cut grooved pipe may be doubled. These figures are maximums: for design and installation purposes these figures should be reduced by: 50% for¾. 3½" (20 -90 mm): 25% for 4· (100 mm) and larger. @ Number of bolts required equals number of housing segments. Metric thread size bolts are available (color coded gold) for all coupling sizes upon request. Contact Victaulic for details. WARNING: Depressurize and drain the piping system before allempting to install. remove. or adjust any Victaulic piping products. This product shall be manufactured by Victaulic Company. All products shall be installed in accordance wilh current Victaulic installation/assembly instructions. Victaulic reserves the right lo change product specifications. designs and sIandard equipment without notice and without incurring obligations. 06.08 -2 .. ES-709DCDA For Non-Health Hazard Applications Job Name Job Location Engineer Approval Series 709DCDA Double Check Detector Assemblies Sizes: 3" -1 O" (80 -250mm) Series 709DCDA Double Check Detector Assemblies are designed exclusively for use in accordance with water authori- ty containment requirements. It is mandatory to prevent the reverse flow of fire protection system substances, i.e. glycerin wetting agents, stagnant water and water of non-potable qual- ity from being pumped or siphoned into the potable water line. Benefits: Detects leaks ... with emphasis on the cost of unac- countable water; incorporates a meter which allows the water utility to: • detect leaks underground that historically create great annual cost due to waste. • provide a detection point for unauthorized use. It can help locate illegal taps. Modular check design concept facilitates maintenance and assembly access. All sizes are standardly equipped with resilient seated OSY shutoff valves, %" x ¾" {16 x 19mm) meter and ball type test cocks. Features • Body construction fused epoxy coated cast iron • Replaceable bronze seats • Maximum flow at low pressure drop • Compact for economy combined with performance • Design simplicity for easy maintenance • Furnished with 5/a" x ¾" (16 x 19mm) bronze meter • No special tools required for servicing Specifications A Double Check Detector Assembly shall be installed on fire protection systems when connected to a potable water sup- ply. Degree of hazard present is determined by the local authority having jurisdiction. The unit shall be a complete assembly including UL listed resilient seated OSY shutoff valves and test cocks. The unit shall be UUFM approved with UUFM approved OSY shutoff valves. The auxiliary line shall consist of an approved backflow preventer and water meter. The assembly shall meet the basic requirements of ASSE 1048; AWWA Std. C510 for Double Check Valves. Approved by the Foundation for Cross-Connection Control and Hydraulic Research at the University of Southern California. Assembly shall be a Watts Regulator Company Series 709DCDA. Contractor Approval Contractor's P.O. No. Representative T (:', Ne • (C ·, lJ) f b c'Q_ 5 L.j 6 l-1 709DCDAOSY Check Assembly Module Seat Disc Check Assembly Module Features a modular design concept which facilitates complete maintenance and assembly by retaining the spring load. First and second check valve spring modules are not inter- changeable. Now Available WattsBox Insulated Enclosures. For more information, send for literature ES-WB. IMPORTANT: INQUIRE WITH GOVERNING AUTHORITIES FOR LOCAL INSTALLATION REQUIREMENTS Watts product specifications in U.S. customary units and metric are approximate and are provided for reference only. For precise measurements, please contact Watts Technical SeNice. Watts reserves the right to change or modify product design, construction, specifications, or materials with- out prior notice and without incurring any obligation to make such changes and modifications on Watts products previously or subsequently sold. • Materials Body: 4 Seat: Epoxy coated cast iron Bronze Disc Holder: Bronze Trim: Stainless steel Check Valve Discs: Rubber Test Cocks: Bronze Models Suffix: OSY -UUFM outside stem and yoke resilient seated gate valves CFM -cubic feet per minute meter GPM -gallons per minute meter LF -4" -10" (100 -250mm) without shutoff valves Dimensions -Weights ····--····---· E --------------- ---------------------------------L Pressure -Temperature Temperature Range: 33°F -11Q°F (5° -43°C) continuous, 140°F (60'C) intermittent Maximum Working Pressure: 175psi (12.06 bar) Standards AWWA Standard C510 ~l§.8 1048 Approved by the foundation for Cross-Connection Control and Hydraulic Research at the University of Southern California. Sizes 4" -1 O" (100 -250mm) approved for horizontal and vertical "flow up". Size 3" (76mm) approved for horizontal only. Factory Mutual approved 4" -10" vertical "flow up". C (open) :• 0 • -----------------------------------------------A ·------------------------------------------------- . l_ SIZE (ON) DIMENSIONS WEIGHT A C D E L R T u· W/OSYt gates In. mm in. mm in. mm in. mm in. mm in. mm in. mm in. mm in. mm lbs. kgs. 3 80 40 1016 187/s 479 3½ 89 12 305 24 610 14 356 3 76 14 356 190 86 4 100 52 1321 22¾ 578 3¾ 95 17 432 34 864 15 381 6 152 14 356 403 183 6 150 62½ 1588 301/s 765 4½ 114 21 533 41½ 1054 16 406 7½ 191 16 406 727 330 8 200 75 1905 37¾ 959 5½ 140 26 660 52 1321 17 432 9 229 21 533 1327 602 10 250 90 2286 45¾ 1162 6½ 165 32 813 64 1626 18 457 10¼ 260 25 635 2093 949 • Service clearance for check assembly from center. tUUFM approved backflow preventers must include UUFM approved OSY. • Capacity ·Typical maximum system flow rate (7.5 tt./Sec.) "UL rated flow 3" (80mm) -~ 8" (200mm) kPa psi * ** kPa psi * ** I~ :~~HI I 1~1111 f~fffl]~l 11 I~ :)Pr~ 11:::t:t::tl 11~1111 ~1 HI 100 200 300 400 gprn 400 800 1200 1600 2000 4000 gpm 380 760 1140 1520 1pm 1520 3040 456 6080 7600 15200 1pm 5 7.5 15 fps 5 7.5 15 fps 1.5 2.3 4.6 mps 1.5 2.3 4.6 mps Flow Flow 4" (100mm) 10" (250mm) KPa psi * ** kPa psi * ** 1~:)lil 11111111 H 11 1~:;111 Ell II I tttl 0 100 200 300 400 500 600 0 380 760 1140 1520 1900 2280 5 7.5 15 1.5 2.3 4.6 Flow 6" (150mm) kPa psi * ** gpm 1pm fps mps I ~ :;11 i 11111 Htttl 11 0 200 400 600 0 760 1520 2280 5 7.5 1.5 2.3 Flow 800 1000 1200 3040 3800 4500 1400 5320 15 4.6 gpm 1pm fps mps 0 400 800 1200 0 1520 3040 4560 5 1.5 1600 2000 6080 7600 7.5 2.3 Flow 2400 2800 3200 3600 4000 gpm 9120 10,640 12,160 13,680 15200 1pm 15 fps 4.6 mps • For Technical Assistance Call Your Authorized Watts Agent. Telephone# HEADQUARTERS: Watts Regulator Company 815 Chestnut St., North