Loading...
Specifications • ■ ENCLOSURE PANEL BY GAYLORD MFR. SEE DETAILS ON SHEET 5 /// / / ////////i//./ < / / / / ///////////////// /// 7//////////////////i1 I/////////////////// LIFT OUT ACCESS DUCT NOZZLE DOOR IMPORTANT NOTE: EXHAUST DUCT OPENING CUT AT JOB SITE BY G.C. EXHAUST DUCT I I COLLAR MUST BE CONTINUOUSLY WELDED 32 TO THE TOP OF THE HOOD. I \ FRYER NOZZLE I ' I PLENUM NOZZLE 1 i *� �.. Q1(. �. *. � N J. /I I I I I I I I I 1 1 1 l 1 I� �I I, II iI IM oI ` .. i1 II 'I I . , 2 MIN. OVERHANG -- REQUIRED TYP. BOTH ENDS. • _ _ CITY OF TIGARD 1 I , , 1 7 , 1 7 ri 1 1 rl fl Approved p(4)res [ �' i C°ndidonaIly Approved [ j See Letter to: Follow. ° ° °°..°°.°....m [ j Attached °....... ° °.....° [ 1_ - 5' - 8 ° - - 5'_g° Pe mit Number: r - °.:-- ...,^ 1i' '3 , �� .�Gi coy ELEVATION VIEW ELEVATION VIEW By =a D 2- = WITH ENCLOSURE PANEL WITHOUT ENCLOSURE PANEL OFFICE COPY ' DIMENSION TOLERANCE PG ND AB 30 (CJ 5 - - FH) SHOP NOTE: ALL 430 S/S t 1/4 (6 MODEL # ITEM # WORK ORDER # GAYLORD CARL'S JR RESTAURANTS DATE 1 - 21 -11 INDUSTRIES,INC. SPECIAL 5' - 8" NOAWING C -12833 PO BOX 1149 TEL (503) 691 -2010 FRYER HOOD REV. 0 10900 SW AVERY ST GAYLORD TOLL FREE: (800) 547 -9696 TUALATIN, OR FAX (503) 692-6048 DRAWN DWG ELECT. F.P. IsE SHEET REV RE OWN. BY DATE DESCRIPTION CHK'D 97062 -1149 Etna: gayiord@ga BY: SN aIEac DNEac QIEat: APP ROVAL• N O" 2 ■ • I II FULL HOOD ENCLOSURE FLUSH TO THE CEILING BY GAYLORD MFR. SEE DETAILS ON SHEET 5 OPTIONAL METHOD OF MOUNTING USING ►. — 30 HANGING RODS. 26 I ...---------.4,........,..i.,...4,4 ..,..- .......-..„-----------------.....-....--- ANSUL R -102 PRE —PIPED BY GAYLORD MFR. I ALL EXPOSED PIPING AND FITTINGS CHROME PLATED. I I I -- 8.5 — I I I (2) MOUNTING /HANGING 32 I I FLANGE SEE SHT 6 ENCLOSURE — 4 _-± 26 HEIGHT \ 1 3" AIR SPACE 1 I / - - -- 2-- • _ / I ,' HOOD -\. r ,, STAINLESS BAFFLE FILTERS 4 6 . ii,... } . / \ ` GREASE CUP HOLDER �� I 'e `, SEE DETAIL ON .� ,/ SHT 8 FIN. 10CLG. % � I N �� �� ` END PANEL HEIGHT 36 \� N �I 3" SUPER I N HALF END PANEL (8'-6") CAPTURE UP E I BOTH ENDS —N IL\ _� # \ \I - -_ N 17.5 �4 ,, FRY DUMP . 70 j \ 1- - ` 1.5 MOUNTING FLANGE / I - SEE SHT 6 I I 8.5 ,4 _ - -- I. 1 BUILT IN 3 " - T II AIR SPACE 1 I — 1 1A ■ 7-1 IJ 2'-4" I II 11 , ( 1-- c 1 • ( SECTION VIEW END VIEW AT FRY DUMP '► SHOP NOTE: ALL 430 S/S DIMENSION TOLERANCE PG— ND— AB- 30— (CJ- 5 -8 —FH) ± 1/4 " (6mm) MODEL # ITEM # WORK ORDER # i GAYLORD CARL'S JR RESTAURANTS DATE 1 -21 -11 INDUS TRIES, INC. SPECIAL 5' — 8" NO.: C -12833 PO BOX 1149 TEL: (503) 691 -2010 • FRYER HOOD REV. Na: 00 10900 SW AVERY ST GAYLORD TOLL FREE (800) 547 -9696 TUALATIN, OR FAX (503) 692 -6048 p � p pF�, F.P. SE sN � 4. REV OWN. BY DATE DESCRIPTION CHK' 97062-1149 Email: a ord a ordusp.com sr" Na 9 ®9 SN aEa f7fEG( 01ECX APPROVAL 3 • I % i EXHAUST DUCT CFM 850 MOUNTING /HANGING FLANGE SIZE 10" DIA." 34 — SEE SHT 6 FPM: 1558 S.P. .80" 3 -...k_ Nk t� o o 0 0 0 0 0 O 0 0 0 IMPORTANT NOTE: EXHAUST DUCT _ _ OPENING CUT AT JOB SITE. EXHAUST i 9.5 DUCT COLLAR MUST BE CONTINUOUSLY W I -1 4E - 7 ELDED TO THE TOP OF THE HOOD. 1 — 3 J 0 O O FUSE LINK INLET r T T >— 4 4 4 4_ CHEMICAL INLET HALF END PANEL RIGHT AND LEFT HANGING CHANNEL SEE SHT 6 ENDS. 14 GA S/S 1 - 15.625 ---- 15.625 — 15.625 -- 10.5 AN SU L NOZZLE DROPS 5' -8" 150 CFM /LF PLAN VIEW 1 DIMENSION TOLERANCE PG— ND— AB— 30— (CJ— 5— 8— FH) ± 1/4" (6mm) MODEL # ITEM # WORK ORDER # GAYLORD CARL'S JR RESTAURANTS aA'E 1 -21 -11 INDUSTRIES, INC. SPECIAL 5' — 8" No C -12833 PO 1149 ST (503) 691 -2010 FRYER HOOD No GA TOLL FREE (800) 547 -9696 �� 10900 5 TUALAT1N. OR FAX (503) 692 -6048 S"EE ` EmaO: gaylord®gaylordusa.com BY: SN GIE0C I U OIEOC: APPR OVAL: NO.. 4 R EV OWN. BY DATE DESCRIPTION CHK'D 9706 - 1149 1 r NOTE: GAYLORD FACTORY PRE -PIPE STOPS AT THIS POINT. PIPING & NOZZLE FOR DUCT PROTECTION PROVIDED & INSTALLED BY NOTE: FIRST & LAST DETECTOR BRACKET ANSUL CONTRACTOR. FURNISHED & INSTALLED BY GAYLORD. CHEMICAL CENTER TWO (DUCT) DETECTOR BRACKETS DUCT NOZZLE INLET -------„A FURNISHED & INSTALLED BY ANSUL CONTRACTOR. # 1W HPF HPF PF FROM AUTOMAN IF o .. If IF � % PLENUM NOZZLE `, + 4 1 1 1 1 ) � r # 1 N HPF FRYER NOZZLES # 245 W /SWIVEL ELBOW DETECTOR PIPING CHEMICAL PIPING 1 HPF = HOOD PENETRATION FITTING ANSUL PIPING DETAILS FRYER HOOD , DIMENSION TOLERANCE ,4 " ± 1/4" (6mm) MODEL # ITEM # WORK ORDER # GAYLORD CARL'S JR RESTAURANTS OAT 1 -21 -11 INDUSTRIES,INC. SPECIAL 5' - 8" DRAWING .: C -12833 PO BOX 1149 TEL (503) 691 -2010 FRYER HOOD REV. . 00 10900 SW AVERY ST GAYLORD TOLL FREE: (800) 547 -9696 TUALATIN, OR FAX (503) 692 -6048 SHEET ` REV OWN. BY DATE DESCRIPTION CHK'D 97062 -1149 Email: goyiord®gayiordusa.com DRAWN SN BY: ECH ac CHE c OIECR: APPROVAL No' 7 • DETECTOR LINE TO HOOD CHEMICAL LINE TO HOOD BY ANSUL CONTRACTOR BY ANSUL CONTRACTOR CABLE TO MACHANICAL DETECTOR LINE TO REMOTE GAS VALVE BY nr CONTRACTOR. ULL ST ION BY ANSUL _ ANSUL CONTRACTOR n n n 0 CABINET 7.5" DEEP 23.5 STAINLESS STEEL ANSUL AUTOMAN RELEASE ASSEMBLY I-•— 16.5 —I-1 102 ANSUL CONTRACTOR FIN. CLG. HEIGHT IMORTANT NOTES: (8' -6 ") 1. INSTALL STAINLESS AUTOMAN CABINETS TIGHT TO THE FINISHED CEILING AS CONDUIT SHOWN. BY OTHERS 2. LOCATE STAINLESS AUTOMAN CABINETS AND GAS VALVE SIZES REMOTE PULLS AS SHOWN ON HOOD SIZE THE ARCHITECTURAL FIRE FRYER 1.00" MECHANICAL GAS VALVE PROTECTION PLAN. FURNISHED BY ANSUL CONTRACTOR, INSTALLED BY PLUMBING CONTRACTOR TYPICAL ANSUL FIRE SYSTEM p ANSUL DETAILS DIMENSION TOLERANCE • ± 1/4" (6mm) MODEL # ITEM # WORK ORDER # GAYLORD CARL'S JR DATE 1-21-11 INDUSTRIES, INC. SPECIAL 5' - 8" "' WING C -12833 PO BOX 1149 TEL (503) 691 -2010 FRYER HOOD REV. 10900 SW AVERY ST GAYLORD TOLL FREE (800) 547 -9696 TUALATIN, OR FAX (503) 692 -6048 ' off aye F�. F.P. p S.E. SHEET • REV DWN. BY DATE DESCRIPTION CHK'D 97062 -1149 Email: gayiord@gayiordusa.com Br. SN aEa CHECK OIEOC: APPROVAL: No.: 9 . sANDERsoN SANDERSON SAFETY SUPPLY CO. 1101 S.E. 3 Avenue (503) 238 -5700 Portland, OR 97214 (800) 547 -0927 FIRE PROTECTION Visit Us Online: www.sandersonsafety.com SYSTEM INFORMATION CONTINUED JOB NAME: CARL'S JR RECEIVED 11433 SW Pacific Highway JAN 19 2012 Tigard, OR 97223 CITY OF TIGAF D DATE: January 17, 2012 BUILDING DIVISION Design Manual: Ansul R -102 Restaurant Fire Suppression System Manual (Standard UL 300 Listed) JULY 1, 2009 SYSTEM #1 - FRYERS • Total maximum flow for 3 gallon system is: 11 . Total flows used: 11 . • Total number of nozzles used: o Appliance 4 o Plenum 1 o Duct 1 • Total number of detectors used: 4 • Total number of fusible links & temperature rating: 4 ea e450 deg. NOTE: Detectors placed above each appliance. Appliances underneath duct share same detector. • Supply pipe size: 3/8" o Maximum supply line: 40' ••• r i o Maximum duct branch line: 8' o Maximum plenum branch line: 4' o Maximum appliance branch line:12' NOTE: Pipe length does not exceed maximums allowed per Ansul R -102 Manual • Power shutdown: Micro- switches (manual reset) • Fuel shutdown: Mechanical Gas Valve (manual reset) • System tied to building fire alarms: Y / NA • Remote pull location: In kitchen on path of egress • K -class extinguisher: Located within 30ft of hood OREGON WASHINGTON CALIFORNIA IDAHO Eugene Seattle Bellingham Richmond Boise 850 Conger St. 97402 2600 Airport Way S. 98134 355 Ohio St. 98225 4909 Central Ave. 94805 (541) 683-9333 (206) 340-4300 (360) 734 -1110 (510) 559-8400 (208) 343-1323 SANDERSON SAFETY SUPPLY CO. sANDERsom,.: a., 1101 S.E. 3 Avenue (503) 238 -5700 FIRE PROTECTION ` Portland, OR 97214 ( ons fety.c 547-0927 m `�� , Visit Us Online: www.sandersonsafety.co - r - PS 241 Z CPIttO 5 SYSTEM INFORMATION CONTINUED JOB NAME: CARL'S JR 11433 SW Pacific Highway Tigard, OR 97223 DATE: January 17, 2012 Design Manual: Ansul R -102 Restaurant Fire Suppression System Manual (Standard UL 300 Listed) JULY 1, 2009 SYSTEM #2 - GRIDDLE • Total maximum flow for 1.5 gallon system is: 5 . Total flows used: 4 . • Total number of nozzles used: o Appliance 1 o Plenum 1 o Duct 1 • Total number of detectors used: 2 • Total number of fusible links & temperature rating: 2 ea ca360 deg. NOTE: Detectors placed above each appliance. Appliances underneath duct share same detector. • Supply pipe size: 3/8" o Maximum supply line: 40' o Maximum duct branch line: 6' o Maximum plenum branch line: 4' o Maximum appliance branch Iine:10' NOTE: Pipe length does not exceed maximums allowed per Ansul R -102 Manual • Power shutdown: Micro- switches (manual reset) • Fuel shutdown: Mechanical Gas Valve (manual reset) • System tied to building fire alarms: Y / NA • Remote pull location: In kitchen on path of egress • K -class extinguisher: Located within 30ft of hood OREGON WASHINGTON CALIFORNIA IDAHO Eugene Seattle Bellingham Richmond Boise 850 Conger St 97402 2600 Airport Way S. 98134 355 Ohio St. 98225 4909 Central Ave. 94805 (541) 683 -9333 (206) 340-4300 (360) 734-1110 (510) 559-8400 (208) 343-1323 • I 1 I ` I I I I I I I I I I Lf_ ?9 if 1 l _J INTEGRAL 3 , AIR SPACE r GREASE DRAWER L k _,_________ -J n O o0o - 8' -6 (102 FINISHED CEILING HEIGHT MINIMUM 91.5 — 6 OVERHANG • , THIS SIDE ' 7 0 o 0 Z O0O - Qo o ©o o Qo o Ca ®e 1 O ELEVATION VIEW n — 1 T7 TT — 7' -1 - DIMENSION TOLERANCE XG ND— BDL— PM— IB— SF— (CJ- 7- 1 —GOH) ± 1/4° (6mm) MODEL # _ITEM # WORK ORDER # GAYLORD CARL'S JR °"'E 09/14/10 INDUSTRIES,INC. PROTOTYPE 24 & 25 "0"""° C -12830 • • PO BOX 1149 iEL (503) 691 -2010 10900 SW AVERY ST GAYLORD 1111 FREE: (800) St7 - GRIDDLE -OVEN HOOD 1ALA19l. OR SHEET REV DIN BY DATE , DESCRIPTION CHKD 97062 -1149 Emot g°ylo jl marn _° � r. � "" CG I I I F a +Eac I N 6 • 4 14 I 12 SI\ I r j 17 i i 1.875 / :!,,, • NM 0 o a a o 0 12 �_ — k : - �NJ 360' LINK } 360 LINK ..- _ — — — 1-itif\ii,) ,,, ..tiY' 14 I ` I ' T DETECTION INLET J CHEMICAL INLET I r I Imo 4 I i 0 0 0 0 0 0 I —3-- - - 4 rT rT FIRE PROTECTION PLAN VIEW FIRE PROTECTION SECTION VIEW DIMENSION TOLERANCE XG ND— BDL— PM— IB— SF— ( CJ— 7- 1 —GOH) ± 1/4 (6mm) MODEL # ITEM # WORK ORDER # . GAYLORD CARL'S JR °"'E 09/14/10 INDUSTRIES,INC. PROTOTYPE 24 & 25 �""� C -12830 BOX 10900 S 1149 ST 1n: (503) 1-2010 GRIDDLE -OVEN HOOD 1 0900 T S R OR GAYLORD TOLL FREE (800) 547 -9696 lUALA149 FAX (503) 692-6048 DR °m ter, FA. S E ' sum REV DWN. BY DATE DESCRIPTION CHK'D End ga)lordOga)4ordusaeom _BY: CG I a�ac Iaaac lacac: APPROVAL N 8.2 SANDERSON SAFETY SUPPLY CO. SANDERSON/),,,\:.!1), 1101 S.E. 3 Avenue (503) 238 -5700 Portland, sit Us OR 97214 (800) 547 -0927 FIRE PROTECTION Visit Us Online: www.sandersonsafety.com • SYSTEM INFORMATION CONTINUED JOB NAME: CARL'S JR 11433 SW Pacific Highway Tigard, OR 97223 DATE: January 17, 2012 Design Manual: Ansul R -102 Restaurant Fire Suppression System Manual (Standard UL 300 Listed) JULY 1, 2009 SYSTEM #3 — NIECO CONVEYOR BROILER Total maximum flow for 3 gallon system is: 11 . Total flows used: 7 . • Total number of nozzles used: o Appliance 2 o Plenum 1 o Duct 1 • Total number of detectors used: 1 • Total number of fusible links & temperature rating: 1 ea t 500 deg. NOTE: Detectors placed above each appliance. Appliances underneath duct share same detector. • Supply pipe size: 3/8" o Maximum supply line: 40' o Maximum duct branch line: 8' o Maximum plenum branch line: 4' o Maximum appliance branch line:12' NOTE: Pipe length does not exceed maximums allowed per Ansul R -102 Manual • Power shutdown: Micro - switches (manual reset) • Fuel shutdown: Mechanical Gas Valve (manual reset) • System tied to building fire alarms: Y / NA • Remote pull location: In kitchen on path of egress • K -class extinguisher: Located within 30ft of hood OREGON WASHINGTON CALIFORNIA IDAHO Eugene Seattle Bellingham Richmond Boise 850 Conger St. 97402 2600 Airport Way S. 98134 355 Ohio St. 98225 4909 Central Ave. 94805 (541) 683 -9333 (206) 340-4300 (360) 734-1110 (510) 559-8400 (208) 343-1323 • I DUCT NOZZLE 6 PLENUM NOZZLE n 31 I I BROILER NOZZLE 4.502 (2.5 MIN)--I I---- 12.682 (2.5 MIN) NIECO 1424G COOKING SURFACE CONVEYOR BROILER 65 (F 3' -3 ELEVATION VIEW SHOP NOTE: ALL 430 S/S DIMENSION TOLERANCE PG- ND- BDLr CB- 48- (CJ- 3 -3 -BH) ± 1/4 (6mm) MODEL # ITEM # WORK ORDER # GAYLORD CARL'S RESTAURANTS a7: 09/14/10 INDUSTRIES, INC. PROTOTYPE 24 &25 N C -12830 moo 6 1149 AVERY ST TEL (503) 691-2010 BROILER HOOD t GAYLORD Tat F (800) 547-9696 REV DW & BY DATE DESCRIPTION CHK'D 97062 -1 49R End CC M AIN CG Iola latex lava IIP NO= 9 • • • i PRE -PIPED BY ` GAYLORD MFR. ALL EXPOSED PIPING CHROME SLEEVED _ 8 DIA. IMPORTANT NOTE: MOUNTING/HANGING ENCLOSURE PANELS FLANGE SEE SHT 12.2 PRE PIPED TO THIS ALL FOUR SIDES BY POINT BY GAYLORD. GAYLORD. SEE SHT 12.1 FOR DETAILS 48 ADDITIONAL FITTINGS AND I i I I FULL S/S BACK INSTALLED BY THE FIRE Ul � i/ SYSTEM CONTRACTOR. 14 (2) ts• X 16• NOZZLE PLACEMENT VARIES 1 DEPENDING ON IF BROILER " TYPE TEFLON 31 IS FITTED WITH A 26.5• COATED FILTERS CATALYTIC CONVERTER 1 INSULATED PANEL { CWPUNG 1 4.5 I < IN (19• MAX) } 9 �I I CATALYST 3 E 25 102' FIN. MG. I } • } _ HEIGHT J -'1 ,-) -- (8' -61 1. L.' — — 69.5 23.25 H 1 1 MTG. HT. INLET NIECO 14240 OUTLET CONVEYOR BROILER -- 65 i (m 66_1 58 n' (Lf ' -___ 3 5.5 I Ht_ , 1. ., Al , Q ri ri SECTION VIEW CARL'S JR BROILER STAND SHOP NOTE: ALL 430 S/S DIMENSION TOLERANCE PG- ND- BDL-CB- 48- (CJ- 3 -3 -BH) ± 1/4 (6mm) MODEL # ITEM # WORK ORDER # • GAYLORD, CARL'S JR RESTAURANTS °' 09/14/10 , INDUSTRIES,INC. PRPTOTYPE 24 & 25 OJ C -12830 - - PO BOX 1149 Ta ( 691 -2010 BROILER HOOD 4 •' 10900 SW AVERY ST GAYLORD TOLL FRFF (B00) 547 -9696 (503) 692 -6048 I BY DATE DESCRIPTION CHI Ilk CO C O �2 -1149 REV FAIL o 1C r. s.t NN04 camm Erna 9°yladOgoOordusaean er: CG I am I suc R atm: Iam: I AL 10 • ., O • I N01E: FIRST & LAST DETECTOR BRACKET • FURNISHED & INSTALLED BY GAYLORD. CENTER (DUCT) DETECTOR BRACKET FURNISHED & INSTALLED BY ANSUL CONTRACTOR. FROM AUTOMAN FROM AUTOMAN NOTE GAYLORD FACTORY PRE —PIPE STOPS AT NOTE: PRE —PIPED TO THIS POINT BY GAYLORD THIS POINT. PIPING & NOZZLE FOR DUCT PROTECTION PROVIDED & INSTALLED BY DETECTOR BRACKET FURNISHED AND :.•::?' HPF ANSUL CONTRACTOR. INSTALLED BY ANSUL CONTRACTOR HPF �� FROM N.62,-; DETECTOR PIPING CHEMICAL INLET AUTOMAN DETECTOR PIPING HPF HPF NOTE GAYLORD FACTORY PRE —PIPE STOPS A NOTE: GAYLORD FACTORY PRE —PIPE STOPS AT THIS POINT, PIPING & NOZZLE FOR DUCT THIS POINT. PIPING It NOZZLE FOR DUCT /' DUCT NOZZLE 1W PROTECTION PROVIDED & INSTALLED BY PROTECTION PROVIDED & INSTALLED BY GRIDDLE ./ ANSUL CONTRACTOR. ANSUL CONTRACTOR. NOME: �� Th T— \ CHEMICAL DUCT NOZZLE INLET w/swma. .