Andover, MA 01845-6098 U.S.A. 978 688-1811 Edwards, Platt & Deely, Inc. 271 Royal Ave., Hawthorne, NJ 07506 973 427-2898 Edwards, Platt & Deely, Inc. 368 Wyandanch Ave., North Babylon, NY 11703 631 253-0600 W. P. Haney Co., Inc. 51 Nortolk Ave., South Easton, MA 02375 508 238-2030 J.B. O'Connor Company, Inc. P.O. Box 12927, Pittsburgh, PA 15241 724 7 45-5300 RMI Glenfield Bus. Ctr., 2535 Mechanicsville Tpk., Richmond, VA 23223 804 643-7355 The Joyce Agency, Inc. 8442 Alban Rd., Springfield, VA 22150 703 866-3111 Vernon Bitzer Associates, Inc. 980 Thomas Drive, Warminster, PA 1897 4 215 443-7500 WMS Sales, Inc. (Main office) 9580 County Rd., Clarence Center, NY 14032 716 741-9575 Billingsley & Associates, Inc. 2728 Crestview Ave., Kenner, LA 70062-4829 504 602-8100 Billingsley & Associates, Inc. 478 Cheyenne Lane, Madison, MS 39110 601 856-7565 Francisco J. Ortiz & Co., Inc. Charlyn Industrial Pk., Road 190 KM1 .9 -Lot #8, Carolina, Puerto Rico 00983 787 769-0085 Mid-America Marketing, Inc. 203 Industrial Drive, Birmingham, AL 35211 205 879-3469 Mid-America Marketing, Inc. 1364 Foster Avenue, Nashville, TN 37210 615 259-9944 Mid-America Marketing, Inc. 5466 Old Hwy. 78, Memphis, TN 38118 901 795-0045 Smith & Stevenson Co., Inc. 4935 Chastain Ave., Charlotte, NC 28217 704 525-3388 Harry Warren, Inc. 1243 West Colonial Dr., Orlando, FL 32804 407 841-9237 Watts Georgia 2861-B Bankers Industrial Drive, Atlanta, GA 30360 770 209-3310 Aspinall Associates, Inc. 6840 Hillsdale Court, Indianapolis, IN 46250 317 849-5757 Dave Watson Associates 1325 West Beecher, Adrian, Ml 49221 517 263-8988 Disney Mclane & Associates 428 McGregor Ave., Cincinnati, OH 45206 800 542-1682 BWA Company 17610 S. Waterloo Rd., Cleveland, OH 44119 216 486-1010 Mid-Continent Marketing Services Ltd. 1724 Armitage Ct., Addison, IL 60101 630 953-1211 Soderholm & Associates, Inc. 7150 143rd Ave. N.W., Anoka, MN 55303 763 427-9635 Stickler & Associates 333 North 121 St., Milwaukee, WI 53226 414 771-0400 Hugh M. Cunningham, Inc. 13755 Benchmark, Dallas, TX 75234 972 888-3808 Mack McClain & Associates 11132 South Towne Square, Suite 202, St. Louis, MO 63123 314 894-8188 Mack McClain & Associates, Inc. 1450 NE 69th Place, Ste. 56 Ankeny, IA 50021 515 288-0184 Mack McClain & Associates, Inc. 15090 West 116th St., Olathe, KS 66062 913 339-6677 OK! Sales, Inc. 2200 Blue Creek Dr., Norman, OK 73026 405 360-6161 Phoenix Marketing, Ltd. 2416 Candelaria N.E., Albuquerque, NM 87107 505 883-7100 Delco Sales, Inc. 1930 Raymer Ave., Fullerton, CA 92833 714 888-2444 Delco Sales, Inc. 111 Sand Island Access Rd., Unit 1-10, Honolulu, HI 96819 808 842-7900 Fanning & Associates, Inc. 6765 Franklin St., Denver, CO 80229-7111 303 289-4191 Hollabaugh Brothers & Associates 6915 South 194th St., Kent, WA 98032 253 867 -5040 Hollabaugh Brothers & Associates 3028 S.E. 17th Ave., Portland, OR 97202 503 238-0313 P I R Sales, Inc. 3050 North San Marcos Place, Chandler, AZ 85225 480 892-6000 Preferred Sales 31177 Wiegman Road, Hayward, CA 94544 510 487-9755 R. E. Fitzpatrick Sales, Inc. 4109 West Nike Dr. (8250 South), West Jordan, UT 84088 801 282-0700 Watts Industries (Canada) Inc. (Watts Regulator Co. Division) 5435 North Service Road, Burlington, Ontario L?L 5H7 905 332-4090 Con-Cur West Marketing, Inc. 71 B Clipper Street, Coquitlam, British Columbia V3K 6X2 604 540-5088 D.C. Sales Corporation Inc. #10-6130 4th St. S.E., Calgary, Alberta T2H 2A6 403 253-6808 D. C. Sales Corporation Inc. 11420 142 Street, Edmonton, Alberta T5M 1V1 780 496-9495 GTA Sales Team. Greater Toronto Area 888 208-8927 Hydro-Mechanical Sales, Ltd. 3700 Joseph Howe Drive, Suite 1, Halifax, Nova Scotia B3L 4H7 902 443-2274 Hydro-Mechanical Sales, Ltd. P.O. Box 1445 (Mailing), 297 Gallishaw St., Suite 7 (shipping) Moncion, New Brunswick E1 C 9R2 506 859-1107 J.D.S. Sales Ltd. 4 Lancaster Street, St. John's, Newfoundland A 1 A 5P7 709 579-5771 Le Groupe 8.G.T., Inc. 23 du Buisson, Pont Rouge, Quebec G3H 1X9 418 873-2500 Le Groupe B.G.T., Inc. 86 des Enterprises #208, Boisbriand, Quebec J7G 2T3 450 434-9010 Mar-Win Agencies, Ltd. 1333 Clifton St., Winnipeg, Manitoba R3E 2V1 204 775-8194 Northern Mechanical Sales P.O. Box 280 (mailing) 163 Pine St. (shipping), Garson, Ontario P3L 1S6 705 693-2715 Palser Enterprises, Lid. P.O. Box 28136 (mailing), 1885 Blue Heron Dr., #4, London, Ontario N6H 5L9 519 471-9382 RAM Mechanical Marketing Inc. 1401 St. John Street, Regina, Saskatchewan S4R 1 S5 306 525-1986 RAM Mechanical Marketing Inc. 51 O Ave M South, Saskatoon, Saskatchewan S?M 2K9 306 244-6622 Walmar Mechanical Sales 24 Gurdwara Rd., Nepean. Ontario K2E 8B5 613 225-9774 EXPORT Hdqtrs.: Watts Regulator Co. 815 Chestnut St., North Andover, MA 01845-6098 U.S.A. 978 688-1811 WW411S0 • 9001 Watts USA website: www.wattsreg.com Watts Canada website: www.wattscanada.ca CERTIFIED Fax# 978 794-1848 973 427-4246 631 253-0303 508 238-8353 724 745-7420 804 643-7380 703 866-2332 215 443-7573 716 741-4810 504 602-8106 601 856-8390 787 750-5120 205 870-5027 615 259-5111 901 795-0394 704 525-67 49 407 841-9246 770 447-4583 317 845-7967 517 263-2328 877 476-1682 216 486-2860 630 953-1067 763 427-5665 414 771-3607 972 888-3838 314 894-8388 515 288-5049 913 339-9518 405 360-0092 505 883-7101 714 888-2448 808 842-9625 303 286-9069 253 867-5055 503 235-2824 480 892-6096 510 476-1595 801 282-0600 905 332-7068 604 540-5084 403 259-8331 780 496-9621 888 479-2887 902 443-227 5 506 859-2424 709 579-1558 418 873-2505 450 434-9848 204 786-8016 705 693-4394 519471-1049 306 525-0809 306 244-0807 613 225-0673 978 794-1848 ~REGULATOR ES-709DCDA 0522 © Watts Regulator Company, 2005 • TEXTRON Fastening Systems HangerMate® Threaded Rod Anchoring System EZH475 & EZH476 Anchors head crass-drilled to accept 3/8- 16 threaded rod components nut required for light-gage applications (supplied) EZH476 Features & Benefits • Cross-drilled and tapped for attaching 3/8-16 threaded components to steel • Solid, one piece cold formed part; head cannot spin off or unscrew from body • #3 self-drilling point for steel thicknesses of .060-.250" • EZH476 includes backing nuts which greatly improves pullout values in thin material and are required to meet UL requirements Performance Values for EZG475 Anchor (no nut) Steel Thickness 0.062" 0.074" 0.104" 0.111" 0.189" 0.248" , Average Uhimate Pull-Out Value (lbs) 1739 1944 2420 2570 2809 2809 Performance Values for EZG476 Anchor (with nut) Steel Thickness 0.062" 0.074" 0.104" 0.111" 0.189" 0.248" Average Ultimate Pull-Out Value (lbs) 2756 2753 2809 2809 2809 2809 l . The loads indicated above are overage ultimate values achieved under laboratory conditions and appropriote safety factors should be applied for design purposes, 2. NFPA (Notional Fire Protection Assoc.) minimum fastening requirements ore five times the weight of a 15 ft secnon of water-filled pipe plus 250 lbs. This is 1475 lbs, for 4" pipe, 3, All test values were obtained using 3/8· l 6 rod, When l / 4-20 rod is used, the strength of the rod may be less than the pull-out values al the anchors, 4. loads were determined by testing products in the orientation for which they were designed ta be used, End-drilled parts were pulled in line with the anchor's axis while cross-drilled ports were tested with the force perpendicular to the axis. Back to Application Guide S P E C E CA I EZH475 & EZH476 HangerMate Anchors Application Material: Steel .060" -.250" Specification: ON S 1 / 4" shank diameter, one-piece anchor with cross-drilled head to accept 3/8"-l 6 threaded rod and components, #3 self-drilling point and self-tapping threads FM Approvals and UL Listings: • EZH476 (with nuts) is UL listed for 4" pipe in 16 gage steel (0.060") • Not tested.by _FM Head Style: 9/16" diameter head cross-drilled arid tapped to accept 3/811 -l 6 threaded components Head Height • 3/411 Driv~ He,x, ~Iz~,: 1 /211 across flats Shank Length: l " Shank Threads: 3/811-l 6 self-tapping Point Type: #3 self-drilling Material & Heat Treat: Carbon steel (AISI Cl OB21) case hardened and tempered Finish: Zinc plated per ASTM B633 Type II Class 12 Installation Tools: HangerMate drive socket: EZE215 with safety set feature; automatically disengages when anchor is seated Recommended power tool: Contractor-grade screw gun; 12 volt min. cordless or 4.5 amp min. corded tool l 300-2000 rpm For more information, contact Textron Fastening Systems e 1.800.435.7213 e-mail: info@tfs.textron.com Fig. 200 -"Trimline" Adjustable Band Hanger Size Range -1/2" thru 8" pipe Material -Carbon Steel, Mil. Galvanized to G90 specifications Function -For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features - (1/2" thru 2") Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut from separating with hanger. Hanger is easily installed around pipe. • (2½" thru 8" Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. B A Approvals -Underwriters' Laboratories listed (1/2" thru 8") in the USA {UL) and Canada {cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (3/4" thru 8"). Conforms to Federal Specifications WW-H-171 E, Type 10 and Manufacturers 112 THRU 2 INCH PlPE , Standardization Society SP-69, Type 10. Maximum Temperature -650°F Finish -Mil. Galvanized. For Stainless Steel materi- als, order TOLCO™ Fig. 200WON. Order By -Figure number and pipe size Dimensions • Weights Pipe Rod Size Size Inch Metric A B 1/2 3/8 8mm or 10mm 3¼ 2¾ 3/4 3/8 8mm or 10mm 3¼ 2½ 1 3/8 8mm or 10mm 3% 2¾ 1¼ 3/8 8mm or 10mm 3¾ 27/a 1½ 3/8 8mm or 10mm 37/a 27/4 • 2 3/8 8mm or 10mm 4½ 3 2½ 3/8 10mm 5¾ 4¼ 3 3/8 10mm 5¼ 4 • 3½ 3/8 10mm 7% 5¼ 4 3/8 10mm 7% 5 5 1/2 12mm 9¼ 6¼ 6 1/2 12mm 101/a 6¾ 8 1/2 12mm 13¼ 8¾ Max. Rec. Load Lbs. 400 400 400 400 400 400 600 600 600 1000 1250 1250 1250 B A 2 1i2 THRU 8 INCH PIPE Approx. Length 11 11 12 13 14 15 27 29 34 35 66 73 136 Ill OFFICE/MANUFACTURING FACILITY· ms SAMPSON AVE • CORGr✓A CA 92879 • PH 951737 5S99 • FAX 9517370330 ~ ru , .... _. , :· • • • • • , ~"'r • ~ _ . , ~ . ·~ ~ . • www.tolco.com er • ~ ·: • a brand 0f NIBCO" • , . . .' , . • • Revision 8/15/2005 , . • .. '> ~ • .. ·~ Fig. 98 -Rod Stiffener Size Range -Secures 3/8" thru 7/8" hanger rod Material -Carbon Steel Function -Secures channel to hanger rod for vertical seismic bracing. Approvals -Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load. spacing and placement information relating to OSHPD proiects. please refer to the TOLCO Seismic Restraint Systems Guidelines Finish -Electro Galvanized Note -Available in HOG finish or Stainless Steel materials. Order By -Figure number Fig. 99 -All Thread Rod Cut to Length Size Range -Secures 3/8" thru 7/8" rod in 1" increments Material -Carbon Steel Maximum Temperature -750°F Finish -Plain ' Note -Available in Electro-Galvanized and HOG finish or Stainless Steel materials. I Order By -Figure number, rod diameter, rod length and finish Fig. 100 -All Thread Rod Full Lengths Size Range -Secures 3/8" thru 7/8" rod in 1 O' lengths Material -Carbon Steel Maximum Temperature -750°F Finish -Plain Note -Available in Electro-Galvanized and HOG finish or Stainless Steel materials. Order By -Figure number, rod diameter and finish Dimensions • Weights Max Rec. Load Lbs. Rod For Service Temps Approx. Size 650°F 750°F Wt./100 1/4 240 215 12 3/8 610 540 29 1/2 1130 1010 53 5/8 1810 1610 84 3/4 2710 2420 123 7/8 3770 3360 169 4960 4420 222 1¼ 8000 7140 360 1½ 11630 10370 510 Component of State of Iii.\ California OSHPD Approved C~US LISTED Seismic Restraints System Dimensions • Weights Rod Max. Rec. Load Lbs. Size For Service Temps 650°F 750°F 3/8 610 540 1/2 1130 1010 5/8 1810 1610 3/4 2710 2420 7/8 3770 3360 OFFICE/MANUFACTURING FACILITY· 1375 SAf,!PSON AVE ·CORONA.CA 92879 • PH Si173i 5599 • f/\X 951737.0330 r.11canM~D <;.~Du1rJ: • Rnri 7~::; .:,·;r.a.; Fig. 28 "Stand-Off" Hanger & Restrainer for CPVC Plastic Pipe Size Range -¾" through 2" Material -Carbon Steel, Pre-Galvanized Function -Designed to be used as a hanger and restrainer for CPVC piping where the "stand-off' design will ease installation by eliminating the need for wood blocking. Features: Flared edge design protects CPVC pipe from any rough or abrasive surfaces. Unique twist and lock design holds pipe firmly in place and allows retrofit type of installation. The "Stand-Off' design eliminates the need for wood block extension. Can be installed on horizontal or vertical piping regardless of mounting surface orientation. Attaches easily to wood structure with two hex head self-threading screws furnished with product. Installs easily using rechargeable electrical driver with 5/16" extension socket eliminating impact tool damage to pipe. Attaches easily to steel, minimum 18 gauge with (2) 1/4" x 1" tek type self drilling tapping screws. U.L. Listed as a hanger and a restrainer for fire sprinkler piping. Approvals -Underwriters' Laboratory Listed in the USA (UL) and Canada (cUL) to support automatic fire sprinkler systems. May be installed into wood using fasteners • supplied with product, or into minimum 18 gauge steel using (2) 1/4" x 1" tek type screws. Meets and exceeds the requirements of NFPA 13, 13R and 13D. Fig. 28 satisfies the UL vertical restraint requirement where needed. UL Listed as a hanger and vertical restraint when installed on 3/8" composite wood material. Use two Fig. 278 Speed Nuts when used as a hanger and restraint. Use one Fig. 278 Speed Nut on the upper installed screw when used as a hanger only. Order by -Figure number and pipe size. US AND IN"FERNATIONAL PATENT APPLICATION IN PROCESS. j!!REQ-\./:Hl:D H1GHSIO€ ~r H,\NG[P_ \ ,'I£~ >'::':-, nG.279 (Z}R[OU!Rt:O c@us LISTED B A C Dimensions • Weights HANGE1. ,A.P?L1-C,\T!OM HANGl:H l. F-!ESl:-(t>.i\'i Ar-1.