( DUCT NOZZLE KCAL DETECTOR BRACKETS f 1W INLET i 1W ----- PLENUM NOZZLE: IN W/360 DEG. � HPF � g FUSE LINKS PLENUM NOZZLE HPF HPF =HOOD PENETRATION FITTING `vs / 1N HPF CHEMICAL PIPING DETECTOR PIPING BROILER NOZZLE HPF PLENUM NOZZLE THIS DETECTOR BRACKET FURNISHED SIMNEL ELBOW FRYER NOZZLES f IN AND INSTALLED BY ANSUL CONTRACTOR . r f 245 W/S•VLE ELBOW CHEMICAL PIPING CHEMICAL PIPING ANSUL PIPING DETAILS ANSUL PIPING SCHEMATIC ANSUL PIPING DETAILS FRYER HOOD GRIDDLE —OVEN HOOD BROILER HOOD HPF =HOOD PENETRATION FITTING ANSUL PIPING DETAILS DIMENSION TOLERANCE ± 1/4° (6mm) I MODEL # I ITEM # I WORK ORDER # GAYLORD CARL'S JR RESTAURANTS °"TE 09/14/10 INDUSTRIES INC. PROTOTYPE 24 & 25 Nom'° C - 12830 PO BOX 1149 TEL (503) 691 -2010 10900 SW AVERY ST GAYLORD 7011 FREE: (800) 547 -9698 • TUALATIN. OR FA1a (503) 6924048 ' DM Ewer. rr. sE • REV DWN. BY DATE DESCRIPTION CHK'D 97062 -1148 Em goylordOgaydordusa.com EM cc l ae« l ava react I,wvaovw '° 13 • • 4 DETECTOR UNE TO HOOD CHEMICAL LINE TO HOOD BY ANSUL CONTRACTOR BY ANSUL CONTRACTOR CABLE TO MACHANICAL DETECTOR UNE TO REMOTE GAS VALVE BY - PULL STATION BY ANSUL ANSUL CONTRACTOR n n n CONTRACTOR. r - 1 II II II Q CABINET 7.5 DEEP 23.5 STAINLESS STEEL ANSUL AUTOMAN RELEASE ASSEMBLY 16.5 102 FIN. CLG. ANSUL CONTRACTOR HEIGHT IMORTANT NOTES: (8' -6") 1. INSTALL STAINLESS AUTOMAN CABINETS TIGHT TO THE FINISHED CEILING AS CONDUIT SHOWN. BY OTHERS 2. LOCATE STAINLESS AUTOMAN CABINETS AND GAS VALVE SIZES REMOTE PULLS AS SHOWN ON HOOD SIZE THE ARCHITECTURAL FIRE FRYER 1.00" MECHANICAL GAS VALVE PROTECTION PLAN. GRIDDLE /OVEN 0.75" FURNISHED BY ANSUL BROILER 0.75" CONTRACTOR, INSTALLED BY PLUMBING CONTRACTOR TYPICAL ANSUL FIRE SYSTEM ANSUL DETAILS THREE SYSTEMS REQUIRED DIMENSION TOLERANCE • ± 1/4° (6mm) 'MODEL # I ITEM # I WORK ORDER # GAYLORD CARL'S JR 0141E; 09/14/10 • INDUSTRIES,INC. PROTOTYPE 24 & 25 "° C - 12830 — Po BOX 1149 TEL (503) 691 -2010 0. 10900 5E AVERY ST GAYLORD TOLL FREE (800) 547 -9696 -1 REV NM . BY DATE DESCRIPTION CHICO 97062-1149 at 11499 Em gallardOgoylartisawm E n CG lacac lacac IwEac Isv•ROVw " 13.1 1 ' IT • a . • FILE NAME: E ____/' MINIIIIIIIIIII Z " °� Cl) r - II O C 7 0 z = m o Pl z —I 0 ∎ S y p omz—I l m C Ph TI F;T 9 • °a p _YL-- m r v X 13 T ' - __ — - • r--'• _ fl _ _ • - - > Z � j I- 0 O 2424 CI 41 O 1 1 z • ( 1 g I t>s A -,z • Ili eiir ® F 'V ti ] - • l i M _ 2460 . O CI 1 ___ (}T , co p • ` _( � - 2436 m MENEM= I. Ilk 1 : , il -- 0 — (: III1 14 ' � o Ell n a t po I II IP v, :NI R 4 p, viq :_,G li 15 •' li n i -I LI 4 1, '[ - 43— --- \ ' . �� i r � + � I T o WI I i -- u ' Ire I I , p \ j _ , . � FI - III I:: I , I /�• I i \ 4 ; .L . .. ii- • •L 1 \ . \ 0-- 0 _ 000 A ' ri I ' L I I ` i,I 1 : - ! - t _ 1 1.i: , i • I1• ' y 1 Da(____ , 1 K.) I � 1 tiRo , AA o b L -.� _ / a.n , 0 /- Z m . m . �rp®:]I ��p Qp0 k _4 N m � li 1 o y ig 1 _ A- POR % alt 1 . .. •� na �� . ' , -6 ' • ilA e P Eli rt ._ p p , 1 I 0 , 4 Au o ° a :k A >n g o m �� o o _$S o EN ® �� �� g p I 1 al g± ". tv 601 o r , `4 n 1 g ! ,c Z to a pp � � n ^ g o p m e o YS' YS9 I I g 5,ii _ 4'1', ^ ��; A :lg 8o 8747 8 0 I ' 0 m �� m m A ! I :d w � _m t' �" '" b-r �z r' �r° c-og�., [i1' ° I 400 _ I Y I $ p . ^ y _ zm � z a I " � FJ d ' s oqg � q + �� N� � I -�j j O . i .l _ ' I _ _ . ...._.__ . . .... ... .. ... ___ 70- _.. . 2 `. _ _ _ _._ i � o ce a'°1 B., n o CIA ° to -_ _....._ l : i _ ) \_ - -• • E ° , z g c g g .. n n.. n I -- -- -`•— I I l ;l m S m v. : 1 1 �_: • q I E z to .. o air O I i J u I I• U 0 b � R _ l 0 o n 5 QQ �r ��> ' /•ter; ` / 1 \ / �\ 1 Z 0 g V• v P 7, F' n F n a ooln Oq ____p.___ , \// l ` �O , % ) �O 15 0 ; € a g l pp ' PPP '% zs6 gg£m O \ \ \ \/ \ / -, (I `( ' ./ -I p kV 47 81021g101 -;1 g 2A<Tr9i .2k6 O 8 9^ A OZ � CrAZfI AD ^ f�11 .l 0 1I I ` I 1 I A LF 9Z Q �1 _ 1 • I • ° y p, 4 B pog -.a S 2-9 0 - - -' 4 4 � 1 1 I. • r O , - � O ! p , I I p 1 1 e I g. a �gQ ^o B ^ m I:• -__— 1 1 . 0— _ O I _ n _ _I. .O , I do ° L. m ,,,20 1 . m _ _ I: . 00 -tec ,rot n :• c ° : �z ^ oho cA z 1 1 $ o O O 0 O _ • I I • Q „. s Rp,2p2p B°;1'i m7.3mRY1:N'- 'glapasp. 4A Y mx:•tX ' PCPP ` P i%P.uiPY.Y'I PTPAt j.N t•Awit' �pI pt{i uPtigm P-,PP • HN,• PmP•,PP. HN” 5 A f ;A= 1 61;'1 1 r /i '1148 ill16 ;11 - ,. w E 11 ° 11 l ' f,1 ENIIII 1 -511s .1 a1 iii 1 1 i R111 1 9 !a l , : z . 3 �- 1 i s 0: .E -ig lip O _ ill m i m � 0 I1 E 61 s� 1 g n I I; l 1 1 1 1 n I I I I I!,f,II1;1II IIItvIIIiTI;11;II!III!!I1I I ;I IIIz111111TTIIIIIIIII 11111111 1qI11111111111IIIII II!IIIi II WIII i MivliszlII ; 1 ii 'T; '.I 9 l: ! Si I i -' n l i 9 l n l i g I I 1 1 1 1 1 9 1 9 1 9 1 1 9 " I R Ia I I A I n 9 I I I I P S, V 1E '1 l i h i 8 9 9 1 1 1 1 1 1 1 1 1 9 9 9 1 1 1 8 0 1 1 9 1 g 8 1 1 1 1 1 Si 1: III 1 1 9 1 1 1 1 1 1 6 1 1 1 1 0 `Q R.; ''t.: 4 n ;PP Pg AI PF5 PP Fn F Pr.i;g C FFF 1 =1; ,,, T RFP F FI;n r FF r F 6 •,p, 1'R P r' �+{' Il h I n��• h ' ' Aa I 2 1 ��h� �r�� nnl;I; gpa,;ppp �F��FF �F :P ill I' ,P Fn i'+� h h h F h w KWKG CONVERSION BASED ON CKE PROTOTYPE VERSION 22 -14 ��P A % D D D D D � r KWKG, INC Q € EQUIPMENT lt. .J?i l�1 �� • P.O. BOX 1012 L E E K A Architecture and Planning N ° ® Q CO OL E4RC ENTERPRISES. INC. 1004 " Creating Positive Im r _ . 5 PLAN WILLSONVILLE, OR 97070 0 osslons In the Butt Environment g B p ' �' - RESTAURANT CONVERSION 503 - 682 -8474 O o 4 S.E. SUNNYSIDE AND 145TH EPIIOEII4E I . 140] BE COR. BI 01..4nnc.com R -m4e oN . CLACKAMAS, OREGON PORTLAND. OREGON srIPI ... 1 ..4.InP.sRm ..e UNIT B: • • a Ff520 —o©o . • .4 1- ( ill 17 .� IINMI This manual is intended for use with ANSUL. R -102 Restaurant h o Suppression Systems. li = Those who install, operate, recharge, manual. e. tr maintain these fire sec r T prere ssi w p un systems ms should read this entire manual. . Specific sec tions will be of particular interest depending upon one's Ji responsibilities. Design, Installation, recharge, and maintenance of the system • must conform to the limitations detailed in this manual and per - for by an individual who attended an ANSUL training pro- gram and became trained to install, recharge, design, and main- ' fain the A nsu l u r system. Fi suppression systems are mechanical devices. They need L-0 peri care. Maintenance is a vital step In the performance of f ire yo suppression system. As such It must be performed in O- accordance with NFPA 86 (Standard for the Installation of Equipment for the Removal of Smoke and Grease Laden Vapors from Commercial Cooking Equipment) and NFPA 17A (Standard on Wet Chemical Extinguishing Systems) by an authorized I� ANSUL diatnbutor. To provide maximum assurance that the fire suppression system will operate effectively and safety, mainte- nance must be conducted at six -month Intervals, or earlier if the situation dictates. Twelve -year maintenance must include agent tank hydrostatic testing ANSUL PART NO. 418087-010 AMR. ANSUL AiJTWA N w M4AM1Ex or o- sm.no a wwd nmoen.d NON 013•4■• R -102 RESTAURANT FIRE SUPPRESSION SYSTEM Design, Installation, Recharge and Maintenance Manual IaI ANSuLl I t . r i i ,5 5 5 1 SECTION II – SYSTEM DESCRIPTION SECTION II – SYSTEM DESCRIPTION UL EX. 3470 ULC CEx747 Page 2 -1 UL EX. 3470 ULC CEx747 Page 2-2 3-1-04 REV.3 REV.4 3-1-04 TOTAL SYSTEM TOTAL SYSTEM (Continued) There are three types of R -102 Restaurant Fire Suppression Double -Tank System Multiple-Tank System Systems: The R -102 double -tank system is available with a stainless steel The R -102 multiple -tank system is available with a stainless steel 1. Single -tank System enclosure end consists of: enclosure and consists of 2. Double -tank System 1 ANSUL AUTOMAN Regulated Release Assembly (Electrical 1. ANSUL AUTOMAN Regulated Release Assembly 3. Multiple -tank System or Mechanical) (Electrical or Mechanical) The type of system required for the particular Installation will be 2 . Nitrogen Cartridge and/or Carbon Dioxide Cartridge 2. Nitrogen Cartrdge(s) and/or Carbon Dioxide Cartndge(s) determined through the guidelines covered in 'System Design.' 3 ANSULEX Low pH Liquid Fre Suppressant 3 Regulated Actuator Assembly(ies) Additional equipment which may be required to complete the sys- 4 Enclosure or Bracket Assembly 4 ANSULEX Low pH Liquid Fire Suppressant tern design is explained in the 'System Components' section. Additional devices covered are remote manual pull stations, 5. Discharge Nozzles 5. Enclosure or Bracket Assembly(ies) mechanical and electrical gas shut-off valves, electncal switches, 6 Detedhon Components 6. Discharge Nozzles and pressure switches. 7. Additional Devices (As Required) 7. Detection Components Single -Tank System The regulated release assembly contains the regulated release 8 Additional Devices (As Required) The R -102 single -tank system Is available with a stainless steel • mechanism, agent tank, expellant gas hose for agent tank hookup, The regulated release assembly contains the regulated release enclosure and consists of: and enclosure knockouts to facilitate Installing expellant pIp:ng, . mechanism, agent tank, expellant gas hose for agent tank hookup, 1. ANSUL AUTOMAN Regulated Release Assembly (Electrical detection system, and additional equipment. and enclosure knockouts to faaktata Installing actuation piping, or Mechanical) The enclosure or bracket assembly is mounted separately tart expellant piping, detection system, and additional equipment within the guidelines of the regulated release assembly expellant 2. Nitrogen Cartridge and /or Carbon DioxIde Cartridge Each regulated actuator assembly is mounted separately but with- gas piping requirements to ensure simultaneous actuation of the In the guidelines of the regulated release assembly actuation/ 3 ANSULEX Law pH Liquid Fire Suppressant system. Refer to 'System Components' section for individual cam- expellant gas piping requirements to ensure simultaneous ac ua- 4. Discharge Nozzles ponent descriptions. son of the Vim. The assembly contains the blY pneumatic actuator, 5. Detection Components • regulator, agent tank expellant gas hose for agent tank hookup 6. Additional ,� , and enclosure plugs to facilitate installing expellant piping. regulated Devices (As Required) Each enclosure or bracket assembly is mounted separately but The regulated d release assembly contains the regulated release , s within the guidelines of the regulated release assembly or regulat- • mechanism, agent tank, expellant gas hose for agent tank hookup ad actuator assembly expellant piping requirements to ensure and enclosure knockouts to facilitate installing detection system actuation gas system. additional equipment. Refer tit's m Components' sedicn ,,,,,,,,,���. simultaneous adu9uon on of the system. Refer to 'System Y� —/- Components' Becton for min/dual component descriptions. far individual component descriptions. �� iii 10 r ' Ifil impo. ca, c ,c)c) .--- . FIGURE 2 1111111 do , MOW Wr illillillb. 'lliIlliIllIllill°' 0 .. 11$ a FIGURE 1e • FIGURE • • • 1 a. SECTION III - SYSTEM COMPONENTS SECTION III - SYSTEM COMPONENTS UL EC 3470 ULC CEx747 Page 3-1 UL EX 3470 ULC CEu747 Page 3-2 4-1 -06 REV 5 REV. 5 4 -1 -06 EXTINGUISHING AGENT • REMOTE MECHANICAL RELEASE The tank bracket is constructed of mild steel and painted red It Is ANSULEX Low pH Liquid Fire Suppressant (1 5 gallon - Part No ' ANSUL AUTOMAN' REGULATED RELEASE ASSEMBLY The Remote Mechanical Release. Part No 433485, is used to designed for mounting the tank In a minimum amount of space 79694 or 3.0 gallon - Part No. 79372) Is a potassium -based soiu- (MECHANICAL) actuate up to five (5) R -102 regulated actuators. The remote The Bracket Assembly can only be utilized with 3.0 gallon tanks Son designed for fast knock -down end suppression of grease- mechanical release utilizes a 101-10 carbon dioxide cartridge as (Pen No 429862) related fees The agent Is shipped in plastic containers which pro- NOTE. AGENT TAN% MUST BE the actuation pressure to operate the regulated actuators The ORDERED SEPARATELY do BRACKET ASSEMBLY • vide one complete tank charge (Refer to Section V, Page 5-2.1, aR BEE PACE s. .. re is housed in a stainless steel enclosure • for moomum agent fit capacity ) Agent storage life expectancy Is I ° 41, ° • • mu _ oaT twelve years The distributor must record the batch numbers and RAI.. date of shipment receipt to be filed with each Installation record. 'E°NAN'S 1 0 'ANeTAE.0 LOW Ni MUD nRE SUPPRESSANT • —�I h NEDNA / f11 s i e i REGULATOR g h h ,l ,■• do GALLON is LB k iG WEIGHT i — 1 s GALLON ak1PPINS our L is nt Ni BNPPNG WT Y Le kta Al) Sh1PPIND our to LB U sot e °' ®'P FIGURE 2 cNPPaluwr 7 L P41 FIGURE 1 O,i • FIGURE 4 PA" • FIGURE 8 REGULATED RELEASE ASSEMBLY (MECHANICAL) REGULATED RELEASE ASSEMBLY (ELECTRICAL) SINGLE TANK ENCLOSURE ASSEMBLY aM The ANSULAUTOMAN Regulated Mechanical Release Assembly The ANSUL AUTOMAN Regulated Electrical Release Assembly The Single Tank Enclosure Assembly (Part No 429870) is used in REGULATED ACTUATOR ASSEMBLY (Part No 429853) contains the regulated release mechanism, (Pan No 429856) is identical to the mechanical version except It double and multiple -tank systems and must be mounted to a ngid The Regulated Actuator Assembly (Part No. 429850) ordains the expellant gas hose for agent tank hookup, end enclosure knock- also contains a factory Installed 120 VAC solenoid and electrical surface near the regulated release or regulated actuator assembly regulator, pneumatic emiator, expetent gas hose for agent tank outs to facittete installing actuation piping, expellant piping; dotes- switch its expellent gas tine will be connected to. lion system, and additional equipment This regulated release The solenoid Pe g hodap, and enclosure knockouts to fedttate installing exponent be assembly is used in single, double, and multiple -tank systems and . la used to provide is used t te actuation of the release The enclosure Is designed for mounting either a 1 5 gallon (Pan re This assembly is used m muttipte•tank systems and must be must be mounted to a rigid surface The release mechanism can mechanism. The electrre switch is used protect the solenoid by No. 429864) or e 3.0 gallon tank (Part No. 429862) in a minimum to a a rigid nod surface opening the omit to the solenoid once the system is fired. be used to interconnect both the actuation and expellant gas lines amount of space. The The regulator contains two outlets 135' apart. One outlet is used Additional electrical switches can be added as required for auto- as required per system deign The regulator Is designed to allow malic to interconnect the expellant gas hose to the endosed agent