-l\!C.!..IION F!G.20 FIG 2/i L Pipe Size 3/4 1 1¼ 1½ 2 A B 3½2 2 33/16 21/16 3% 21/a 4 2½ 41/2 211/16 OFFICE/MANUFACTURING FACILITY • 1375 ,AMPSON AVE • CORGr✓A. c~. 92879 • PH 951 737 W,9 • FAX 951 737 0330 C Approx. Wt. 3½ .180 3½ .210 3½ .225 3½ .310 3% .340 iii r • .. 1. PRODUCT DESCRIPTION SpecSeal® LCI Sealant is a versatile and economical intumescent product intended for firestopping a wide array of applications in small commercial or grouped residential constructior:i and other structures with similar applications. SpecSeal® LCI Sealant is available in a single grade that has excellent caulking properties as well as high build properties on vertical or overhead surfaces. This single grade may be caulked (standard cartridge or bulk loaded), knifed or troweled. In addition, SpecSeal® LCI does not contain PC B's or asbestos. 1------1 SpecSeal® LCI Sealant is storage stable (when stored according to the manufacturer's recommendations), is asbestos free and will not separate or shrink when dried. SpecSeal® LCI Sealant will adhere to all common construction and penetrant materials and contains no solvents that might adversely effect plastic pipes or .__ ___________ __. cable jackets. ~---~----~ 2. APPLICATIONS See Table A for a summary application list. SpecSeal® LCI Sealant has a broad application base designed to seal a wide variety common penetrations in light commercial and grouped residential construction. Penetrant types include insulated and non-insulated metallic pipes and tubes, non-metallic pipes and tubes, and common electrical service and power distribution, telephone, data, and TV cabling. This product is also used in conjunction with other SpecSeal® Products such as SpecSeal® Firestop Collars and Wrap Strips to protect larger plastic pipes. 3. PHYSICAL PROPERTIES See Table B . ._u.....L. _ _..; _____ __.4.PERFORMANCE 3L73 fill, IIJIDORCAVITY MATERIALSCLASSlfltO BY UNDERWRITERS IJ\80RATOms1NC ® FOR USI: IN THROUGH-PENETRATION Fl REST OP SYSTEMS SEE UL FIRE RESISTANCE DIRECTORY CIJ\SSIFIEO fill, IIJIO, OR CAVITY MATERIALS FOR USE IN THROUGH-PENETRATION FIRESTOPSYSTEMS. SEE UL DIRECTORY OF PROOUCTSCERTIF IEO FOR CANADA AND UL f IRE RESISTANCE OIREC TORY SpecSeal® LCI Sealant is the basis for systems that meet the exacting criteria of ASTM E814 (UL 1479) as well as to the time-temperature requirements of ASTM E119 (UL263). LCI provides up to a 2-hourfire rating for typical service penetrations through concrete or wood floors, concrete or masonry walls, as well as gypsum board walls. LCI meets Class A finish requirements for Flame Spread and Smoke Development when tested in accordance with ASTM E84 (UL723). LCI Sealant is also acoustically tested, demonstrating excellent sound attenuation properties. 5. SPECIFICATIONS '-------------~ The firestopping sealant shall be a water-resistant. intumescent latex sealant. The sealant when exposed to high heat or flame shall exhibit a free expansion of up to ____ F_E_J,;._T_U_R_E_S ___ -----1 8 times its original volume. The firestopping sealant shall contain no water soluble • Economical High performance without the high price! • Highly lntumescent Expands up to 1 OX. • Excellent Smoke Seal • Safe for contact with plastics. • Water Resistant Will not re-emulsify when dry . • Water-Based for easy installation, cleanup, and disposal. • Acoustically Tested Reduces noise transmission • Safe ... Low VOC's, No Solvents, Non-Halogenated • Pale Red Color for easy identification nor hygroscopic ingredients and shall be acoustically tested. The sealant shall be UL Classified and tested to the requirements of ASTM E814 (UL 1479) and shall meet Class A finish requirements when tested in accordance with ASTM E84 (UL723). SPECIFIED DIVISIONS DIV. 7 07840 Through-Penetration Firestopping DIV. DIV. DIV. 13 15 16 13900 Special Construction Fire Suppression & Supervisory Systems 15250 Mechanical Insulation -Fire Protection 16050 Basic Electrical Materials & Methods For the latest Product and System Information, Call STl'S FACTS-ON-DEMAND automated information attendant system by dialing toll-free (888)526-6800! .~.T ! !="·rodw.1 [,eta s1·1eet • Series LCI lntumescent Sealant • • SpecSeal® TYPE LCI SEALANT Prepared By: James P Stahl Date Prepared: 10/02/00 Section One: PRODUCT INFORMATION PRODUCT NAME: SHIPPING NAME: MANUFACTURER'S NAME: MANUFACTURER'S ADDRESS: BUSINESS PHONE NO.: EMERGENCY PHONE NO.: SPECSEAL Sealant Type LCI Same Specified Technologies Inc. 200 Evans Way, Suite 2, Somerville, NJ 08876 008-526-8000 800-255-3924 Section Two: HAZARDOUS INGREDIENTS INFORMATION CHEMICAL NAME: CAS. No. % By Wgt. ACGIH TLV OSHA PEL None above de minimis concentrations Section Three: PHYSICAL & CHEMICAL DATA PHYSICAL STATE: BOILING POINT: EVAPORATION RATE: SOLUBILl1Y IN WATER: PERCENT SOLIDS: (by weight) Paste 212°F <1 Infinitely dilutable 80% APPEARANCE & ODOR: SPECIFIC GRAVl1Y: VAPOR PRESSURE: MEL TING POINT: VOLATILES: (by volume) Pale red paste with minimal odor. 1.10 NA NA 22% Section Four: FIRE & EXPLOSION HAZARD DATA FLASH POINT: FLAMMABLE LIMITS: PROPER EXTINGUISHING METHOD: RECOMMENDED FIRE FIGHTING PROCEDURES: Not applicable-Water-based compound. LEL: NA UEL: NA Foam, water, or carbon dioxide. Treat as a dass "B" fire. Limit fire fighting to those trained to do so. Minimize breathing gasses, vapor, fumes, or decomposition products. Use supplied-air breathing equipment for confined spaces or as otherwise needed. UNUSUAL FIRE & EXPLOSION HAZARD: None known. Section Five: HEAL TH HAZARD DATA MEDICAL CONDITIONS AGGRAVATED BY EXPOSURE: PRIMARY ROUTE OF ENTRY: SIGNS & SYMPTOMS OF EXPOSURE: Pre-existing eye, skin, pulmonary disorders may be aggravated by this product Skin YES Eye Contact YES Inhale NO Ingestion NOT LIKELY EMERGENCY AND FIRST AID PROCEDURES: Skin Contact: Can cause irritation and redness. Wash with soap and water. Get medical attention if irritation persists. Inhalation: Ingestion: Eye Contact: N.A. NA Can cause irritation, redness, tearing, blurred vision. NA NA Treat as a foreign object in eye. Flush with large amounts of water, frequently flushing under the lids. Get medical attention if irritation persists. ACUTE EFFECTS OF OVEREXPOSURE: Irritation and redness (eyes & skin) CHRONIC EFFECTS: CARCINOGENICITY: \ Page 1 of 2 Prolonged or repeated contact with skin can cause moderate irritation. OSHA Permissible exposure limit -NO ACGIH TLV -NO MSDS -SpecSeal Type LCI Sealant FOD-5063 j , • • Section Six: REACTIVITY DATA STABILITY: CONDITIONS TO AVOID: HAZARDOUS DECOMPOSITION PRODUCTS: HAZARDOUS POLYMERIZATION: INCOMPATIBILITY: Stable Exposure to temperatures in excess of 130 F. In the event of partial combustion, fumes, smoke, carbon com- pounds, and other decomposition products may be released. \/Viii not occur. None known. Section Seven: PRECAUTIONS FOR SAFE HANDLING & USE RESPIRATOR: GLOVES: EYE PROTECTION: OTHER PROTECTIVE CLOTHING/ARTICLES: WORK/HYGIENIC PRACTICES: STEPS TO BE TAKEN IN CASE MATERIAL IS RELEASED OR SPILLED: WASTE DISPOSAL METHOD: STORAGE & HANDLING PROCEDURES: Not needed. Cotton or rubber gloves as needed. Safety glasses with side shields if needed. None needed. Avoid prolonged or repeated contact with the skin. Product is readily removed from the skin with waterless hand cleaners followed by washing with soap and water. Shovel or scoop into a sealable container for disposal. If this product becomes a waste, it is considered non-hazardous waste. Dispose of in accordance with local, state, and federal environmental and waste regulations. Store in a cool, dry area. Section Eight: REGULA TORY INFORMATION All components are included in the EPA Toxic Substance Control Act (TSCA) Chemical Substance Inventory. If this product becomes a waste, it does not meet the criteria of a hazardous waste as defined by RCRA 40CFR261. Hazardous Materials Identification System (HMIS) Health Hazard Rating: 1 No significant risk to health. Flammability Hazard Rating: 0 Minimal hazard. \/Viii not bum unless heated. Reactivity Hazard Rating: 0 Normally stable and will not react with water. Personal Protective Equipment: A Safety glasses. Section Nine: DOT/SHIPPING INFORMATION EPA SARA Title Ill hazard dass (40CFR370): EPA SARA Title 111 Section 313 (40CFR372): EPA SARA Title Ill (40CFR355): Chronic health hazard. There are no listed chemicals present in quantities greater than the de minimis level. There are no components in this product at a level which would require reporting. Section Ten: DISCLAIMER Notice: This information relates to the specific material designated and may not be valid for such material used in combination with any other materials or in any process. Such information is to the best of our knowledge and belief accurate and reliable as of the date compiled. However, no representation, warranty, or guarantee is made as to its accuracy, reliability or completeness. It is the user's responsibility to satisfy himself as to the suitability and completeness of such information for his own particular use. We do not accept liability for any loss or damage that may occur from the use of this information . I Page 2 of 2 MSDS -SpecSeal Type LCI Sealant FOD-5063 I , • Table A: APPLICATIONS • Metallic Pipes including steel, iron, or copper pipe and tubing. • Nonmetallic Pipes, Conduits & Tubing including PVC, CPVC, ABS, and PEX. Electrical & Electronic Cabling including service entrance, power distribution, computer, telephone, and television. • Metal Ductwork including HVAC, bath and dryer vents. • Insulated Pipes including heating, cooling, and condensation applications. • Complete Wood Floor firestopping package for electrical, plumbing, HVAC, telephone, and television. Table B: PHYSICAL PROPERTIES Product Name Color Odor Density pH voe Series LCI Sealant Pale Red Mild Latex 9.0 Lb/Gal 9.0 0.29 Lb/Gal (35.0 g/L) ASTM D3960 OR EPA Method 24 Expansion Begins 320°F (160°C) Volume Expansion 10X Free Expansion In-Service Temp. ~ 130°F (54°C) Flame Spread O* Smoke Development 5* • Tested to ASTM E84 (UL 723) at 14% surface coverage (modified test for sealants and caulks) Fig 1: METALLIC PIPES -Concrete/Masonry Floors & Walls LCI Sealant Steel Sleeve Mineral Wool Metallic Pipe Concrete Floor Metallic Pipe . ., LCI Sealant Concrete Wall UL System No. C-AJ-1353 UL System No. W-J-1098 F Rating 2 Hr • T Rating: 0 Hr F Rating: 2 Hr • T Rating O Hr Steel or Iron Pipe: <8", Copper Pipe: <4" Annulus: Point contact to 2· Sealant Depth: ½" Steel or Iron Pipe: <8", Copper Pipe: <4" Annulus: Point contact to 2" Sealant Depth: 5/8" Forming Material: Norn 4 pcf mineral wool (3" depth) Fig 2: INSULATED METALLIC PIPES -Concrete/Masonry Floors & Walls LCI Sealant 1 ~--.._.,,,d:::::>i Mineral Wool Concrete Floor Insulated Pipe Concrete Wall Assembly UL System No. C-AJ-5138 F Rating: 2 Hr• T Rating: ¾ or 1 Hr Steel or Iron Pipe s·, Copper Pipe: 4· 4 Pipe Covering: Max. 2" fiber glass or mineral wool pipe insulation. Annulus: ½·to 1-5/8" •Sealant½" Forming: Norn. 4 pcf mineral wool (3" depth) Steel Sleeve LCI Sealant (Both Sides) Insulated Metalllc Pipe Table C: SEALANT REQUIREMENTS IN CUBIC INCHES PER 1/4 INCH OF INSTALLED DEPTH* Pipe Size Diameter of Opening (in.) Trade Pipe Size O.D. 1.5 2.0 3.0 4.0 5.0 6.0 7.0 8.0 10 12 14 26 o.5-0.840 0.3 0.6 1.6 3.0 4.8 6.9 9.5 12.4 19.5 28.1 38.3 132.6 1· 1.315 0.1 0.4 1.4 2.8 4.6 6.7 9.3 12.2 19.3 27.9 38.1 132.4 1.5" 1.900 1.1 2.4 4.2 6.4 8.9 11.9 18.9 27.6 37.8 132.0 2· 2.375 0.7 2.0 3.8 6.0 8.5 11.5 18.5 27.2 37.4 131.6 2.5-2.875 0.1 1.5 3.3 5.4 8.0 10.9 18.0 26.7 36.9 131.1 3· 3.500 0.7 2.5 4.7 7.2 10.2 17.2 25.9 36.1 130.3 3.5" 4.000 1.8 3.9 6.5 9.4 16.5 25.1 35.3 129.6 4· 4.500 0.8 3.0 5.6 8.5 15.6 24.2 34.4 128.7 6" 6.625 *Different Sealant Depth? 