tank a constant flow of gas Into the tank at 110 psi (759 kPa) when the equipment end gas shut-off accessories, as well as initiating ENCLOSURE ASSEMBLY The other outlet connects an expellant gas line to an additional em is actuated The agent tank must be ordered separately audible and visual alarms. a yst B pe telly • ® a co s n or bracket nitrogen int The regulator Is designed a allow In single, double, and multiple -tenk systems, the provided dded expel- ' ANSUL AUTOMAN' REGULATED RELEASE ASSEMBLY NOM AGENT TANK Misr a constant flow of n psI into each agent tank connected (two gas hose connects the agent tank to the bottom outlet of the • (ELECTRICAL ) • es ORDERED 0 tanks maximum) at 110 10 psi (759 kPa). regulator. In double and multiple -tank system configurations, the on SEE s. 0 The pneumatic actuator is designed to puncture the expellant gas bath outlet of the re ulator Is used as an a Cant as feed for NOTE. AGEMTAM MUST carted a seal upon receiving pressure from the regulated release one additional tank-endosure or tank-bracket hookup. The endo- h:EPARAT¢r assembly actuation pipmg The enclosure contains a knockout to sure contains the on SEE PAGE ]1 required knockouts to facilitate this connection. I 0 facilitate distribution piping hookup. If a pressure switch Is to be attached to the regulator, additional fit- 0 tat R g9 are req uired. I L REGULATED ACTUATOR ASSEMBLY The tank is mounted within the enclosure. The tank contains an adaptor/tube assembly with a burst disc union. The burst disc \ E CUUmR , . ENCLOSLWE NOTE AGENT TANK helps prevent siphoning of the agent up the pipe due to significant MST MST BE Y temperature fluctuations In the area where the tank Is located. The ORDERED PNEUMATIC tank is mild steel and, under normal conditions, requires hydrosta• � OR SEE PAGE s. � A A A imiv SEPARA dill tic testing every twelve years I 13 °orPwe kg) W - _ , The detection and additional equipment required per system REGULATOR design are connected to the release mechanism The enclosure \lo I. contains knockouts to facilitate detection and additional hookups • FIGURE 5 The system can be actuated automatically or manually. Automatic actuation occurs when a fusible link within the detection system l SNIPPING our s, La to km R ED PAINTED BRACKET ASSEMBLY separates In a fire condition. Manual actuation of the system sNwwNO our. occurs when personnel put on the remote manual pull station • The Bracket Assembly (Part No. 429878) Is used in double and '° Le P VI pull ring FIGURE 3 multiple -tank systems end must be mounted to a rigid surface near the regulated release assembly or regulated actuator assembly • FIGURE 7 • • NOTE ANSUL AUTOMAN Regulated Elm:rice Reheats Pert No. 429554 Is not that its expellant gas line will be connected to. Ora • Intended to be used rake electric docebn. t • 2 2 , ,L i SECTION III — SYSTEM COMPONENTS SECTION III — SYSTEM COMPONENTS UL EX. 3470 ULC CE :747 Page 3-3 UL EX 3470 ULC CE :747 Page 3-4 4 -1 -06 REV. 8 REV. 7 4 -1 -06 AGENT TANK ASSEMBLY OEM REGULATED ACTUATOR ASSEMBLY 24 VDC REGULATED RELEASE ASSEMBLY (ULC APPROVED ADOMONAL SHIPPING ASSEMBLIES The agent tank shipping assembly (3- Gallon, Part No 429862, The OEM Regulated Actuator Assembly, Part No. 418691, ONLY) Several complete shipping assemblies ere available containing and 1 5 Gallon, Pert No 429864) consists of a stainless steel tank includes the regulator, pneumatic actuator, expellent gas hose end The 24 VDC Regulated Release Assembly, Part No 429859, is both the release or actuator mechanism end the agent tank. When end en adaptor/tube assembly. The adaptorflube assembly con- OEM bracket. Also available is an OEM Regulated Actuator used where electric, thermostat detection Is required via the use of ordenng a complete shipping assembly, order the following part tanks a burst disc. The burst disc prevents agent leakage due to Assembly with all the above mentioned components except for the a releasing control unit. This assembly consists of a 24 VDC numbers. significant temperature fluctuations in the area where the tank is bracket This assembly is Part No. 418522. ANSUL AUTOMAN Il-C regulated release mechanism, expellant Shipping Wt located. Under normal conditions, the tank requires hydrostatic gas hose, and enclosure knockouts to facilitate Installing actuation pan No. DesLnphon lb (kg) testing every twelve years The data of manufacture is stamped on piping, expellent piping, detection system, and additional equip - the tank nameplate manL Agent tank must be ordered separately. 430299 3 0 Gallon Mechanical Release 33 (15) The tank is shipped uncharged and must be filled with only ® The system can be actuated automatically or manually Automatic Shipping Assembly including. Low pH Liquid Fire Suppressant during installation. __- actuation occurs when the control panel receives a signal from the 429853 R A l Regulated detection circuit. The panel then sends an electncal signal to the Release Assembly rANK ADAPTOR', 24 VDC regulated release, causing it to actuate When actuation 429862 3 0 Gallon Tank Assembly Hies assaa{ 'I °ca s, the gas cartridge is punctured, pressurizing the agent tank 430300 1 5 Gallon Mechanical Release 30 (14) �'�'I and discharging the agent through the distribution piping Manual Shipping Assembly including: ,' actuation of the system occurs when personnel pull on the remote 429853 Mechanical Regulated 3 • manual pull station pull ring Release Assembly 1 5 Gallon Tank Assembly 6NIPPWO WT NOTE AGEMTANK MUST a.a BE r LB i3 tot ORDERED sswuuT¢r 430309 3 0 Gallon Regulated Actuator 36 (16) 5 GALLON Shipping Assembly Including. MOPPING WT 1 &COPING car s Le 429850 Regulated Actuator Assembly el/ AGEivt SNIPPING car • to a LO p I I e• Le. cis tsi 429862 3 0 Gallon Tank Assembly TANK FIGURE 10 % �►4 430316 1.5 Gallon Stainless Steel Enclosure 18 (8) Shipping Assembly including TWO TANK ENCLOSURE ASSEMBLY I 429870 Single Tank Mounting Box • FIGURE 8 The Two Tank Enclosure Assembly, Par No. 429872, consists of 429864 1.5 Gaon Tank Assembly '''''.° two expellent gas hoses, two grommets, and the mounting endo- 418511 Hose Assembly OEM RELEASE/BRACKET ASSEMBLY sure The assembly Is used In 9 gallon systems It can be coupled (FOR OEM IN-CABINET USE ONLY) with a 3-gallon regulated release assembly ore 3- gallon regulated 430317 3 0 Gallon Stainless Steel Enclosure 20 (9) actuator assembly to give a total of 9 gallons of agent. Agent tanks • FIGURE 12 Shipping Assembly Including' The OEM Regulated Mechanical Release/Bra ket Assembly, Part must be ordered separately wan 429870 Single Tank Mounting Box No. 76493, contains the same regulated release mechanism as The tank enclosure is designed to mount in a minimum amount W Assembly the standard ANSUL AUTOMAN Regulated Release Assembly space 429862 30 Gallon Tank Assembly The OEM Regulated Electrical Release/Bracket Assembly, Part 418511 Hose Assembly . No. 418054', Is identical to the mechanical version except it con - factory installed 120 VAC solenoid and electrical switch. 430324 6 0 Gallon Stainless Steel Enclosure 40 (18) telnsa These factory bitten assemblies must be installed in a suitable Ia Shipping Assembly including equipment enclosure either honzimtaly or vertically. They contain all the necessary mounting and conduit holes needed to fully 429872 Two Tank Mounting Box Assembly car 429862 3 0 Gallon Tank Assembly (2) install the assembly The agent tank is Installed separately and ‘0 need not be bracketed once rt is piped and filled. Note: OEM at {as tt24ti 430332 3.0 Gallon Release/Bracket Assembly rust be installed high enough in obi- Assembly mduding Bracket Shipping 20 (9) net so that there is sufficient room to install and remove ®rndga• 429878 3 0 Gallon Mounting Bracket • - Nate OEM Reeulade4 Eiemird ReieeeerBredket Aue bly, Poi No. e1a052, 6 Assembly • not snen4es m be LOW MI5 electric 4seGbn 429862 3 0 Gallon Tank Assembly *' . FIGURE 11 MOUNTING RE.Eh¢ laCHANlblt -► ik. 0 BRACKET ..o REGULATOR v4 sn:PPe10 WI' 10 LB. Is WI • FIGURES • SECTION III - SYSTEM COMPONENTS SECTION III - SYSTEM COMPONENTS UL EX 3470 ULC CEx747 Page 3-5 UL EX 3470 ULC CEx747 Page 3-6 3-1 -07 REV 7 REV.6 3-1 -07 GAS CARTRIDGES NOZZLES SWIVEL ADAPTOR CONDUIT OFFSET ASSEMBLY The R -102 system uses gee cartridges to store nitrogen or carbon There are 11 types of discharge nozzles each designed to disc nb- The Swivel Adaptor Assembly, Part No 418569, consists of a The conduit offset assembly, Part No. 79825, Is used to change dioxide expellant gases under pressure until the system is actual- ute the liquid agent In a uniform pattern throughout the hazard swivel nut, swivel body and swivel ball All are chrome-plated The direction of the wire rape on detection, mechanical gas valve, and ed, at which time the cartridge seal is punctured and the released area: swivel adaptor allows any nozzle to be rotated approximately 30' remote pull station lines The conduit offset assembly can only be gas expels liquid agent from one or more tanks through the cis- 1. 1W Nozzle 7 245 Nozzle in at directions Swivel Adaptors must be ordered as a Swivel used In the area where the conduit attaches to the regulated charge piping and out the discharge nozzles 2. 1N Nozzle 8. 260 Nozzle Adaptor Shipping Assembly, Part No 423572, which contains 25 release assembly When using the conduit offset assembly, the Swivel Adaptors. m Four nitrogen gas cartridges and three carbon dioxide gas car- 3. 12N Nozzle 9 290 Nozzle Offset maximum nu of pulley elbows Is 8211 allowed. The Conduit i tndges are available as shown In Figure 13. 4. 3N Nozzle 10. 2120 Nozzle , 4_ 0e - NPr offsets Assembly, Pert No 79825, consists of 6 conduit Cartridges noted as TC /DOT are both Transport Canada (TC) and 5 2W Nozzle 11. 1F Nozzle FENA °° CONDUIT Department of Transportation (DOT) approved Cartridges noted 6 230 Nozzle , \ Zf COUPLING ea DOT are Department of Transportation approved only. Cartridge selection options a provided in Section IV under Tank Although these nozzles are similar in appearance and have BIB • certain common parts, the tip of each nozzle is designed for and Cartridge Requirements , , specific application and must only be used In those areas. See CONDUIT NITROGEN GAS CARTRIDGES Nozzle Application Chart In Section IV - System Design, for s'° NPT oFFeer NALeTHREAD Individual nozzle usage so DEGREE } sT SIFT NmAr ON T raw I 1N I FEMALE THREAD FIGURE 16 co cm: 11 Ya W 1012 I �/ _ pa.0 and I MID . { .:M (nand pi MIN . RUBBER BLOW-OFF CAPS Ccri EN crop , INTERNAL 4 and i+2 w �. I '�. aTR The Rubber Blow -Off Cap, Pert No. 77678, help keep the orifice of k 4.4 2+2PI 4 tine IN. 1 INSIDE the nozzle free of grease or other substances that could interfere • (04 and Pea and I RECESS FOR ■ with agent distribution. A retairvng strap attaches the blow-off cap FIGURE 18 3 9/111114 BLOLYO� AXXX vENrxxR t o the nozzle Rubber Blow-Off Caps must be ordered as a awn (sand GPLOor Coon Stripping Assembly. Part No. 77695, which contains 50 blow-off LT LT DOUBLE NOZZLE ∎ ( P RESENT) caps, or Part No. 77411, which contains 12 blow-off cape "OUIKSEAL" ADAPTOR ■ CARTRIDGE CARTRIDGE CARTRIDGE CARTRIDGE eruWNO _ PART NO. 423429 PART No 423435 PART NO. 423433 PART NO 4230+ The 'Ouik adaptor a a Wad mechanical ea fitting that (rl�n Rc.DOn (moon P � n / produces a squid -fight seal around both distribution piping and MOM KV FIGURE 14 detection conduit which runs through restaurant hoods and ducts CARBON DIOXIDE CARTRIDGES ® The 'OuikS on ear adaptor accepts threaded pipe or conduit. The Nozzle Identification Chan fa)/ adaptor is available for 1/4 in. (Part No. 78195), 318 In (Part No Nozzle 77284), 1/2 in (Part No 77286), or 3/4 in. (Pert No. 77288) pipe Nozzle Nozzle Nozzle' Flow or conduit sizes When using with EMT conduit, a conduit con- e IN r 74 14 1006 Pert N°, Stamping Ns, Nozzle Identification �� Decor must be Installed in each end of the adaptor. The 'auk- (23ean) (30 em) 1W Nozzle 419336 1W 1 Chrome - Plated Body 115/514 1N310w. deptor Shipping Assembly must be ordered ea stated I - (29 5 and IN Nozzle 419335 IN 1 Chrome-Piatad Body FIGURE 18 Shipp 12N Nozzle 419334 1/2N 12 Chrome-Plated Body macro DP•19 MAR al coos Dowel em aimed aeed wan Ore 1aN mode Assembly Hole Size • 2 i + 23 OP an) 3N Nozzle 419338 3N 3 Chrome - Plated Body • CB MET BLOW OFF CAP Slze Part No Dry Required 2W Nozzle Chrome-Plated eta le 419337 2W 2 ChPlated Body The CB Metal Blow-off Cap 433208, is u ff C Package. Pert No 433208sed for 1/4 In. 78196 24 3/41n. 2 +a w 318 in. 77285 24 1 118 N. (a. ant 230 Nozzle 419339 230 2 Chrome - Plated Body at high temperature environments. The metal showoff cap core 12 in 77287 24 1 1/81n Im-10 cARTRDOE 10140 CARTRIDGE I s14D rwRTRIDaD 245 Nozzle 419340 245 2 Chrome - Plated • tams a special 0-ring placed Inside the cap which integrates with Body 3/4 In. 7728 4 13/8 in. PART NO 423435 (1CDOn PART NO 42301 PART NO 423443 the nozzle to create a seal and to help hold the blow-off cap in Avow. 1345S (DDTf tT� (T Tl 260 Nozzle 419341 260 2 Chrome-Plated Body CamRESSIO+ NUT • ••• FIGURE 13 290 Nozzle 419342 290 2 Chrome - Plated Body • position Metal Blow-off Cap Package, Pert No 433208, contains '•' 2120 Nozzle 419343 2120 2 Chrome - Plated Body 10 blow-off caps. 11117■410 ADAPTOR BODY 'Addltionel cartridge shipping assemblies are available for 1F Nozzle 419333 1F 1 Chrome - Elated Body riAaaeT LOCKWASHER European and Australian requirements. Also available is a 10 peck of CB Stainless Steel Blow -Off Caps, NUT . - 01/ Cartridge European Australian • NO3110 Camping may omaebl en emnmw Teem Indkm md ing a vor•a ode Pert No 434707. Description Part No.