1.1 4.0 11.1 19.7 29.9 124.2 s· 8.625 112· Multiplyby2 4.9 13.6 23.8 118.0 5/8" Multiply by 2.5 10· 10.750 1" Multiplyby4 5.6 15.8 110.0 12· 12.750 1-1/4" Multiplyby5 6.6 100.8 24" 24.000 I I 19.6 !MPOR1ANT N01E: 1his table is tor estimation purposes only. Consult UL Fire Resistance Directory or ST! Producl & Applicalion Guide !or specific installation requirements and limnations ST: Product De1I& Shee1 • Series LCI lntumescent Sealant f OD-50E:~· '.0/00a • i r , t Fig. 3: ELECTRICAL, DATA OR COMMUNICATIONS -Gypsum Walls Cable Bundle ~ : Ii I,, ! ii :-- LCI Sealant (Both Sides) LJ ./ I ._, i I ii !;11 fT: Gypsum ii =~~ j UL System No. W-L-3169 F Rating 1, 2 Hr • T Rating ¼and¾ Up to 4· cable bundle Annulus: o· to½"• Sealant: 5/8" Non-Metallic Conduit Gypsum Wallboard Assembly LCI Sealant (Both Sides) UL System No. W-L-2241 F Rating 1, 2 Hr • T Rating ¼, l 1-3/4 <2. Rigid PVC or ENMT Annulus: O-r • Sealant 5/8" Fig. 4: BARE & INSULATED METALLIC PIPES -Wood Floor Assemblies Metallic Pipe~ LCI Sealant ~~~~ Wood Floor Assembly LCI Sealant UL System No. F-C-1074 F Rating: 1 Hr • T Rating ¼ and 1 Hr Steel, Iron or Copper: 4 • • Chase wall optional. Annulus: o· tor• Sealant: 5/8. bottom,¾" top LCI Sealant LCI Sealant Insulated Metallic Pipe Wood Floor Assembly UL System No. F-C-5043 F Rating: 1 Hr• T Rating:¾ and 1 Hr Steel, Iron or Copper: 4· Pipe covering 1 • Fiber Glass, Mineral fiber or AB/PVC • Chase wall optional. Annulus: 0·10 r · Sealant: 5/8" bottom, ¾"top. I Fig. 5: BARE & INSULATED METALLIC PIPES -Gypsum Walls I A Metallic LCI Sealant (Both Sides Pipe ✓ "' ..... l 7'--: Gyrisum I Wal board Assembly UL System No. W-L-1222 F Rating: 1, 2 Hr• T Rating:¼,¾, 1 Hr Steel or Iron pipe: 3·, Copper pipe: 4· Annulus: O" to 2" • Sealant: 5/8" Gypsum Wallboard Assembly LCI Sealant (Both Sides) UL System Nos. W-L-5121, W-L-5122 F Rating: 1, 2 Hr• T Rating: ¼ and 1 Hr Steel or Iron pipe 6·, Copper pipe 4 • Pipe covering Max. 2· fiber glass, ¾·AB/PVC or 2· mineral fiber Annulus o· to 1-1/2" • Sealant 5/8' ST 1 Product Dal6 .Shee-1 • Series LCI lntumescent Sealant 6. INSTALLATION INSTRUCTIONS GENERAL: Areas to be protected must be clean and free of oil, loose dirt, rust or scale. Installation temperatures must be between 35°F (2°C) and 100°F (38°C). Allow product to dry a minimum of 24 hours before exposure to moisture. SYSTEM SELECTION: Selection of an appropriate firestop system design is critical to the fire protection process. Space limitations preclude highly detailed information pertaining to individual application systems. Please consult the STI LC lntumescent Product &Application Guide as well as the UL® Fire Resistance Directory for additional information. FORMING: Some installations may require forming as either an integral part of the system or as an option to facilitate installation. In systems where forming is required, mineral wool batts with a minimum nominal density of 4 PCF are generally required. Cut forming material oversize to allow for tight packing. Position forming material to allow for the proper depth of fill material. FILL MATERIAL: SpecSeal® LC! may be installed by caulking using a standard caulking gun or from bulk containers using a bulk loading caulk gun, or by manually troweling using a mason's trowel or putty knife. If the sealant tends to pull back from a surface, clean the surface with a damp rag or sponge and reapply. Work sealant into all areas exercising care to eliminate voids or seams. The surface of the sealant can be smoothed using a putty knife dipped in water. Adding water to the sealant itself is not recommended. Sealant (when dry) may be painted using most non-solvent based paints. LCI Sealant (Both Sides) Gypsum Wallboard Assembly UL System No. W-L-8025 F Rating: 1, 2 Hr • T Rating:¼ Hr AC Line Set Two copper tubes, ACUne Set one with¾" AB/PVC and thermostat wire Annulus o·to 1· • Sealant 5/8" POTTER The Symbol of Protection U.S. Pat. No. 3921989 Canadian Pat. No. 1009680 Other Patents Pending Potter Electric, Rd., 1990 GENER.\L INFORMATION The Model VSR-F is a vane type waterflow switch for use on wet sprinkler systems. It is UL Listed and FM Approved for use on steel pipe; schedules 10 through 40, sizes 2" thru 8" (50mm thru 200mm). LPC approved sizes are 2" thru 8" (50mm thru 200mm). The unit may also be used as a sectional waterflow detector on large systems. The unit contains two single pole, double throw, snap ac1ion S\ritches and an adjustable, instantly recycling pneumatic retard. The switches are actuated when a flow of 10 gallons per minute (38 LPM) or more occurs downstream of the device. The flow condition must exist for a period of time necessary to overcome the selected retard period. ENCLOSURE: The unit is enclosed in a general purpose, die-cast housing. The cover is held in place with two tamper resistant screws which require a special key for removal. A field installable cover tamper S\vitch is available as an option which may be used tn indicate unauthorized removal of the cover. See bulletin no. 5400775 for installation instructions of this switch. VSR·0 F' VANE TYPE WATERFLOW ALARM SWITCH WITH RETARD UL, ULC and CSFM Listed, FM and LPCB Approved, NYMEA Accepted, CE Marked Service Pressure: Up to 450 PSI (31 BAR) Minimum Flow Rate for Alarm: IO GPM (38 LPM) Maximum Surge: 18 FPS (5,5 mis) Contact Ratings: Two sets ofSPDT (Form C) 15.0Arnps at 125/250VAC 2.0 Amps at 30VDC Resistive Conduit Entrances: Two knockouts provided for 1/2" conduit Environmental Specifications: • Suitable for indoor or outdoor use with factory installed gasket and die-cast housing. • NEMA 4/IP54 Rated Enclosure -use with appropriate conduit fitting. Temperature Range: 40°F/ I 20°F, 4,5°C/49°C • Non-corrosive sleeve factory installed in saddle. Caution: This device is not intended for applications in explosive environments. Sizes Available: Steel Pipe schedules l O thru 40, sizes 2" thru 8" BS 1387 pipe 50mm thru 200mm Note: For copper or plastic pipe use Model VSR-CF. Service Use: Automatic Sprinkler One or two family dwelling Residential occupancy up to four stories National Fire Alarm Code Optional: Cover Tamper Switch Kit, Stock No.0090018 INSTALLATION: See Fig.2 NFPA-13 NFPA-13D NFPA-13R NFPA-72 These devices may be mounted on horizontal or vertical pipe. On horizontal pipe they should be installed on the top side of the pipe where they will be accessible. The units should not be installed within 6" (15cm) ofa fitting which changes the direction ofthe waterflow or within 24" (60 cm) of a valve or drain. Drain the system and drill a hole in the pipe using a circular saw in a slow speed drill. The 2" (50mm) and 2 1/2" (65mm) devices require a hole with a diameter of l 1/4" + 1/8" -1/16" (33mm ±2mm). All other sizes require a hole with a diameter of2" ±1/8" (50mm ±2mm). Clean the inside pipe of all growth or other material for a distance equal to the pipe diameter on either side of the hole. Roll the vane so that it may be inserted into the hole; do not bend or crease it. Insen the vane so that the aiTow on the saddle points in the direction of the 11aterflow. Install the saddle strap and tighten nuts alternately to an eventual 50 ft-lbs. (68 11-in) of torque (see Fig. 2). The vane must not rub the inside of the pipe or bind in any way. Specifications subject to change without notice. !'oner Electric Signal Companv • 2081 Craig Road, St. Louis. tvlO. 63146-4 I 6 I • Phone: 800-325-3936/Canada 888-882-I 833 • www.ponersignal.com -wlll!C:wri:~~~=~=a::i• 1111a:::1z111:11::l!l!l)!!l'II•:• ::=1:ri.c•==~~~-~=t11::t:=~1:l.!11!::i:::=.:::11:11=:s:iililil!i::1:11=~~=::111111:::::1:ww:r 1 ~ ,11 ::11&,, 1ttx1-. PRINTED IN USA Ml, T. •880000 I -REV W PAGE I Of 2 MFG. a5400761 -7i02 VSR-F POTTER The Symbol of Protection VANE TYPE WATERFLOW ALARM SWITCH WITH RETARD FIG. l FIG. 2 SWITCH TERMINAL CONNECTIONS CLAMPING PLATE TERMINAL OPTIONAL TAMPER SWITCH ~ ~~TtOT LEAVE COVER OFF FOR RETARD ADJUSTMENT: ~NDED PERIOD OF TIME TO CHANGE TIME TURN KNOB (EITHER DIRECTION) FOR DESIRED TIME DELAY. USE THE MINIMUM AMOUNT OF RETARD NECESSARY TO PREVENT FALSE AL.ARMS, A "B" SETTING IS USUALLY ADEQUATE FOR THIS. FACTORY IS SET TO TO INSTALL, DRILL HOLE AS INDICATED: PIPE SIZE HOLE SIZE TIGHTEN NUTS ALTERNATELY 10 AN EVENTUAL son.-LBS (68 n-m) OF TORQUE 2" to 2 1/2" 1 1/4" +1/8" -1/16" (50mm to 65mm) (33mm ±2mm) MOUNT ON PIPE SO ARROW ON SADDLE r::..,;;.'-<-~-"'c--POINTS IN DIRECTION CAUTION: 3· to 8" 2· ±1/8" (80mm to 200mm) 50mm ±2mm) Cover Tamper (wri1re) C N.O. N.C. DIRECTIO WATERFL OF WATERFLOW ROLL PADDLE IN ---_,__ OPPOSITE OIRECTION OF WATERFLOW An uninsulated section of a single conductor should not be looped around the terminal and serve as two separate connections. The wire must be severed, thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. IWHTJ (RED) (BLK) \\ APPROX. RETARD SETTINGS (IN SECS.) owe. #761-30 FIG. 3 TYPICAL ELECTRICAL CONNECTIONS 2 SETS OF t'ORMALLY OPEN CONTACTS CLOSE ON ALARM t t ~~~ ~~~ THE N.C. A~D N.O. MARKJNGS Ot-,: THE SWITCH ARE FOR AN ALl\.R.M CONDmON. THE CONTACTS ARE REVERSED WHEN TI-IE DE\1CE IS IN TI-IE NORMAL CONIJITION. WATERFU)\\' ZO~F. ON FIRE PANEL POSITIVE DC OR HOT AC EOLR FRO~! FIRE PANEL ~1:GATI\'E DC OR --------~- '.'lEUTRALAC APPLICATION WARNING! NOTES: I. The Model VSR-F has two switches, one can be used to operate a central station, proprietary or remote signaling unit, while the other contact is used to operate a local audible or visual annunciator. 2. A condition of LPC Approval of this product is that the electrical entry must be sealed to exclude moisture. 3. For supervised circuits see "Switch Terminal Connections" drawing and caution note (Fig. IJ. 0 A B C 0 o 10-25 20-40 35-55 50-70 60-90 FIG. 4 To remove knockouts: Place screwdriver at edge of knockouts, not in the center. Due to the possibility of unintended discharges caused by pressure surges, trapped air, or short retard times, waterflow switches that are monitoring wet pipe sprinkler systems should not be used as the sole initiating device to discharge AFFF, deluge, or chemical suppression systems. TESTING The frequency of inspection and testing for the model VSR-F and its associated protective monitoring system should be in accordance with applicable NFPA Codes and Standards andior the authority having jurisdiction (manufacturer recommends quarterly or more frequently). If provided, the inspector's test valve. that is usually located at the end of the most remote branch line. should always be used for test purpos.::s. If there are no provisions for testing the operation of the flow detection device on the system, application of the VSR-F is not recommended or advisable. A minimum flow of IO gpm (38 Lpm) is required to activate this device. IMPORTANT NOTICE: Please advise the person responsible for testing of the fire protc:ction system that this system must be tested in accordance with the testing instructions. PRINTED IN USA l\1KT i!88O0OO I -REV W MFG #.\400711 I -:/02 PAGE! or! POTTER The Symbol of Protection PBA-AC & MBA-DC UL, ULC, and fM Approved Sizes Available: 6" ( 150mm), 8" (200mm) and 1 0" (250mm) Voltages Available: 2,--WAC 120VAC l2VDC (10.2 to 15.6) Polarized 24VDC (20.4 to 31.2) Polarized Service Use: Ffre Alarm General Signaling Burglar Alarm Environment: indoor or outdoor use (See Note I) -40° to l 50°F (-40° to 66°C) (Outdoor use requires weatherproof backbox.) Termination: AC Bells -4 No. 18 AWG stranded wires DC Bells -Terminal strip Finish: Red pO\vder coating Optional: Model BBK-1 weatherproofbackbox Model BBX-1 deep weatherproof backbox These vibrating type bells are designed for use as fire, burglar or general signaling devices. They have low power consumption and high decibel ratings. The unit mounts on a standard 4" (IO I mm) square electrical box for indoor use or on a model BBK-1 weatherproofbackbox for outdoor applications. Weatherproof backbox model BBK-1, Stock No. 150000 I. ALL DC BELLS ARE POLARJZED AND HAVE BUILT-IN TRANSIENT PROTECTION: Size inches Voltage Model Number Stock Number Current (Max.) Typical dB at Minimum dB at (mm) IO ft. (3m) (2) 10 ft. (3m) (1) 6 (150) 12VDC MBA126 1750070 .12A 85 76 8 (200) 12VDC MBA128 1750080 .12A 90 77 10 (250) 12VDC MBA1210 1750060 .12A 92 78 6 (150) 24VDC MBA246 1750100 .06A 87 77 8 (200) 24VDC MBA248 1750110 .06A 91 79 10 (250) 24VDC MBA24l0 1750090 .06A 94 80 6 ( 150) 24VAC PBA246 1806024 .17A 91 78 8 (200) 24VAC PBA248 1808024 .17A 94 77 IO (250) 24VAC PBA2410 1810024 .l7A 94 78 6 ( l 50) 120VAC PBA1206 1806120 .05A 92 83 8 (200) 120VAC PBA 1208 1808120 .OSA 99 84 10 (_250) 120VAC PBA 12010 1810120 .05A 99 86 Notes: I. Minimum dB ratings are calculated from integrated sound pressure measurements made at Underwriters Laboratories as specified in UL Standard 464. UL temperature range is -30° to l 50°F (-34° to 66°C). 2. Typical dB ratings are calculated from measurements made with a conventional sound level meter and are indicative of output levels in an actual installation. P,,ncr Ekctric Signal Compan\' • 2081 Craig Road. St. Louis. iv1O. 63146-4161 • Phone 800-32~-39361Canada 888-882-183~ • www.poners1g11al.co111 PRINTED IN USA MKT e88500(1 I -R[\' \' . MfG cj4illl77c, -JU,Oh P.A.GE ! OF 1 POTTER The Symbol of Protection PBA-AC & MBA-DC FIG. l BELLS DlMENSIONS INCHES (mm) FIG. 2 WEATHERPROOF BACK.BOX BOX H!\S ONE THREADED 1/2" CONDUIT ENTRANCE 2 11/16 .. (68) FIG. 3 FACP (250) 8" (200) 6" (150) DWGF 7/6-! '---------+-''------------·-i To Next Device or I End-of-Line Resistor r S 3:·4·· ! 