• Pert No' SILICONE LUBRICANT LT -2041 428440 428948 Dow Coming Compound 111, Part No 78112, is available in a FIGURE 19 428441 426553 5 3-ounce tube. Compound has excellent qualities for sealing and ? Double Tank 428446 426563 lubneating system components '/ LT- A- 101 -30 428442 426555 \ SIILESS 101 -10 - CO2 428443 N/A STEEL WIRE 101 -20 - CO2 428445 N/A 101 -30 - CO2 428444 N/A 1...._ LtauL CAP • • Non Lured " FIGURE 17 m+.a • . . L S SECTION III - SYSTEM COMPONENTS SECTION III - SYSTEM COMPONENTS UL EX. 3470 ULC CEx747 Page 3-7 UL EX 3470 ULC CEx747 Page 3-8 4 -1 -06 REV.5 REV 7 4-1 -06 "COMPRESSION-SEAL" ADAPTOR DETECTORS CLIP BTU - PMT NO. 53537 MD 53555 This adaptor is a mechanical bulkhead fitting that produces a The detector consists of three basic components the bracket, link - Gqurd -tight seal around pipe and conduit when installing distnbu- age, and fusible link (Fusible links are not Included and must be J bon piping and detection conduit through restaurant hoods and ordered separately ) The bracket holds the entire assembly to the r s� / ducts The 'Compression -Sear adaptor is a straight- through mounting surface. The linkage is used to support the fusible link. LINKAGE ,� design requiring no odbng or threading of conduit or pipe The The fusible link is designed to separate at a specific temperature s .N r j adaptor is available for pipe sizes of 1/4 in (Part No 79148), 3/8 end release the wire rope, thereby actuating the regulated release -A _ In. (Part No 79150), 12 In (Part No 79146), and EMT conduit mechanism. — 1. size of 1R in. (Part No. 79152). Each - Compression -Sear Adaptor � Shipping Assembly must be ordered as stated below There are three styles of detectors available: the clip-on style, the MGM eTriE PART NO 15373 AND 15375 hinged style, and the scissor style Shipping The dip-on style allows the wire rope to be stun completely Assembly Hole Size through the detectionsystem conduit and brackets first and the O Sae Part No Oty Required 9 7s 1/4 in. Pipe / 121n tube 79149 24 3/4 In. detector linkage assemblies are then dipped on later LINKAGE \ 3/81n. Pipe / 5/8 in. tube 79151 24 1 1/8 in The hinged style detector requires the v5re rope to be strung to the 12 in Pipe 79147 24 1 1/8 in detector bracket, and then 'threaded' through the linkage assets- - - 12 in EMT Conduit 79153 24 1 1/8 in. by before continuing to the next detector bracket. 1 I^ ADAPTOR BODY The edssor style allows the wire rope to be strung completely 1... - m„• • -• _ trusser dete linkage assemblh the detection are then d apped ontsterfirst and the BRACKET SCISSOR STYLE - PART NO 41738/1 AND .tT550 . —. LOO(YWSNEa Each style of detector consists of two types of assemblies. NUT The Terminal Detector (Pert No. 56838, 15375, or 417368) u NxAGE \ ®� I a test link and is placed last In a senes of detectors. This detector Is sometimes referred to as the end-of-line detector and - • FIGURE 20 Is thus named because It is at the point at which the wire rope ler- FUMBLE ®i urinates,' or is anchored at the detector bracket Only one tams- LINK "HOOD SEAL° ADAPTOR ASSEMBLY nal detector Is required per detection system This adaptor is a mechanical bulkhead fitting that produces a Gq- The Series Date for (Pert No. 56837, 15373, or 417388) a any FIGURE 22 uid -tight seal around 1/2 In EMT conduit when installing the detec- detector located in-line between the regulated release assembly line through restaurant hoods and duct. The adaptor accepts end the terminal detector PULLEY ELBOWS a high temperature pulley elbow end, when used, correctly posi- When using Part No 56837 and 56838 style detectors, a total of There are two types of pulley elbows used to change the direction bons the elbow or conduit in line with the conduit adaptor hole in 12 detectors can be in one detection system 11 series detectore, of the wire rope by 90' ANSUL recommends for temperatures not the detector bracket The 'Hood Sear eliminates the need for mul- Part No. 56837 and 1 terminal detector, Part No 56838. In excess of 700 'F (371 'C) Part No 415670 has socket ends tale elbows when penetrating the top of a hood when installing the When usin detection One - Hood Sear Adaptors are available in quantities of g Pert No 15373 and 15375 t style detectors, a total of with set sews for 1/2 tbrh in. conduit, and Part No 423250 has - 6 as Shipping Assembly Pert No 423253. 5 detectors can be in one detection system 4 series detectors, mission ring ends also for 1/2 in conduit. Pulley elbows must be Part No 15373 and 1 terminal detector, Part No. 15375. ordered in quantities of 50 as Shipping Assembly Part No. 415671 When using Part No 417368 and 417369 style detectors, a total (socket end type) and Pert No 423251 (compression end type). I SEAL NN of 15 detectors can be in one detection system: 14 series detec- PMT NO 415370 Port NO 423250 13811 f woSa:R tore, Part No. 417369 and 1 terminal detector, Part No 417368. SEAL Ohio '., ADAPTOR �� rig L\ GASKET 0 PULLEY NOT PART Or ASSEMBLY) Al!! USE ONLY PULLEY 'm'° OM ELBOW. PMT NO 423250 FIGURE 23 • FIGURE 21 P •r x S • SECTION III - SYSTEM COMPONENTS SECTION III - SYSTEM COMPONENTS UL EX 3470 ULC CEx747 Page 3 -9 UL EX 3470 ULC CEx747 Page 3-10 4 -1 -06 REV.4 REV 3 4 -1 -06 PULLEY TEE MECHANICAL GAS VALVES ELECTRICAL GAS VALVES ELECTRICAL SWITCHES The Pulley Tee (Part No 427929) is used to change the direction The mechanical gas valves are designed to shut off the flow of gas The elecncal gas valves am designed to shut off the flow of either The electrical switches ere intended for use with electric gas of two wire ropes by 90' It must be used in areas where the tern- to the appliances upon actuation of the regulated release assent- natural or LP gas to the appliances upon actuation of the mgulat- valves, alarms, contactors, lights, contractor supplied electric peretures are within the range of 32'F to 130 °F (0 'C to 54 'C) bly The valves are available in sizes of 3/4 in , 1 in , 1 1/4 in., 1 ed release assembly. The valves am available in saes of 3/4 In , power shut -off devices and other electrical devices that are Pulley tees can be used in mechanical gas valve actuation lines 12 in , and 2 in ANSUL style, and 2 12 in end 3 in Moo style. 1 in , 1 12 in , 2 in., and 3 in The valve is held open by an ener- designed to shut off or turn on when the system is actuated and remote manual pull station lines Pulley tees cannot be used The valves are rated for natural and LP gas Both styles am UL gized solenoid and upon system actuation, the switch contacts in Switches are available In kits One Switch Kit, Part No 423878, within a detection line Listed and indudes the air cylinder, tubing, end fittings for con - the regulated release assembly open, thus de- energizing the ar- Two Switch 141, Part No 423879, Three Switch Kit, Pert No - nation to the release mechanism. chit to the gas valve solenoid, causing the valve to dose Valves 423880, and Four Switch Kit, Pert No. 423881. Mounting hard - alr Maximum are available in 120 VAC and are UL Listed ware end 12 in. (305 rtan) long wire leads are provided with each �II�I Part Operating Pert Max Operating kit Each switch has a set of single -pole, double -throw contacts No Description Pressure No Description Pressure rated at 55598 3/4 in Gas Valve (ANSUL) 10 psi (.69 bar) 13707 3/4 In Solenoid Gas Valve (ASCO) 25 psi (1 7 bar) ULIcUL/CSA Rating ENEC Rating '.' 55801 1 in. Gas Valve (ANSUL) 10 psi (69 bar) 13708 1 in Solenoid Gas Valve (ASCO) 25 psi (1.7 bar) 250 VAC, 21A Resistive IE4T105u Approved 55604 1 1/4 in Gas Valve (ANSUL) 10 psi (.69 bar) • 550360 1 1/4 in Solenoid Gas Valve (ASCO) 25 psi (1 7 bar) 250 VAC, 2 HP 250V, 21A Resistive • FIGURE 24 55607 1 12 in Gas Valve (ANSUL) 10 psi (.69 bar) 13709 1 12 In Solenoid Gas Valve (ASCO) 25 psi (1 7 bar) 125 VAC, 1 HP 8A Motor Load 0101 55610 2 in. Gas Valve (ANSUL) 10 psi (69 bar) 13710 2 in Solenoid Gas Valve (ASCO) 25 psi (1.7 bar) 25937 2 1/2 in Gas Valve (ASCO) 5 psi (35 bar) • 550363 2 1/2 in Solenoid Gas Valve (ASCO) 5 psi (35 bar) STAINLESS STEEL C ABLE 25938 3 m. Gas Valve ASCO 5 psi 35 bar) COMMON N o ( ) p ( ) 17643 3 m Solenoid Gas Valve (ASCO) 5 psi (.35 bar) 1- The 1/16 o stainless steel is run from the terminal and detector, Into s, through gh conduit, ell sense e deter detectors end pulley elbows, end into the regulated release mechanism trip lever When any fusible link Valve Size m A (mm) in (mm) in (mm) Size in. A (mm) in . B (mm) separates, the tension on the cable is relaxed. and the trip lever 3/4 In 3 3/4 (95 3) 6 3/8 (161 9) 5 12 (139 7) 3/4 in 3 5/16 (81 0) 3 5/8 (92 1) N C actuates the regulated release mechanism The cable can also be 1 in 3 314 (95.3) 6 3/8 (161.9) 5 12 (139 7) 1 in 5 (127 0) 8 27/32 (173.6) used for mechanical gas valves and remote manual pull stations 1 1/4 in 4 718 (123.8) 7 3/8 (187 3) 6 3/8 (161 9) • 1 1/4 in 7 13/16 (198 4) 7 29/32 (200 8) The cable Is available In 50 ft. (15 m) (Part No 15821) and 500 ft 1 1/2 in 4 7/8 (123 8) 7 3/8 (187 3) 63/8 (161.9) 1 1/21n 5 (127 0) 5 19/32 (142 1) (152 4 m) (Part No 79653) lengths 2 In 5 7/8 (149.2) 7 7/8 (200.0) 6 11/16 (169 9) 2 in 6 3/32 (78 6) 5 15/16 (150 8) FIGURE 29 2 1/2 in 7 13/16 (198.4) — 9 1/16 (230 2) • 2 1/2 in 7 13/16 (198 4) 7 29/32 (2008) m• „ REMOTE MANUAL PULL STATION 3 in 7 25/32 (197.6) — 9 1/16 (230 2) 3 In 7 13/16 (198 4) 7 29/32 (200 8) ALARM INITIATING SWITCH The remote manual pull stetson (Pert No 4835 or Part No 54011) is for manual actuation of the regulated release aspen- - � g lily The Tha re rd for manual actuation station o of should gW la mounted e assent- ounted a point The Alarm Initiating Switch Kit, Part No 428311, can be field 1 mounted within the ANSUL ALROMAN release This switch must of egress and positioned at a height determined by the authority ♦ I • be used to close a supervised alarm circuit to the building main the having Junsdiction Trim nrigs, Part No 427074 (pads of 10), are , s ,,, • alarm panel when the ANSUL AUTOMAN release actuates. This available I ♦ A 40. � action will signal thefts alarm panel that there was a system ear l ■ II aeon in the kitchen ems The switch kit contains all necessary PART NO SOH WIN FOAB PART so ants IN 50 P R rOP CAB LET ■ ■ ll mounting components along with a mounting instruction sheet ■ I - ■ ■ E�ll 1 , . The switch Is rated 50 mA, 28 VDC. 4- A SPACER WHEN SPACER AND A M O.1 a DMCER APE PROPERLY w M rHRU s w 2 TO a THRU S M. MOUNTED. m 1 U N0 N BETWEEN ( f#" L e ma •.a • FIGURE 27 , MUST N o AND N c TE THE • FIGURE 28 01 Pe / A MANUAL RESET RELAY caw METAL STAMPED • The Manual Reset Relay, Part No 426151, is required when using .. ../ N O =Ho an electrical gas valve shut-off system. After the electric gas valve ,\ \ �./ • FIGURE 25 has dosed, either due to system actuation or power failure, the valve cannot be re-opened, allowing gas to flow, until the reset relay button Is manually pressed, re- energizing the aralt. The a \ ■ reset relay is available 120 VAC The manual reset relay is also ' 01-q-' •�.\ \ N c recommended for electrical shut down 'I •� ALARM < ALARM IMITATING IV% SWITCH FIGURE 30 • FIGURE 28 • • • 7 ' SECTION III - SYSTEM COMPONENTS SECTION IV - SYSTEM DESIGN • UL EX. 3470 ULC CEx747 Page 3.11 UL EX. 3470 ULC CEx747 Page 4-1 4-1 -06 3-1 -07 REV.7 REGULATOR TEST KR HOSE/GROMMET PACKAGE SYSTEM DESIGN GENERAL INFORMATION The Test Kd Assembly (Shipping Part No. 56972) Is required to The Hose/Grommet Package, Part No 418511, consists of a 24 The ANSUL R -102 Restaurant Fire Suppression System may be 1. Nozzles must be located 2-8 in (5-20 an) into the center of the test the regulator setting and nitrogen flow dunng 12 -year manta- in. rubber hose and 2 (two) grommets This package Is required used on a number of different types of restaurant cooking appli- duct opening, discharging up See Figure 1. nonce examinations This will ensure that the regulator is funs- when mounting an AUTOMAN Regulated Release (or Regulated ances and hood and duct configurations. The design information Ironing property Actuator) and a tank enclosure (or tank bracket) side by side In listed in this section deals with the limitations and parameters of either a mandolded system or an independent piping system. this pre-engineered system. Those individuals responsible for the 0 f� . Oil The R -102 Bursting 8 pt The burs disc eliminates the siphoning of the agent up the pip The R -102 end the PIRANHA systems use mpabde agents and _,!�� pip components, therefore, they may be used together for cooking dunng extreme temperature variations. The bursting disco are appliance, hood, end duct �, �' evadable in packs of 10, Part No 417911. AUTOMAN Release can be either an R-102 or PIRANHA ' FIGURE 31 ANSUL AUTOMAN Release and can actuate up to two addNonal �� iiiro R -102 or PIRANHA Regulated Actuators. In systems utilizing a 101 remote release, any combination of the maximum number of FUSIBLE LINK regulated actuators can be used. a - ew to - IN ON Select correct UL Listed fusible link(s) for installation in detector(s) • Both systems must actuate simultaneously. 1 according X33 system 9 eording to the temtemperature re condition chart below ' steEach rt: Eeust be designed end Installed per Its appropri- FIGURE 1 K STYLE ate manual. lierlf Fusible Unk To Be Used NOME AIMING DEVICE • Adjacent appliances requiring protection must be protected 2. In Installations where a UL listed damper assembly Is Fusible Shipping Where The Nozzle Aiming Device, Part No 431992, is available to prop- with the same type of system, either R -102 or PIRANHA, employed, the duct nozzle can be installed beyond the 8 in. Link Assembly Temperature Temperature arty aim each nozzle to the correct aiming point The device unless the center-to-center spacing between the ad)aoant (20 an) merzlmum, to a poiM lust beyond the damper assent Pert No, EDAM?. Retina Does Not Exceed clamps to the nozzle end emits a small laser light that reflects on R -102 and PIRANHA nozzles is no less than 36 inches. bly that will not Interfere with the damper. Exceeding the max - 415739 (1) 415739 (1) 165 'F (74 'C) 100 'F (38 'C) the surface that it is aiming at The nozzle can then be rotated to • When appliances are protected with R -102 nozzles, the hood imum 01 8 in (20 an) In this way will not void the UL listing of 415740 (1) 415740 (1) 212 'F (100 'C) 150 'F (66 predetermined ate predetened aiming pant and then tightened to hold and connecting duct above those appliances cannot be pro- the system. 415741 (1) 415744 (25) 280 'F (138 'C) 225 'F (107 ° C) that angle. The aiming device adaptor attaches to the nozzle. The tested with PIRANHA nozzles. 3. Previously listed 3 flow number and 5 flow number duct pro- • 415742 (1) 415745 (25) 360 'F (182 'C) 290 'F (143 'C) shipping assembly consists of the aiming device and the adaptor. • Wong systems in a common plenum Is not allowed faction detailed In earlier published manual, Part No. 418087- • 415743 (1) 415746 (25) 450'F (232'C) 360'F (182'C) 06, can also still by utilized. ` One of the key elements for restaurant fire protection Is a correct ML STYLE , ` j y system design This section is divided Into ten sub - sections: Noz- DUCT SIZES UP TO 50 IN. (127 an) Fusible Link To Be Used I �r • zle Placement Requirements, Tank Quantity Requirements, Actu- PERIMETER/ 16 IN. (41 an) DIAMETER Fusible Shipping Where aion and Expellant Gas Line Requirements, Distribution Piping Link Assembly Temperature Temperature \ Requirements, Detection System Requirements, Manual Pull Sta- • One 1W nozzle (Part No. 419336) = one flow number Part No. Part NO, Elating Does Not Exceed ADAPTOR lion Requirements, Mechanical Gas Valve Requirements, Eleehi 550368 (1) 551522 (10) 165'F (74 'C) 100'F (38 'C) N072LE cal Gas Valve Requirements, Electrical Switch Requirements, and • 50 In. (127 an) perimeter maximum 550365 (1) 551523 (10) 212'F (100 'C) 150'F (66 °C) AMINO Pressure Switch Requirements. Each of these sections must be • 16 in (41 an) diameter maximum 550366 (1) 551524 (10) 260'F (138 'C) 225 'F (107'C) DEVICE FIGURE 34 completed before attempting any installation. System design • 550009 (1) 551525 (10) 360 'F (182 'C) 290 'F (143 'C) sketches should be made of at aspects of design for reference DUCT SIZES UP TO 100 IN. (254 an) I 550367 (1) 551526 (10) 450 'F (232 'C) 360 'F (182 'C) during Installation. PERIMETER/ 32 IN. (81 3 an) DIAMETER 56816 (1) 551527 (10) 500 'F (260 'C) 400 'F (204 'C) STAINLESS STEEL ACTUATION HOSE • 56816 (1) 73867 (25) 500 'F (260 'C) 400 'F (204 'C) The Stainless Steel Actuation Hose is used to connect the actus- NOZZLE PLACEMENT REQUIREMENTS • One 2W Nozzle (Part No. 418337) = two flow numbers lion line compression tees between each pneumatic actuator. The This section gives guidelines for nozzle type, positioning, and • 100 In. (254 an) perimeter maximum hose has the same thread, 7/16 -20, as the fittings The actuation quantity for duct, lenum, and Individual appliance protection. This hose allows flexibility between the AUTOMAN end each regulated p rmi p 32 In. (81.3 an) diameter maximum (( %�7(f )) ti N piping must be completed before determining tank quantity and \J — actuat piping requirements. • The chart below shows the maximum protection available from • Hose Pert No. Length Couplings each duct nozzle. Duct Protection - Single Nozzle Pert 3.0 Gallon 1 5 Gallon _ TEMPERATURE 31809 16 m (41 nth) 7/16.20 x 7/16-20 Females All duct protection �s UL listed without limitation of maximum duct ��Pban No. System System RATING STAMPED CM 32335 20 in (51 an) 7/16 -20 x 7/16 -20 Females ro F USIBLE LINK BODY 32336 24 m. (61 an) 7/16 -20 x 7/16-20 Females 42 in (107 an) 7/16-20 Female x 1/4 length (unlimited length). This Includes all varieties of ductworks 2W Nozzle 419337 Maximum Maximum - T N • 430815 in. NPT both horizontal and vertical including ducts that run al angles to 1C0 In. (254 an) 100 in. (254 an) i O Fitting the horizontal end duds with directional bends. Perimeter Penmeter _ Part No. ' Deserlptlon The R -102 system uses different duct nozzles depending on the 1W Nozzle 419336 Mewmum Maximum K STYLE ha 6ME size of dud being protected. 50 in. (127 an) 50 in. (127 an) ®, • m„„ 31810 Male Elbow (7 /16-20 x 1/4 In. NPT) FIGURE 32 31811 Male Tee (7/16.20 x 7/16 -20 x 1/4 in NPT) Perimeter Penmeter • 415371 Tee (7 /16-20 x 1/8 in Male NPT x 1/8 in. Female NPT) MAXIMUM REGISTERING THERMOMETER 32338 Male Straight Connector (7/16 -20 x 1/4 In NPT) • 25627 1/4 in Check Valve The Maximum Registering Thermometer, Part No. 15240, is used to Indicate the highest normal temperature for the protected area Pb w � Once this is established, the correct rated fusible link can be 2� � � •„ J chosen. �'•- �. - '• • 7m620 7me20 . FIGURE 33 • SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-2 UL EX. 3470 ULC CEx747 Page 4-3 REV.4 4-1-06 10.1 -02 REV.4 Duct Protection - Multiple Nozzle •Duct Protection - Multiple Nozzle (Continued) When workmg with Chan 2, one half of the quantity of nozzles determined must be equally positioned In the top half of the area DUCT SIZES UP TO 135 IN. (343 an) PERIMETER - 3 I DUCT SIZES GREATER THAN 135 IN (343 an) PERIMETER' of the duct and the remaining half of the nozzles must be poll- , FLOW OPTION honed in the bottom half of the duct area. • Ducts over 135 In. perimeter must be modularized using 2W Example: The duct to be protected has a Side' A' of 40 in and a • • One 1W Nozzle (Part No. 419336) and one 2W Nozzle nozzles (Part No. 419337) Side 'B' of 60 in. Referring to the design chart, this duct requires (Part No 418337) = three flow numbers • No round duct option available 4 nozzles One hall o14 = 2. Therefore, 2 nozzles must be equal- • 135 in. (343 an) penmeter maximum • Follow the design chart to determine maximum module size for ly positioned in each of the two duct areas. See Figure 3. • No round duct option available each 2W nozzle SIDE 7• wet (76 001 wet (70 m11 • Follow design table in Figure 2 to determine maximum module • When determining number of nozzles required, It Is sometimes ch size for each nozzle an advantage to cher* the chart using the shortest side as Side • 1W Module 2W Module 'A' end than recheck t using the longest ode as Side 'A'. This 0 0011 • • Side A Side B Side B Side B comparison may reveal a need for a lesser quantity of nozzles BIDE .D a Maximum Maximum Maximum Maximum one way versus the other way. in. (an) in. (an In. i Era in. (cnt When working with Chart 1, the quantity of nozzles determined ) j 4 (10) 60.0 (152) 23.0 (58) 37.0 (94) must be equally divided within the duct area. m 20 04 001 • • 5 (13) 60.0 (152) 23.0 (58) 37.0 (94) I 8 (15) 59.5 (151) 22.5 (57) 37.0 (94) I 7 (18) 59.0 (150) 22.0 (56) 376 (94) h ns 8 (20) 58.5 (149) 22.0 (56) 365 (93) CHART NO.1 FIGURE 3 9 (23) 58.0 (147) 21.5 (55) 365 (93) a Dom 10 (25) 57.0 (145) 21.0 (53) 36.0 (91) A • • • 11 (28) 56.0 (142) 20.5 (52) 35.5 (B0) ®a . a• 12 (31) 55.5 (141) 20.0 (51) 35.5 (BO) _a I EnDEIm®[E➢a 4CM0 0 a 44 Tr141 51 a11____ _ _51 57 II u au_ w wit rM Mn 13 (33) 54.5 (138) 19.5 (50) 35.0 (89) _ " a - 1- L 14 (36) 53.5 (136) 18.5 (47) 35.0 (89) " _ r 15 (38) 52.0 (132) 18.0 (46) 34.0 (86) + 16 (41) 51.0 ( 17 0 (43) 34.0 (86) r 17 (43) 49.5 (126) 16.0 (41) 33.5 (85) T r 18 (46) 47.5 (121) 145 (37) 33.0 (84) 1= 1 r r 19 (48) 460 (117) 13.5 (34) 32.5 (83) n r J 20 (51) 43.5 (111) 12.0 (31) 31.7 (81) J 21 (53) 41.0 (104) 10.0 (25) 31.0 (79) - , r 22 (56) 38.0 (97) 7.5 (19) 30.5 (78) a r .• 2 J T 23 (58) 33.5 (85) 4 0 (10) 29.5 (75) - SIDE is r J . • I Side B I -41. -Jr r 1 if r r w - J T, r SIdeA • • ° _ - - - - - -- 3 - -- ® © e • r r FIGURE 2 a I 1 4 - ,....• u I r 5 I Example: Protection a required for a dud that has an 'A' dimen- a 16 I 6 " son of 8.0 h. (20 an) wide and a'B' dimension o155 In. (140 an) long. CHART NO.2 Referring to the table in Figure 2, if the 'A' dimension is 8.0 in. (20 e cm), the 'B' dimension must not exceed 58.5 In. (149 an). In this A example, the 'B' dimension is 55 in. (140 an), therefore, this duct NOTE NOSE oUMnR @s LISTED IN CHART 9 MUST BE EQUALLY DNlem INTO Eva_ OF TIE iwo DUCT _ CC UE can be protected with a three flow application a • Read over from the 8.0 in. (20 an) line on the table to the 1W 1 T Module column. At that point, the chart shows that ths'B' module s • length for the 1W nozzle can be 22.0 In. (56 an). Center the 1 W 4 r nozzle in that module. The 2W module can now be centered with- 2 4 in the remaining module. J - - 6 J FS i a ..„ . 4 • F • . SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-4 UL EX. 3470 ULC CEx747 Page 4-5 REV.6 4-1-06 4 -1 -06 REV. 4 Transition Protection Plenum Protection • Option 2: The 1W nozzle must be placed perpendicular, 8-12 in. Transitions are protected at a point in the transition where the The 1/2N nozzle (Part No. 419334) must be centered 10 to 26 In. The R -102 system uses the 1W Nozzle (Part No. 41 8336) or the (20-30 an) from the face of the filter and angled to the perimeter or the diameter Is equal to or less than the maximum (25 to 66 an) below the preapdator and aimed to discharge at the • 1N Nozzle (Part No. 419335) for plenum protection. The 1W noz• center of the filter The nozzle tip must be within 2 in. size duct that can be protected. The nozzle must be located in the center of each precipitator at. However, if it is physically Impos- zle tip is stamped with 1W and the 1N nozzle tip is stamped with (5 an) from the perpendicular center line of the filter center of the transition opening where the maximum perimeter or sible to mount the nozzle at 10 to 26 In. (25 to 66 an) due to pm- IN, indicating they are one-flow nozzles and must be canted as See Figure 8. [[[ diameter begins. See Figure 4. cpitator placement, the nozzle may be mounted doser than 101n. one flow number each. When protecting a plenum chamber, the /\ 12 W Mcnl (25 an). See Figure 5 entire chamber must be protected regardless of filter length. / YA Y YU kill tier VERTICAL PROTECTION - GENERAL •IN 1 • One 1W nozzle will protect 4 linear feet (1.2 m) of plenum. The �� wu l /` TRANaoN SEE CULT FOR maximum distance from he end of the hood to the first and last =3 m a , PROTECmce nozzle must be no more than 2 ft. (.6 m). ARer the first nozzle, any - additional onal nozzles must be postponed at a maximum of 4 ft. NOE TIP � � (1.2 m) apart down the /41%‘0 Oil length of the plenum. The plenum �A TIDE . WHIN I • width must not exceed 4 R. (1.2 m). (The 1W W nozzle can be used • ^i A . } on single or V-bank fitter arrangements.) See Figure 6. a Fr ((INN ,r PRECIPITATOR FlGUR ®6 .FrnaM I=I aPr.ns ml YA%oRIY / -aFT n]M Iola IN' 5 FT (a M YA%IWY - uusur{uia HORIZONTAL PROTECTION - OPTION I �' Wla lalY 1N NOZZLE - PART NO. 419335 - SINGLE BANK PROTEC- �, - - / TION FIGURE 4 I Nozaa FOR // One 1N nozzle will prated 10 linear feet (3.1 m) of single Titer bank OA} �a rrunoR plenum. The nozzle(s) must be mounted in the plenum, 2 to 4 In. �ar Electrostatic Precipitator Protection ECriw , • �'/ ., (5 to 10 an) from the face of the filter, centered beavaen the filter -r heigh t dimension, and aimed down he length. The nozzle must be Some restaurant ventilating ducts have an electrostatic praLlplta• • ro AT 10 Se W TO Y r16 aril. NOE WY 9 NT E M . I positioned 0-6 In. (0-15 an) item the end of are hood to he tip Of he for instated at or near the base. These precipitators are used to Eo CLOSER TNAN ho W t+a om. • nozzle See Figure B aid in the cleaning of exhaust elr. FIGURE 6 Normally electrostatic precipitators do nit require protection but - '�, Q 9 jurisdiction' require protection, use • Note: For ESP used In Pollution Control units, contact Anal �, a -a W ie Fr n. ..I should the 'authority haunt risdiction' �. the following guidelines. FIGURE Technical Servoes for recommended application. C FIGURE 6 IS -+o oil MAMMY Ducts with precipitators located at or near the base can be pro- �° faded using duct nozzle(s) above the precipitator 1/2N and 1/2N must • When ar a ing plenums with the 1W nozzle, two options of coy- xle(s) (Part No. . 4 418334) ) for for the precipitator. ctpltator. tor. On One 12th nozzle must ere are ge e available: be used for each cell being protected. This nozzle tip is stamped • Option 1: The 1W nozzle must be on the center One of the single with 12N, indicating that It is a 12 a -flow nozzle and must be count- or 'V' bank filter and positioned within 1-20 In ed as 12 flow number. (2.5-51 an) above the top edge of the filter. See When protecting ducts equipped with precipitators, the duct nos- Figure 7. (..... zle(s) must be Instaalled above the preapitetor end d aimee t d to dis- charge downstream. If the area above the precipitator is a duct. the nozzle(s) must be positioned awarding to duct protection guidelines. If the area above the preapitator Is a transition, the IN transition guidelines must be followed. .AUmruu FIGURE 9 - W Rd cml :� YPU ao W ist on) i Y Axa%UY 4 t 1 I pa Tml YINaNY FIGURE7 • ,. • SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4$ UL EX. 3470 • ULC CEx747 Page 4-7 REV.6 3-1-07 10.1 -02 REV.3 Plenum Protection (Continued) Appliance Protection HORIZONTAL PROTECTION - OPTION 2 For a plenum, either single or V bank, with a linear extension The following pages detail types of appliance protection Each 1W NOZZLE - PART NO. 418396 - V BANK PROTECTION longer than 10 feet (3.1 m), each bank may be protected using one design requires several factors: correct nozzle choice, correct noz- IN nozzle every 10 ft. (3.1 m) or less depending on the overall zle height above hazard, correct nozzle location and correct aim - One 1W nozzle wig protect 6 linear feet (1.6 m) of V bank plenum. length of the plenum See Figure 12 The nozzles may point in the the point. The nozzle must be mounted horizontally, positioned 1/3 the filter opposite directions as long as the entire plenum area is protected, height down from the Lop of the fitter. Nozzles ran be boated et 6 R and the 10 ft. (3 1 m) imitation is not exceeded. See Figure 13. Fryer - Single Nozzle Protection (1.8 m) &peangs on longer plenums. The nozzle must be positioned The nozzle positioning shown In Figure 14 is not an acceptable 1. Design 0-S In. (0.15 an) from e end of the hood to the by d the male. method of prateson because the plenum area directly under the g requirements for fryers are broken down Into two th See Figure 10 tee is not within the discharge pattern of either nozzle. IY A. . FRYERS RYERS WfTHOUT DRIPBOARDS 1w NOZZLE +err. (3+...)/ If the fryer does not vrdude a dripboerd, measure the MAXIMUM internal depth (honzontal dimension from front to back) ,o FT n + nth end length of the lrypot. fuxwuN B. FRYERS WfTH DRIPBOARDS ��[ e^^ NSONror 1 e ,''' °'�, + If the fryer induces any dripboerd areas, measure both ��� ��,� ,o Fr Ili m) w the internal depth (horizontal dimension from front to ' CS q�ren the wu xoxmUu NuN portion, ` bark) and length the frypot poon, arid then measure the internal depth and length of the overall hazard area I' inducting hip inp any ddphoard areas. 'AMEN i \ . , 2 Using Table, 'Maximum Co Area Dimension - Single / / C s it o + m) Nozzle Fryer Piease; determine m, velu needed to protect the fryer based on n t te the e maximum ximum dimenamen sioo ns li sted. A If the fryer does not include a ddpboard, use the maxi- . mum dimensions listed in the first column of the table to select the correct nozzle. FIGURE / B. II the fryer includes any dripboard areas, use both the maximum frypot dimensions in the first column of the table, end the maximum overall dimensions In the second o Fr. n ., a N,soNUN column of the table to select the correct nozzle. Nona of FIGURE 10 the maximum dimensions in either column may be +o Fr n.1 m) exceeded. 