146) --J , s18" (41) • 0 WIRING (REAR VIEW) A.C. BELLS 3 )/8 •• iR6) WJIJTE (L'I) WIIITEIO\/TI FROM CONTROL PANEL OR PRECEDING BELL CAUTION, BLACK (OL1T) WHEN ELECTRICAL SUPERVISION IS REQUIRED USE IN AND OUT LEADS AS SHOWN. "OTES, 112?) I. \\e1!EN USING AC BELLS. TERMINATE EACII EXTRA \\1RE SEPARATELY AFTER LAST BELL. 2. END-OF-LINE RESISTOR IS NOT REQl!IRED ON AC BELLS. INSTALLATION 1. The bell shall be installed in accordance with NFPA 13, 72, or local AHJ. The top of the device shall be no less than 90" AFF ·and not less than 6" below the ceiling. ) Remove the gong. 3. Connect wiring (see Fig. 3). 4. Mount bell mechanism to backbo:x (bell mechanism must be mounted with the striker pointing down) 5. Reinstall the gong (be sure that the gong positioning pin, in the mechanism housing, is in the hole in the gong). 6. Test all bells for proper operation and observe that they can be heard where required (bells must be heard in all areas as designated by the authority having jurisdiction). f'Rii\TED IN USA MKT a8850001 -REV V \U:G. ;.5:JOU77n. j(i Co PAGE? OF] FILE COPY Contractor's Material and Test Certificate for Aboveground Piping PROCEDURE S Upon completion cfworic, inspection and tests shall be made by the contractor's ropreaentahvo and witnessed by the property owner or their authorized agent. All defects shall be corrected and system left in service before contractors personnel finally leave the job. A certificate shall be filled out and aignd by both representatives; Coplea shall be prepared for approving authorities, owners, and contractor. It Is understood the owner's reprosentativesslgnature in no way prejudices any claim against contractor for faulty material, poor workmsriahip or failure to comply with approving authority's requirements or local ordinances. Property name Date 4to 'o Property address 17 12-t 7ve, U) Accepted by approving authorities (narnos' - Address 4(3. J) Plans Inetaliatlon conforms to accepted plans Yea IJ No Equipment used is approved YGS I No If no, explain deviations Has person In charge of fire equipment been Instructed as 'AYes No to location of control valves and care and maintenance of this now equipment? If no, explain Instructions - -- -. Have copIes of the following been loft on the promises? $J.Yela [3 No 1. System components instructions 1ves No 2. We and maintenance instructions Yes IJ No - 3. NFPA5 Yee No Losystem I cation of Supplies buildings Sprinklers Year of Qrfllcø Model manufacture I size Temperature Pipe and Type of pipe F . s"1c (.-r '!c. fittings Typo of fittings rJ -- Maximum time to operatn Alarm Alarm device J through test connection - valve or Typo -- Make -. { Mdei Minutes Seconda flow indicator Dry vlve p op Make - Model Serial no, Make - Model Serial no Time to trip Time water Alarm through teat Water Air Trip point reached operated Dry pipe connectlone,b pressure - pressure air pressure test cutletab propeil operating test Minuteal Seconds - pal - psi psi Minutes Seconds Yes J No if no, explain © 2006 National Firo Protection Association NFPA 13 (p. 1 of 3) Measured from time inspector's test connection is opened D NFPA 13 only requires the 60.soofld limitation In specific sections :- •4&S, 'I. Operaflort Purnatic U Electric 0HYdrautles J I-fl Piping supervised Dyes No Detecting media euporviced Qyas UNoL Does valve operate from the manual trip, remote, or both -. N control stations? 0 Deluge and preaction is there an accessible facility in each circuit If no, explain valves for testing? - Yes ID No Does each circuit operate Does 'each circuit operate 7 Maximum time to Make model ' supervision Iose•alrTr? J valverelease? j operate release Yes - No f, Yes No minutes I 3econdr1 PP in 6 que Location Make and S Residual pressure - and floor modal Setting Static pressure (flowing) Flow rate reducing val - inlet (psi Outlet (psi) IpsI Outlet (psi) Flow (gph) sJplg Hydrostatic tests shall be made at not Ieee than 200 psi (18.6 bar) for hours or 50 pal (34 bar) chove static pressure in excess of 160 psi (10.2 bar) for hours Differential dry-pipe valve clappers shall be left Test open during the teat to prevent damage. All aboveground piping leakage Shall be slopped. description En=affg Establish 40 psi (2.7 bar) air pressure and measure drop, which ehali not exceed 11A pal (0.1 bar) In 24 hours Test pressure tank., at normal water level and air prasecire and measure air pressure drop, which shell not exceed 11/5 pal (0.1 bar) in 24 hours. All piping hydroataticoily lasted at2 psi (......... bar) for ....2 hours tt no, state reason Dry piping pneumatically lasted (j Yes Q No Equipment operates properly Ye B Q No Do you certify as the sprinkler contractor that additives and corrosive chemicals, sodium silicate or derivatives of sodium Silicate, brine, or other corrosive chemicals were not used for testing e-1 Yes yGtsma or stopping 105k8? No Drain Reading of gauge located near Water Pesidual pressure with valve in teat Tests test supply teat connection: -. - psi (_...... bar) coflflOctiOn open wide:,... pi (_-__. bflr) Underground mains and lead-In connections to system risers flushed before connection made to Sprinkler piping Verified by copy of the Contractors Materiel and Test CJ Yea QNo Other txplrtlh Certificate for Underground Piping. Flushed by installer of undcrground sprinkler piping No if powder-driven fasteners are used in concrete, 11 Yea 0 No if no, explain has representative sample testing been satisfactorily completed? Blank testing Number used Locations Number removed gaskets () Welding piping Ayes ID No - It yes... Do you certify as the sprinkler contractor that welding procedures used compiled with j No the rninlnium requirements of AWS 82. 1, ASME Section IX Welding and Brazing -Qualiflcittions, or other applicable qualification standard as required by-the AHJ? Do you certify that all welding was performed by welders or welding operators Yes UNo quolifiod in accordance With the minimum requirements 01 AWS 92.1, ASM5 Section IX Welding and Brazing Qu&iflctlon, Or other applicable qualification standOrd as Welding required by the Al-U? Do you certify that theweiding was conducted in compliance with a documented a LiNo quality control procedure to ensure that (I) all discs are retrieved; (2) that openings in piping are smooth, that slag and other welding reEdduC are removed; (3) the internal diameters of piping are not penetrated; (4) completed welds are free from cracks, Incomplete fusion, surface porosity greater than 1/1c in. diameter, undercut deeper than the lessor of 25% of the wall thickness or "5a In.; and (6) completed circumferential butt weld reinforcement does hot exceed 34a In,? ) 2006 National Finn Pretectiori Association NFPA 13 (p, 2 of 3)