1N NOZZLE - PART NO. 419335 - V BANK PROTECTION MAXIMUM 3. If either the maximum frypot or the overall sizes are exceed- • Two 1N nozzles veil protect 10 linear feet (3.1 m) by 4 ft. (1.2 m) , n, m) ed, an additional nozzJe(s) will be required. Refer to the mul- wide of V bank plenum. The nozzles must be mounted in the wxeuw 1 bale nozzle requirements. plenum, 2 to 4 in. (5 to 10 an) from face of o the fa the filer, centered / Erample A /ryer with a dipboand The inside s / the hypo/ without between the filter height dimension, and aimed down the length i the d The nozzle must be positioned 0-6 In. (0-15 an) from the end of the I, i rrpdasrd measures 162x. in depth a 16 m. in large (48 an x hood to the to g d the nozzle. See Figure 11. 46 ant and the a inside of me ove2p area mammas 1e m in depth r24 in al length (46 a (46c including n n x t me 61 ay From m) ., ,y s n nd - Fr. 1 m) me Table Warman Cooking Area Dimension - Single Nozzle ti � Fryer Protechon'eimerMe 3Northe 290 nozzle shout Aeselect- ed la protect the fryer dependng on the maximum nozzle height ,..._._, -cow 1 I n -+e an) above the /ryer and MepnsN/onIngra aremenLS Bloused Pelee 10 w , appapriate Figures m - -,o1a) ` FIGURE 133 r' 2�■ Fr. 0.2,q�1 , WJlDIU � 41111111110p ,\ �, IQ FT 119 aIY � \ \ / FIGURE 144 FIGURE 11 SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-8 UL EX. 3470 ULC CEx747 Page 4-9 REV. 6 4-1 -06 4-1-06 REV 6 Flyer - Single Note Protection (Continued) Fryer - Single Nozzle Protection (Continued) Maximum Area Dimensions - Single Nozzle Fryer Protection Maximum Area Dimensions - Single Nole Fryer Protection (Continued) Max Size Max Size Max. Size Overall Type of Nozzle Height Nozzle Max. Size Overall Type of Nozzle Height Nozzle Frypot Only With Dripboard Nozzle Above Top of Fryer Location Frypot Only With Dripboard Nozzle Above Top of Fryer Location Full or Sprit Vat Full or Salt Vat 230 27 in. to 47 In. See Figure 19.5 in. x 19 In. 19.5 In. x 25 3/6 In. 290 13 in. to 16 in See Figure 17 14 In x 15 In 14 In. x 21 in. (69 cm to 119 an) 15 and 16 (36 an x 39 em) (36 an x 53 an) (50 cm x 46 an) (50 an z 65 an) (33 to 41 an) Full or Split Vat Full or Split Vat 245 20 In. to 27 in. See Figure 19.5 N. a 1910. 19.5 In. x 25 318 in. 3N See Figure See Figure 18 14 In. x 15 In. 14 tn. x 21 In. (51 an to 69 an) 15 end 16 (50 em x 48 an) (50 an x 65 an) 18 • (36 an x 39 an) (36 an x 53 an) .18 In. x 16 In. 181n. x 27 3/4 In. 3N 25 In. to 35 in. See Figure 19 Full or Split Vat Full or San Vat 290 13 in. to 16 in. See Figure 17 • (46 an x 46 an) (46 an x 705 an) (64 an to 88 cm) 14 in x 15 to 14 In. x 21 in. (33 an to 41 an) (36 cm x 36 an) (36 an x 53 an) _ ^., t- • � � Full or Split Vat Full or Spirt Vat 290 161n. tD 27 In See Figure 17 F '• _ - ..--'1 F'-.- - -1,--r "� ■ r 14 12 In. x 14 in 14 12 In x 26 12 in. (41 an to 69 an) I � 1 , Y . (37 an x 38 cm) (37 an x 67 an) I 1 I I 1 i � I mo► III i TOP FRYER i �T " ?� 1 �� �� I, 0 / FRYER WITHOUT OWPeOARO FRYER WITH DRPBOARD OW NOME TIP POSITIONED OVER THE MIDPOINT OF THE HAZARD AREA. a N y / me ml FROM THE MIDPOINT ALONG THE LONGEST SIDE OF THE HAZARD AND •1 W � RIGHT•TpiEFr n MO THE S and FROM THE PO NT ALONG E SHORTEST SIDE OF THE HALUC MID CENTERLINE Pt ` I AWED AT THE MO NT PO OF THE COCOONS AREA FRYER WITHOUT DRIPBOARD FRYER WITH DRIPBOARD I TOP OF FRYER II TOP OF FRYER ` FIGURE 17 NOTE. BN NOME TIP HUm BE LOCATED WITHIN THE PERIMETER OF THE SURFACE O I 11 I • AREA WITHIN THE FROM HALF OF THE FRY POT AND AIMED AT THE CENTER I / /y��, /]� I " I FIGURE 19 .M •'PIII /� .. 1 /I �, 1 7p � �•Y� N IN n8 an) MAXIMUM DIAGONAL N H ,.. � '� n � an 9 „' CENTER BETWEEN A MD � � � �� ' Q:NTER OF HAZARD AREA 'y FRYER WITHOUT DRIPBOARD FRYER WITH DRIPBOARD FRYER WITHOUT ORIPBGMm FRYER WITH DRIPSOARD '1 N:N:WM ...>24';':”- � NOME TIP POSIT MID POSITIONED ANYWHERE ALOIO OR WITHIN PERIMETER OF COOING SPOT VAT I NOME SURFACE D AIMED TO THE CENTER OF THE COOING AREA NOME TIP DAPA NED ANN/HERE WITHIN OI ERE ALONG OR PERIMETER OF COMING 1�. I HEIGHT 1 al SURFACE MID AIMED TO THE CENTER OF THE OR ITHI AREA FIGURE 15 FIGURE 1 �� FRYER WITHOUT DRIFBOARD FRYER WITH DRIPBOARD ON NOME TIP POSITIQIED ANYWHERE ALONG OR W ITWN PERIMETER OF COOx PIG SURFACE MID AIMED TO THE CENTER OF THE COCKING AREA. FIGURE 18 SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-10 UL EX. 3470 ULC CEx747 Page 4 -11 REV.6 3 -1 -07 4-1 -06 REV.8 Fryer - Multiple Nozzle Protection Fryer - Multiple Nozzle Protection (Continued) Design Requirements: Example. A bye/ wdh a ddpboeod ma inside vat yrt/rou /the drip- Maximum Area Dimension - Multiple Nossle Fryer Protection Fryers exceeding the coverage of a single nozzle can be dnnded baardma3survs 76/n in depth x30in. in length (46 an. x76 en) Into modules. Each module must not exceed the maximum area and the nu* afore overact vat mdudn9 the 04p008,11meesuraS Max. Size Module allowed for a single nozzle However, when utIlizmg multiple Zan. in depth x30 in in length (61cm x 76 cm). Because the fryer Max. Size Module Overall Type of Nozzle Height Nozzle nozzle protection, the longest side allowed for a fryer with drip- or 30 in (76 an) in length it exceeds the coverage of a single Frypot Only With Ddpboard Nozzle Above Top of Fryer Location board can be used, regardless of whether the fryer has a drip- rrozz/a • Full or Split Vat Full or Split Vat board or not ()Mang the length m /sl4 each module now has an oyOarad vat 21 in x 210 in. 21 in. x 2941n. 230 27 in. to 47 in. See Figure 21 • The maximum size fryer that can be modularized is 864 sq. In. dme/Won zit 24 rn in depth x f5 m in length (61x36 cm) Foam (53 an x 14 m (53 an x .19 m (69 an to 119 an) (5574 sq an) or in tarns of ft., 6 sq. ft. (.56 sq. m). the Table, 76LUrmum Coating Atm Dimension - Mrdapfe Nozzle 1. Design requirements for multiple nozzle fryers are broken FryarPmtecJ. ia3' e2krrt/OSNOr the 29 ° nozzle should bese/u!- • Full or Split Vat F ull or Split Vat down into two types adro protect dula, tcct each (ermo dpcndng on the maxunum noz- 21 In. x 210 In. 21 in. x 294 In. 245 20 in. to 27 In See Figure 21 zle height above the fryer and me pasrramg reQunementh (53 an 0.14 m (53 an x .19 m (51 to 69 an) A. FRYERS WITHOUT DRIPBOARD(S) allowed Rater /o aopropnata Figures. 15 Waugh 19 If the fryer does not include a dnpboard, measure the Inter- • Full or Split Vat Full or Split Vat nal depth (horizontal dimension from front to bade) and e� /erargWrs in Aploeno SeCiare 121 in. x 210 m? 21 in. x 294 in.z 290 13 In. to 16 In. See Figure 22 length of the frypot. Then, multiply the depth and length to . (53 an x .14 m (53 an x 19 m (33 to 41 an) obtain the area of the frypot In square Inches. B. FRYERS WITH DRIPBOARD(S) 25 3/8 x 370 51n 25 3/8 x 495 In 290 13 in. to 16 In. See Figure 22 (65 an x 24 m (65 an x .32 m (33 to 41 an) If the fryer includes any dnpboard areas, measure both the Internal depth and length of the frypot portion, and then • Full or Split Vat Full or Split Vat measure the Internal depth and length oldie overall hazard 126 12 in x 203 In. 26 12 in. x 384 1/4 In 2 290 16 in. to 27 Nn. See Figure 22 area including any ddpboard areas. (67 an 0 .13 m (67 an x .25 m (41 to 69 an) Determine the area of both the frypot and the area of the 25 3/8 x 370.5 In 25 3/8 x 495 In 9N See Figure 23 See Figure 23 overall vat by multiplying corresponding depth and length (65 an x .24 m (65 an x 032 m dimensions 2. Divide the frypot or overall vat into modules, each of which • 27 3/4 x 324 In. 27 3/4 x 497 In 3N 25 In. to 35 In. See Figure 24 can be protected by a single nozzle, based on the maximum • (70.5 an x .21 m (70.5 an x .32 m (64 an to 89 an) dimension and area coverage of the nozzle as spealiied In Table, 'Maximum Corking Area Dunension - Multiple Nozzle r IN ne can MAXIMUM DIAGONAL Protection.' BETWEEN NOQaE ' . B - - ' ice ' • AND cents OF sm.. A.11 the module considered does not include any portion of -{ { I rc; I ; Mv� y;J - - ' NAIARD AREA ya . a' the chipboard. use only 'r the maximum frypot area and max- I te ' ; , i r , ' ' i � 2, ., m on � ...co. ^ Imum dimension listed in the first column of the table to I I / I - -' i ywoaiM L- select the correct route. dnpboard �'i im B. II themodule considered Includes any dnpboa areas, use 1 both the maximum frypot area and dension listed In the I ^ fii column o tea table, and d comum o areaend �Fi nim ansions tf x In the sco sd co f the lumr o the tma e � � select the correct noe. 3 None Of the maximim um dlmen6lo ns In elthel column may y be nD FRYER WITH Oelpeos m exceeded. If either the maximum frypot or the overall sizes are x1 NOZZLE rip Mum BE POSITIONED ANYWHERE ALONO OR WINN THE exceeded, the area divided Into modules will need to be rode- FRYER WITHOUT DRPBOARD FRYER er11 osipeoARD PERIMETER OF THE MODULAR IT LB PROTECTING AND AIMED AT THE MIDPOINT OF fined with the possibility of an additional nozzle. PoamON NOME rip ANYWHERE ALONG OR WIMP! THE PERIMETER OF THE THAT RESPECTIVE MODULE AREA MODULE IT 1S PROTECTING AND AM AT THE MIDPOINT OF THAT MODULAR AREA FIGURE 23 Options For Modularizing Fryers FIGURE 21 The following Figure 20 shows approved methods of drvidirg (mod- ularizi r .: - _ CANNOT f rs so that each section can be protected. FAY POT MODULE i 1- •r-- - - i ;- PO �) 'Ye property AREA OF EACH p FOCEEC 720 SO N TAM au Pn) i - �- AN CENTER of AN PONT (DIAGONAL 1 II A EACH MODULAR AREA. INOLUDING DRIPBOMm. 1 n ` ^•� f � ' - �_ .1 I CENTER N � ' 1 , I 1 T,OOK MUST NOT EXCEED 4T BO N O2Grre au) AREA OF EACH FR/ ' ''- I - I I i, I AREA I t I I i + CANNOT CE ■ 1 I 7M 60 IN CM I 1 ' ; 1 1 RI I , 1 RIfifTTD•LEPT I ' I 'uNRTF • MIDPOINT MLPOINT _ i + IyJ� � l I I I LE " cements I _ par R.us DRIP I I EXCEED) CANNOT I DRIP BOARD I DRIP BOARD DRIP BOARD OINSO IN ® FRYER WITHOUT DRPBOAD FRYER WITH ORPBOAD FRYER WaHOUT ORPBOAND FRYER WIM DRIBOARO • Ex rvou ONLY co NOZZLE nP POSITIONED OYES THE MIDPOINT OF THE RESPECTIVE NODULAR FRYER WITHOUT ORIPBOAxi P 7th NOZZLE Tap MUST en ON ANYWHE mom ONG 011 WGON HE 1:1914 T AREA • 3 IN Fm) FROM THE THE ALONG THE LONGEST TEST OF THE PERIMETER METE FORMARO OF THE HE RI MU AT N DIAGONAL FT E OF C LAT O F Ex wrnr EXAMPLE ONLY • ONLY FRYER WTI. ORIPeOARD eonM Y AN MODULE AND • 1 IN t o Foal E E M9F THE SHORTEST 610E OF AREA AMINO THE AMINO POINT THE NOZZLE . E NLL4T BE AT THE DAOOPIAL CENTER R OF FRYER wlTel DRIPaOARD FIGURE 20 THE ODUIE D AHED AT THH MIDPOINT THE E MIDPOINT OF THE ONG MCOUL THE MODULE THE NODULAR mOgtxe AREA. FIGURE 22 FIGURE 24 • . • r SECTION IV — SYSTEM DESIGN SECTION IV — SYSTEM DESIGN UL EX 3470 ULC CEx747 Page 4-12 UL EX. 3470 ULC CEx747 Page 4 -13 REV.5 10-1-02 3-1-07 REV.7 Multiple Nozzle Fryer Protection — Mt Skillet / Braising Pan Range Protection 7 -Flow Nozzle When this type of hazard Is equipped with a back shelf located Protection for tilt skillets or braising pans Is to be based upon the The R -102 system uses five different nozzles for the protection of above the range top, two protection options are available: One coverage limitations provided for deep fat fryer protection. Refer to ranges. Two of the design options require a one-flow nozzle and requires a 1F nozzle, Part No. 419333, and the other option • Section IV. DESIGN, starting on Page 4 -10, for maximum fryer three of the design options require two-flow nozzles. requires a 260 nozzle. Part No. 419341. nozzle coverages and maximum fryer nozzle height limitations NOTICE Option 1: 1F Nozzle When using the 1F nozzle for range proteo- Although the maximum 6 sq. R. total surface cooking area require- A 13 in. (33 an) diameter wok pan is the largest Son vAN or without bath shell, the maximum length of ment applies to fryer protection, it does not apply to tilt skillets or wok size that can be protected on ranges the burner grates being protected must not exceed braising p er. When protecting hot top ranges, the entire 28 In. (71 an) and the maximum area of the burner Each tilt skillet/braising pan protested module must not exceed the cookie surface must be protected. grates must nnoz nozzle location do sq. N. (2168 sq. an). See 8 8 Figure 271ar nozzle locetion data ➢& fryer limitations for "MAXIMUM SIZE MODULE OVERALL WITH Range Protection (1 -Flow Nozzle) IF NOZZLE DRIPBOARD coverage per nozzle as described in Table on Page . CAN OVERNANO BURNERS) • 4-11. • Single and multiple burner ranges can be protected using a 1N : BY MAXIMUM OF rr IN se en) Tilt skillets and braising pans generally utilize a hinged cover. nozzle. Part No. 419335. The nozzle tip is stamped with IN, Ind- eating Fryer protection nozzles are to be placed toward the front of the that appliance to minimize the potential for the tilt skillet or braising pan flow number. this is a one-flow nozzle and must be counted as one • cover to interfere with the nozzle discharge. See Figure 25. When using this nozzle for range protection, the maximum length N \� zo w of the burner grates being protected with a single nozzle must not 40. y W PONT o' ma COVEN MUST NOT FODDER! exceed 32 in. (81 an) and the maximum area of the burner grates rim • ID R " 1°NO WITH NOME DISCHARGE 0 must not exceed 384 sq in. (2477 sq an) per nozzle. When protecting a range, the 1N nozzle must be located a maxi a mum of 10 in. (254 cm) from each burner grate centerline and /��� must be aimed at the center of the cooking surface. See Figure 26. �j r4 ill. DU oT) +] 14W MADAM Die col I / MAXIMUM CENT T O R �"' +F NOME LOCATED OVER FROM E OF BURNER GRATE OE ORIENTED ITH M SO NOME TIP FLATS ARE PARALLEL W DULL BURNER GRATE FRO TO REAR ���. \ I r CENTERLWE AND ALL BE AIMED AT THE CENTER OF THE COOKING SURFACE _ FlGURE27 4ow i I T /- m oe / Option 2: 260 Nozzle: When using the 260 nozzle for range pro- / W tection with or without burner shelf. the maximum lenglength ne ml of buer grates being protected must not exceed r 32 In. (81 an) and the maximum area of the burner grates must not exceed 384 sq in. (2477 sq. an). Nozzle must be located on the front edge of the burn - THE NOME LS TO BE PLACED TOWARD THE FROM OVINE APPLIANCE TO MWPA¢E W G PAR COVER TO INTERFERE WITH er grates and aimed at a point 10 In. (25 an) from the THE POTENTIAL FOR THE BULLET OR ORAS THE NOZZLE DISCHARGE back edge of the burner grates. Nozzle must be mount - ed 30 to 40 In. (76 to 102 an) above the hazard sur- face. See Figure 28. COVER MUST NOT / INDe .x WTERF V/ iiFH EDa %/I /I TD W CAM OVERHANG BURNERS) OF DISOIARGE PATTERN I I]B m.I I ii SHELF 9Y A MADAM OF T w BB ant I MA7(IW 311141141.33 311141141.33 311141141.33 j AND MADAM aKl TBW N OZZLE .REFER 1N MUY ��I LAST J To FRYER NOZZLE m!�� LEMUR NOME PARAMETERS AMONG / POINT rO W ►��� o • ®, YAMNUY �� e.RC FRO" —_ Num BAC OF BURN GRATES FRYER NOME USED FOR TILT SKILLET OR EIMENO PAN PROTECTICM War SE FIGURE 28 POWERED NEAR THE FRONT EDGE OFT"E PAN AND AIMED AT THE FROM TO BAD( ®, CENTERLINE OF TIE PAN THE D50 4AROE FROM THE NOMEIe) MUST COMPLETE. FIGURE 26 LY CLEAR THE PAN COVER WITH AN UNOBSTRUCTED VIEW TO THE SAO( OFT/1E PAN _ • FIGURE 25 SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-14 UL EX. 3470 ULC CEx747 Page 4 -15 REV 5 10-1 -02 10-1 .02 REV.4 Range Protection 2 -Flow Norse Range Protection 2-Flow Noah High Proximity Application (2-Flow Nome): 40 in. to SO in. comic; Medium Proximity Application (2-Flow Nozzle): 30 in to 40 in. COCKING (102 an to 127 cm) above the cooling surface. AREA (76 an to 102 an) above the cooing surface. This high proximity application uses the 245 nozzle, Part No. The medium proximity application uses the 260 nozzle, Part No. • 419340 419341. g I �` I The nozzle rip Is stamped with 245 Indicating this Is a two -flow I 100 �� The nozzle tip Is stamped with 260 indicating this Is a two-flow nozzle and must be counted as two flow numbers. %\ ooaaNG nozzle and must be counted as two flow numbers. comma One 245 nozzle will protect a maximum cooking area of 672 in. 246 NOma TIP AREA AREA P B W L4CATxw CENTER OF "" • One 260 nozzle will protect e a cooking area of 768 sq. (4335 sq. an) with a maximum longest dimension of 26 In. COOKING SURFACE • (4955 sq. an) with a maximum dimension of 32 in. (81 an no NOME TIP I . I` , 9 OR (1 ` I M, ) ) Lnunw CENTER (71 em). nse OD 012 When using this nozzle for range protection, the nozzle must OF COOKING When using this nozzle for range protection, the nozzle must CENTERLINE OF NOME MIN. b B pointed v ® down and faosrtxorred e6 shown in Flgurea SURFACE be pointed vertically down and positiorwd as shown In Figures TO COMA OFANY • 31 and 32. Tow ru.40,1 • 29 and 30. • eURNER GRATE MAxwUM FROM 246 NGME TIP LOCAnoN CENTERLINE OF NOME TO CENTETWNe OF COONwG SURFACE • CONG 2 NOME TTP LOCATION CENTER OF ANY C00(INCOCKING m AREA CENTERLINE OF COOKING SURFACE SUMTER ORATE AREA J GOOla1 I LO OGATIONQNTER :(1 241 NNOME TIP P OF C00.10 NE OR la+ AREA 40 I SURFACE AREA N a a t7 WY L COO+ONO 6lxIFACER OF� NEIGIIT MAXw22LEll +� C3i NOME MAXIMUM FRCP I I OF a o cooro TOTONE OF TIP CENTERLINE OF NOME � � TO CENTER OF ANY . I TIP I CENTER A N FIGURE32 11 40 • SURNER GRATE xl w nag onx w =I H121.14T FIGURE 30 FaNONM NOTICE OF 246 + REMIT Four burner grates shown in Figure 32. For sin- np ) I NOME OF am GP i . gle or double burner grates, locate nozzle at center of cooking surface. I ooIoo I oo sem '� `tt '` ' FIGURE 31 • FIGURE 29 NOTICE . • Four burner grates shown in Figure 30. For sin- • gle or double burner grates, locate nozzle at center of cooking surface or 11 3/8 In. (29 cm) maximum from nozzle centerline to center of • any burner grate. • .. . SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-16 UL EX 3470 ULC CEx747 Page 4-17 REV 6 4-1 -06 10-1.02 REV 5 Range Protection 2 -Flow Nozzle Griddle Protection 1-Flow Nozzle • Low Proximity Application Tvo (2 -Flow Nozzles): 15 In. to comma LONGITUDINAL The R -102 system uses four different nozzles for the protection of 20 In (38 an to 51 cm) above the cooking surface. AREA CENTERLINE griddles. One of the applications requires a 1-flow nozzle and I I NOME =ATM f The low proximity application requires two (2) 290 nozzles, Part three of the applications require a 2 -flow nozzle I 1 0 (0 - 6l No. 419342. Nigh Proximity Application: 35 in to 40 in. (89 to 102 an) above -►I i � INS ONNa SURFACE I i m m:) \I \� \/ , t the cooking • The nozzle a is stamped with 290 Indicate this is a two flow noz- I g surface. I t I i p fx Indicating I \ / \ I \ I MAXWIW MIMIC the and must be counted as two flow numbers. � �� �� co This high proximity application uses the 1N nozzle, Pert No. I I 6F '" Two (2) 290 nozzles vet protect a cooking area of 1008 sq. In. LPN \/ 1 419335. i / I I "omF nP (6503 sq. cm) with a maximum dimension of 38 In. (91 an) ■ The nozzle tip Is stamped with 1N indicating this is a one-flow noz- I . i I I 46 REsI m) When using two of these nozzles for low proximity range motes- 1 zee and must be counted as one flow number. EDG• I I / i I , CIF IN ton, the nozzles must be positioned along the cooking surface 260 NOME TIP One 1N nozzle will protect a maximum cooking area of 1080 sq. OF —. l I I I NOLILE ' COTIGNO angle Ti perimeter to 1.5 in. (3.8 an) inside the perimeter, and aimed at a LOCATION CENTER of in. (6968 sq. an) with the maximum longest side of 36 in. (91 cm). suaF•cE I I I im I 45° an aloe the I �8 longitudinal centerline of the range. See \ COODN0 SURFACE Figures le and 34. 20) NOZZLE TIP LOCATION • x w @`rt When using this nozzle for gnddle protection, the nozzle must be 0 - +a w as win FROM EDGE ® positioned along the cooking surface perimeter to a maximum of NO NOZZLE TIP OF COMING SURFACE 2 In. (5 cm) Inside the perimeter, and aimed to the midpoint of the LOCAT1ai 0 - taw • cooking surface. See Figure 35 and 36. @- 6a I>rl N OTICE IN FROM EDGE OF COOKING • FIGURE 38 K6• COOKwO SURFACE .6• AREA When using this type of griddle protection, only Di. • ®,. 5 flow numbers are allowed on a 1.5 gallon sye- 1 I I I . tam end only 11 flow numbers are allowed on e WIN Towel I I I ISIN TOTEM ÷1 COOK/NO 3 gallon system (310/610•) I I OF to 61 an) AREA 1 r i MIDPOINT OF I COOKINO6iR _ I FACE ) ,. 00000%0 1 y uTCCIONN CENTER OF I f w + t + COOKO61RFACE I TIN Owl I ne NOME TIP LOCATION I I FIGURE 33 0 -1a IN @a em) IN FROM EDGE MIN OF COOKNO SURFACE --T. 1 1 I FIGURE 34 L_ i J 4 i 1N NOZZLE LOCATED ALONG COOKING SURFACE EDGE Mr/ BCE OF GRIDDLE SURFACE W -x1 -C•l OF 00oioe 0KIN0 w 66 SURFACE EDGE NOZZLE WST BE ANaD AT NO POINT OF COOKING SURFACE • FIGURE 35 _ ' -• S . 1 0. _ • SECTION (V - SYSTEM DESIGN SECTION (V - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-18 UL EX. 3470 ULC CEx747 Page 4.19 REV.6 3-1-07 10-1-02 REV.3 Griddle Protection 2 -Flow Nozzle 2-Flow Griddle Protection (Continued) Option 1 - Nozzle Center Located LOOKING Option 2 - Nozzle Perimeter Located I COOKING AREA High Proximity Application: 30 In. to 50 In (76 an to 127 an) NOZZLE AREA h H p „q High Proximity Application: 30 In. to 50 in. (76 an to 127 an) above the coolsng surface. LOCATION 10I03011 above the cooking surface. This high proximity application uses the 290 nozzle, Part No. a_ This high proximity application uses the 260 nozzle, Part No. I--- MIDPOINT OF 419342. 11 418341. I COOKING SURFACE The nozzle lip is stamped with 290 indicating this Is a 2•h ow noz- 1 The nozzle tip is stamped wNh 260 indicating this Is a two-flow I f I zie and must be counted as two flow numbers. I nozzle and must be counted as two flow numbers. + t ARCOOgAICN0 One 280 nozzle will protects maximum cooking area of 720 sq. in. r • COMING One 260 nozzle will protect a maximum cooking area of 1440 sq. I Ail PaM I • (4645 sq. cm) with a maximum dimension of 30 In (76 an). , / AREA In. (9290 sq an) with a maximum dimension of 48 In (122 an). I I J When using this nozzle for high proximity applications, the nozzle When using this nozzle for griddle protection, the nozzle must be must be positioned within 1 In. (2.5 an) of the center of the cook- ' in n u � positioned along the cooking surface perimeter to 2 in ing surface and pointed vertically down. See Figure 38 and 37. (5 1 an) inside perimeter, and aimed at the Center of the cooking COMM SURFACE EDGE surface. See Figure 39 and 40. 2m NOZZLE LOCATED ALONG ENTER LW E OF GRIDDLE AM SIDE OF GRIDDLE SURFACE CENTER • I O p IN RIC CENTER OF GRIDDLE SURFACE OR A WM. 0 - w N - Orl OF ANY DIRE I of MAXI US/ DIYERBION OF 2D .B e. COCKING SURFACE EDGE W unl FROM NOME CENTERLINE TO I MOVIE MUST BE AIMED AT YID T FURTHEST CORNER OP ORID0.5 I NOME IOCAmON i POINT OF COOKING SURFACE B -SIN R -Surf I FIGURE 38 I INSIDE KinuerER se • FIGURE 40 I SO IN ear's + Le- OF COC,Ns SURFACE I 1 NV or) eI¢I I h Or I ' I I Y�wu i HEIGHT I /) OF2m OFD I f i t I I I 3mH (71I RI I EO IN I / / I YOIONM 1 REG 1 I NINDSULI �+ I OP 260 I HEIGHT i OF LOODNO i I wii NOZZLE P en i SURFACE I I I 1 • FIGURE 39 WSW FIGURE 37 • r. , • . SECTION IV — SYSTEM DESIGN SECTION IV — SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-20 UL EX. 3470 ULC CEx747 Page 4-21 REV.4 10-1-02 10-1.02 REV.3 2-Flow Griddle Protection (Continued) 2 -Flow Griddle Protection (Continued) Option 2 — Nozzle Perimeter Located (Continued) Option 2 — Nozzle Perimeter Located (Continued) Medium Proximity Application: 20 In. to 30 In. (51 an to 78 an) Low Proximity Application: 10 in. to 20 In. (25 an to 51 an) above the cooking surface above the Woking surface. The medium proximity application uses the 290 nozzle, Part No. The low prowmity application uses the 2120 nozzle, Part No. 419342. 419343. The nozzle tip is stamped with 290 indicating this is a two-flow The nozzle tip Is stamped with 2120 Indicating this Is a two -flow nozzle and must be counted as two flow numbers. nozzle and must be counted as two flow numbers. One 290 nozzle will protect a maximum cooling area of 1440 sq. One 2120 nozzle will protect a maximum cooking area of 1440 sq. In (9290 sq an) with a maximum dimension of 48 in. (122 an). In. (9290 sq. an) with a maximum dimension of 48 in. When using this nozzle for gnddle protection, the nozzle must (122 an). be positioned along the penmeter to 2 In. (5.1 an) Inside When using this nozzle for griddle protection, the nozzle must penmeter, and aimed at the center of the cooling surface. See be positioned along the penmeter to 2 in. (5.1 an) inside pane- • Figure 41 and 42. ter, and aimed at the center of the cooking surface. See Figure • • 43 and 44 DOOKINa AREA --•( 1. I t NOZZLE E LOCATION ' 0-21N112-11m/ 1 E PEROE t MIME I ASV r _I CENTER OF --1 + 1 1 .-OF COOKING SURFACE ; i MAMMA I COOING SURFACE HEIGHT ( �� I OF 2120 i / I I / t NOZZLE TIP COOKING 1 • I I I AREA 1 I ow 060.1 I / i 1 10NRNM I / 1 OF2 0 mow L NM POINT — 1 J I 1 1 1 1 NOZZLE TIP I ftt I 1 1 i i 220 NOZZLE LOCATED ALONG COOKING SURFACE EDGE ANY SAE OF GRIDDLE SURFACE WITHIN 0-21N (D -6 JOF COORINO SURFACE EDGE EDGE OF NOME MUST BE AIMED AT cus. COMING SURFACE • TER of COOKING SURFACE FIGURE 41 • FIGURE 43 I I NOME Lo unri I I COOKING AREA 1 1 I 6- 2114.(0 .-ac l t I DIME PEREMER I 60 N + 1 OF COOKING SURFACE 1 I ( J «— YAKIM I t N M r 7 CENTER OF 1 I } OF TIP I COOING SURFACE 1 1 I E0 DI Ot onl l //_ 1 1 COOKING I // I ;EIGHT ,2, I I / OZ�IIE TIP �. F.- AMPOOR I l II ; L J 11 — EDGE OF I COOKING 2120 NOZZLE LOCATED ALM, COOKING SURFACE EDGE SURFACE ANY SCE OF GRIDDLE SURFACE WIDEN O -2IN N - ear) or WOKING SURFACE EDGE NOME • FIGURE 42 MIST BE AIMED AT CENTER OP ®„ WOKING SURFACE • FIGURE 44 SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-22 UL EX. 3470 ULC CEx747 Page 4-23 REV.4 4-1-06 4-1 -06 REV.7 Chain Broiler Protection Overhead Chain Broiler Protection (Continued) The R -102 system uses two 1N Nozzles (Part No. 419335) for Overhead Chain Broiler Protection Example No. 1 - Internal broiler size is 24 in. long x 20 in. wile Upright/Salamander Broiler Protection chain broiler protection. The nozzle tip Is stamped IN, indicating The A-102 system uses two 1W Nozzles (Part No. 419336) for (61 x 51 an), with an opening of 16 In x 16 In The R -102 system uses two 12N Nozzles (Part No. 419334) for that this Is a one -flow nozzle and must be courted as one flow overhead chain broiler protection. The nozzle tip is stamped with (40.6 x 40.6 an). all updght/salamander broiler protection. The nozzle by is stamped number (total of two flow numbers for each chain broiler being pro- 1W, indimbng that this Is a one -flow nozzle and must be counted To determine minimum opening size, multiply the 12N, indicating that this is a half -flow nozzle. A pair of these noz- ta ). as one flow number. internal length and the internal width by 0.6 zles will equal one flow number. Two IN nozzles are always needed for chain broiler protection Overhead protection is only available for chain broilers with Length of opening - 24 in. x 0.6 = 14.4 In. Two 1/2N nozzles will protect a maximum hazard area (Internal when the hazard area to be protected does not meet the exhaust opening dimensions that are not less than 60% of the (61 an x 0.6 = 36.6 cm) broiler chamber) of 301n 0 32.5 in. (76 an x 82.5 an). These noz- °Overhead Broiler Protection" requirements. The maximum Inter- Internal broiler length and not less than 60% of the Internal broiler Width of opening 20 In a 0 6 = 12.0 In. zies must always be used in pairs on an updghVsalarnander broil - nal size of the broiler is 43 x 31 m. (109 an x 79 an). The nozzles width, roe minimum size of 12 in. x 12 In. (30 5 x 30.5 cm). Internal er. One nozzle must be positioned above the grate and pointed at must be co positioned at each end of the enclosed olong chamber (51 an x 0.6 = 30.5 an) 1 to 3 e (2S 10 7.5 an) above the surface of the chain and a max- broiler size can not be larger than 32 in. x 34 in (81 x 86 an). The minimum allowable opening for overhead protect the back opposite corner of the broiler chamber. The second raz- When overhead protection is used, the nozzles must be centered 9 zle must be pointed down into the center of the drip pen through hum distance of 4 in. (10 an) away from the broiler opening. The bon would be 14 4 in x 12.0 in. (36.6 x 30.5 an). nozzles may be mounted at either corner as long as they are at above the exhaust opening within 4 to 8 in. (10 to 20 cm) of each 'the open slot. See Figure 50. m opposite ends of the chain broiler and positioned to discharge other and they must be located 10 to 26 in. (25 to 66 an) above This example would be acceptable for overhead pro- Note: If metal blow-off caps are required for upnght broiler or sale - diagonally avow the top of the chain. See Figures 45 and 46. the top of the broiler surface. Sae Figure 47. won• mender broiler protection, use (2) two IN nozzles, Pad No. y .s w ooas DID Example No. 2 - Internal broiler size is 30 in. long x 24 in. wide 419335, instead of 12N nozzles (76 x 61 an) with an opening of 22 in. x 12 in. (56x30 an). aK"YwkOER B ROaE n \ ® M w length determine and in minimum opening size, multiply Internal /� 4 ,, I rse DA/ length and internal width by 0 .6: Length of opening - 30 In. x 0.6 = 16.0 in. (78 an00.6 =45.7 an) � Width of opening - 24 In. x 0.6 = 14.4 in. ! � � `, - . 12 IN roe onl `� `� ii II �' / `��_ MINIMUM Length an x 0.6 = 36.6 an) \`-• _ 12 IN no4 ord ' �� I) YyWUY Minimum allowable opening for overhead protection II �� • II kE f; would be 18 in. x 14.4 in. (45.7 x 36.6 an). r". Because this broiler has an opening of 22 in. x 12 In., ,=== II II wuyuy INTERNAL the 12 In. width Is below the minimum allowable cal- II' DRONER cabled dimension 0114.4 In. (36.6 an) and therefore or+ are =rl would not be acceptable for overhead protection. FIGURE 47 • Upright/Salamander Broiler Protection ®• UPRIGHT BROILER The nozzles may vary m o position as long as they are evenly i na t i DA) spaced from the exhaust center and am always 180° opposite of Nozzle, Part No. 418335, for upright/salamander broiler proteo- each other. It the opening is not square, the nozzles must be posy- bon. The nozzle tip is stamped with IN, Indicating that this is a honed along the centerline, parallel to the longest side T The R -102 Restaurant Fire Suppression System uses one IN the open- one -flow nozzle i BROILER auoEn r"1 mg. See Figure 48. One 1 N nozzle will protects maximum hazard area (internal broil• er chamber) of 16 In. (41 an) deep x 29 in. (74 cm) wide 1,- The single IN nozzle must be located directly in line with either , vertical of edge of the broiler o 6 in. 5 an) 1 t e t p of L II I le FIGURE 4s In In front the broiler, and 0 0 in. In. t t 12 12 in. (30 above an) above the top of ....to I the broiler. The nozzle must be armed at the center of the broiler sperdng. See Figure 49. I1='""'.. miP VERTICAL EDGE PAN ,=NMI OF FIROsER OPEN) G 1 1-..1 1 IN otaml `!G \i� NOZZLE FRONT '� - I TOP VIEW TOP VIEW .\ i 1 } Mall! LOGTON ZONE FRO DOE NEW VIEW • / romi i88i {w Psx,i I 1 1 1 FlGURE48 .\ !Ell 811 1 --- - ,, y • Note: The CB Metal Blow-off Cap must be used when using -...1,- e • Then Broiler protection. eve u�NUy r�rERNU - ca oh FIGURE 50 9Aakeesss43 X 3 *I ► \ k� • � MEMO � (1WxTe=nl I - - - AN on CENTER FIGURE 46 "°r "T DENIER OF OF DIEM MOILER OPENING FIGURE 49 r , . , SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-24 UL EX. 3470 ULC CEx747 Page 4-25 REV 6 4-1 -06 10-1 -02 REV.6 • • Gaa- RadlantlElecolc Cher - Broiler Protection Lava Rock (Ceramic) Cher - Broiler Protection The R -102 system uses the 1N nozzle, (Part No. 419335) for gas- The R -102 system uses the IN Nozzle (Part No 419335) for all Natural Charcoal Broiler Protection • rad+ant/el2 system char - broiler protection. lava rode char - broiler protection. The nozzle tip Is stamped with The R -102 system uses the 1N Nozzle (Part No 419335) for as The nozzle hp on the 1N nozzle is stamped with a 1N, indicating 1N, indicating that this Is a one -flow none and must be counted natural charcoal broiler protection. The nozzle tip is stamped with that this is a one -flow nozzle and must be counted as one flow as one flow number. 1N indicating that this is a one -flow nozzle and must be counted number One IN nozzle wit protect a hazard which has a maximum length as one flow number. One IN nozzle will protect a hazard with a maximum length of of 24 In. (61 an) and a total cooking area which does not exceed One 1N nozzle will protect a hazard area which has a maximum 36 in. (91 an) and a total cooking area which does not exceed 312 sq in (2013 sq an). The nozzle hp must be located 18 to length of 24 in (61 an) and a total cooking area which does not 864 sq. in. (5574 sq. an). The nozzle tip must be located 15 to 35 In. (46 to 89 an) above the hazard surface. When using this exceed 288 sq. In. (1858 sq. an). The nozzle tip must he located 40 in. (38 to 102 an) above the hazard surface When using this nozzle for lava rock (ceramic) char - broiler protection, the nozzle 18 to 40 In. (4610 102 an) above the hazard surface. When using • nozzle for gas-radiant/electric above char - broder protection, the nozzle must be positioned anywhere along or within the perimeter of the this nozzle for natural charcoal broiler protection, the nozzle must must be positioned anywhere along or within the penmeter of the • maximum cooking area and angled to the center. See Figure 52. be oned positi anywhere ere along or within the th er of the max - maximum co center king area and shall be alined at the of the Imam cooking area and aimed at the center r of of the cooking sur- cookxng surface. See Figure 51. smxiNG • faze. Sae Figure 53. AREA OOOIONO ,' MEA The co ve rage o1 suc ap pliances Dory applies when the depth of AczoxiNO I ' , r -.. the charcoal does not exceed 4 in (10 an). • I `` I OOOgNG /t�A AREA AREA , l I \ ?/r . 1 I I 1 ''' ' ': - .. 4 .. ..,.-.." ill I /" +Cw'co err.) MwocuM FIGURE 51 fa--I \ ! I stessN i 1 \ I 1.5556111 . ai Ili I uw I N / I iu u \ r I j \+ I / I (bo1 1 il 1 I \ tAg'7.—.-i. 1 I Ma c +o a+:l i �� ®s WxiMUM i / 1•e ep GERIN i I MIN MUM EBB I f I I \ I • FIGURE 52 0INIMENWil • • FIGURE 63 SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-26 REV. 5 10-1-02 Alternate Ceramic/Natural Charcoal Char - broiler Protection The R -102 system may also use the 3N nozzle (Pan No. 419338) for all ceramic (lava rock) and natural charcoal char - broiler pro- tection. The nozzle tip Is stamped with 3N, Indicating that this is a three -flow nozzle and must be counted as three flow numbers. One 3N nozzle will protect a hazard which has a maximum length of 30 In. (76 cm) and a total cooking area which does not exceed 720 sq. n. (4645 sq. an). The nozzle tip must be located 14 to 40 In. (36 to 102 an) above the hazard surface. The nozzle must be positioned anywhere along or wtenn the perimeter of the roex- • arum cooking area and angled to the center. See Figure 54. For natural charcoal doer- Dollar protection, this coverage only apples when the depth of the charcoal does not exceed 4 in. (10 an). CCCIONO ARE, /IBC 010NO ARE" AREA MONO FIGURE 54 • Wood Fueled Char - Broiler Protection The R -102 system uses the 3N Nozzle (Part No. 419338) for mesquite filer -tiro ter protection. The nozzle tip is stamped with 3N indicating that gds is a three -flow nozzle and must be counted as three flow numbers. One 3N nozzle will protect a hazard which has a maximum length of 30 in (76 cm) and a total cooking area which does not exceed 720 sq. m. (4645 sq. an). The nozzle by must be located 14 to 40 n. (36 to 102 an) above the hazard surface. The nozzle must be portioned anywhere along or within the perimeter of the max- imum cooking area and aimed at the center of the cooking sur- • face. See Figure 55 • Mesquite logs and pieces, no larger than 4 in (10 an) in diameter, may be protected with a maximum allowable wood depth of 6 In. (15 am). COOKING /I'�COOKINO ARE AREA f 7 I( 40 PI M 4 \ f / IN (10 0 I MAXW Al DEPTH u N. I Ile col I MNiIUM FIGURE 55 Wok Protection The R -102 system uses two deferent nozzles for the protection of woks. 1. A 260 nozzle, Part No. 418341, will protect a wok 14 in. (36 an) minimum diameter up to 30 in. (76 an) maximum diameter. The wok depth must be no less than 3.75 in. (9.5 an) and no greater than 8 In. (20 cm). The nozzle tip is stamped with 260 Indicating that this is a two- flow nozzle and must be counted as two flow numbers. When using this nozzle, the nozzle must be positioned as • shown In Figure 56. NOME MUST BE POSmONED wnHN 1 IN cram RADIUS OF THE CENTER OF THE WOK. POINTED VEmxiALLY DOWN MN11n15 DEPTH 0 MIN. (alt 0n) MAXMUM scorn a IN no en 1 L m NOZ .E g 14IN pal OM MINIMIAI DIAMETER 30 N pat an) MAXIMUM DIAMETER FIGURE 56 SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-27 10-1 -02 REV.4 2. A 1N Nozzle, Part No. 416335, will protect a wok 11 in. (28 an) mkumum diameter up to 24 in. (61 cm) maximum diameter. The wok depth must be no less than 3 In. (8 cm) and no greater than 6 in. (15 an). The nozzle by is stamped with 1N indicating that this a one -flow nozzle and must be counted as one flow number. When using this nozzle, the nozzle must be positioned anywhere along or within the perimeter of the wok, aimed at the center, 30 In. to 40 in. (76 to 102 cm) above the hazard surface, as shown In Figure 57. NOTICE When using Una type of wok protection, only 5 flow numbers are allowed on a 1 1/2 gallon system, and only 11 flow numbers are allowed on a 3 gallon system. MB11WM DEPTH 30 P1 pal 1 MAXIMUM DEPTH 1 cow peen) 11 IN CA or MINIMUM DIAMETER 14IN III on) MAXIMUM DIAMETER FIGURE 67 Marl e. • • SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-28 UL EX. 3470 ULC CEx747 Page 4-29 REV.5 4.1-06 4 -1 .06 REV.5 Nozzle Application Char Nozzle Application Chart (Continued) The following chart has been developed to assist In calculating the Minimum Nozzle Tip quantity and type of nozzle required to protect each duct, plenum, Maximum Hazard Nozzle Nozzle Nozzle Stamping - or appliance. Hazard Dimensions gi1BONIt )jalpbfa Pert Nc• Flow No. NOTICE Fryer (Non -Split Maximum Size This chart is for general reference only See Vat Ordy)' (with drip board) complete details for each type of hazard. 21 In (53 an) x Minimum Nozzle Tip 14 In. (36 an) Maximum Hazard Nozzle Nozzle Nozzle Stamping - (Fry Pot must not exceed Hazed Dimensions Quentin/ ysjgbfe Emilio._ Flow No. 15 In. x 14 In. (38 P Duct or Transition Length - Unlimited 1 - 430912 1 W High 20 - 27 in. 419339 230 Proximity x 36 an)) • (Single Nozzle) Perimeter - 50 in. (127 an) e 1 Medium Pro ium Proximity 1 20 - 27 In. 419340 245 Diameter - 16 in. (40.6 an) Maximum Size Duct or Transition Length - Unlimited 1 - 419337 2W (with drip board) (Single Nozzle) Perimeter - 100 In (254 an) 25 3/8 in. (64 4 an) Diameter - 31 7/8 in. (81 an) x 19 1/2 in (49.5 an) Dud or Transition Length - Unlimited 2 - 419337 2W (Fry pot 9 not . (Duel Nozzle) Perimeter - 150 In (381 an) (49.5 1 191 1 2 /2 m 49S an) x 19 in. Diameter -48 In. (122 an) (48.2 an) Electrostatic Predpltator Individual Cell 1 - 419334 12N High Proximity 1 21 - 34 In. 419338 3N (At Base of Duct) Low Proximity 1 13 - 16 In. 419342 290 Plenum Length - 10 f1. (3.1 m) 1 - 419335 1N Maximum Size (Honzontal Protection) (with drip board) 18 in. (45.7 an) • Plenum Length - 6 ft. (1.8 m) 1 - 430192 1W x27 3/4 In. (70.5 an) (Horizontal Protection) Width - 4 0. (12 m) 1 - 419336 1W High Proximity 1 25 - 35 in. 419338 3N Plenum Length - 4 ft. (1.2 m) 1 - 419336 1W (64-89 an) (Vertical Protection) Width - 4 R (12 m) • Fryer (Split or Maximum Size Non -Split Vat) (with dnp board) • Fryer (Split or Maximum Size 14 in. (36 an) x Non-Split Vat) (without dnp board) 21 in. (53 an) 1 13 - 16 In. 419342 290 14 in. (36 an) x Low Proximity (33 - 41 an) 15 m. (38 an) 1 13 - 16 In. 419342 290 Low Proximity (33 - 41 an) Fryer (Split or Maximum Size Non -Split Vat) (with drip board) Fryer (Spld or Maximum Size 14 1/2 in. (37 an) x Non -Split Vat) (without dnp board) 26 1/2 in. (67 an) 1 16 - 27 in. 419342 290 14 112 in. (37 an) x ' Medium Proximity (41 - 69 an) 14 in (36 an) 1 . 16 - 27 in. 419342 290 Medium Proximity (41 - 69 an) Range Longest Side 1 30 - 40 In. 419335 1N Fryer (Split or Maximum Size 32 In. (81 an) (76 - 102 cm) Area - 384 sq. In. Non -Split Vet) (without drip board) (2477 sq an) 15 In. (38 an) x 14 in. (36 an) Longest Side 40 - 48 In. 419333 1F High Proximity 1 27 - 47 In. 419339 230 28 In. (71 an) (102 - 122 an) Medium Proximity 20 - 27 in. 419340 245 Area - 336 sq. in. (With Backshem Fryer (Non -Split Vat Only) Maximum Size (2168 sq. an) (without dnp board) Longest Side (High Proximity) 1 40 - 50 In 419340 245 19 1/2 in. (49.5 an) x 28 In. (71 an) (102 - 127 an) 19 in. (482 an) Area - 672 sq. In. High Proximity 1 21 - 34 in. 419338 3N (4335 sq an) Low Proximity 1 13 - 16 In. 419342 290 Longest Side Maximum Sae (Medium Proximity) 1 30 - 40 in. 419341 260 (without dnp board) 32 In. (81 an) (76 - 102 an) 18 in. (45.7 an) Area - 768 sq in x 18 in. (45.7 an) (4955 sq an) High Proximity 1 25 - 35 In 419338 3N Longest Side (Low Proximity) 2 15 - 20In. 419342 290 (64-89 an) 36 In. (91 an) (38 - 51 an) Area - 1008 sq. in. • F. mueb, roar prase. a .syr mv....1 Want •eawen on Pape .- ,2,e.own. -r. (6503 sq. an) • kw „ +nbr nora+ eneeb d s•54 nr0. w wawa rcanaoa co Pape •.r n.wpn L„ b • t. SECTION N - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-30 UL EX. 3470 ULC CEx747 Page 4-31 REV 3 10-1-02 3-1-04 REV.6 Nozzle Application Chart (Continued) Nozzle Application Chart (Continued) . Minimum Nozzle Tip Minimum Nozzle Tip Maximum Hazard Nozzle Nozzle Nozzle Stamping - Maximum Hazard Nozzle Nozzle Nozzle Stamping - Ham rd Dimensions QuantiGi I1e1ght6 Part No. Flow No. Hazard Dimensions Dun= Idejghffi Part No. Flow No. Grrddle Longest Side (High Proximity) I 30 - 50 In. 418341 260 Wood Fueled Char - Broller Longest Side - 30 In. (76 an) 1 14 - 40 M. 418338 31.1 48 In. (122 an) (76 - 127 an) Area - 720 eq. in. (36 - 102 cm) Area - 14.40 sq. in. (perimeter (4645 sq an) (8280 eq. an) located) Upnght Broiler Length - 325 Longest Side (High Proximity) 1 30 - 50 in. 419342 290 Width 30 (76 an) cm) 2 419334 1/2N 30 In. (76 cm) (76 - 127 cm) Area - 720 sq. in. (center located) Salamander Length - 32.5 in. (82.5 an) 2 - 419334 1/2N • (4645 sq. cm) Broiler Width - 30 In (76 am) Longest Side (High Proximity) 1 35 — 40 in. 419335417332 1 N/1 NSS Wok 14 In. - 30 in (38 - 76 cm) 1 35 - 45 In 419341 260 36 In. (91 cm) (89 - 102 cm) Diameter (89 - 114 on) Area - 1080 sq. In. ( penmeter located) 375 -80 In (9.5 -20 cm) • (6968 eq cm) Deep Longest Side 1 20 - 30 in. 419342 290 11 In. - 24 In. (28 - 61 cm) 30 - 40 In. 419335/417332 1 N/1 NSS (Medium Pro mity) (51 - 76 cm) • Diameter (76 - 102 cm) 48 In. (122 an) (penmeter 3.0 - 6.0 in. (8 - 15.2 cm) Area - 14.40 eq. In. located) Deep • (9290 eq. cm) Longest Side (Low Proximity) 1 10 - 20 m. 41934.3 2120 48 in. (122 cm) (25 - 51 an) Area - 1440 sq. In. (penmeter (9290 sq. cm) located) Chain Broiler' Longest Side - 34 in. (86 am) 2 10 - 26 in. 419336/417333 1 W/1 WSS (Overhead Protection) Area - 1088 sq. In. (25 - 66 cm) (7019 sq. cm) Chain Broier Length - 43 in. (109 cm) 2 1 - 3 in. 419335/417332 1N/1NSS (Horizontal Protection) Width - 31 in. (79 cm) (3 - 8 cm) Gas - Radiant Char - Broiler Longest Side - 36 in. 091 cm) 1 15 -40 in. 419335/417332 1N/1 NSS Area - 864 sq In. (313- 102 cm) . (5574 sq. an) Electric Char - Broiler Longest Side - 34 in. (86 an) 1 20 - 50 m. 419335/417332 1 N/1 NSS Area - 680 sq. in. (51 - 127 an) (4388 sq. an) Lava -Rode Broiler Longest Side - 24 in. (61 cm) 1 18 - 35 In. 419335/417332 1 W1NSS Area - 312 sq. In. (46 - 89 an) (2013 sq. cm) Natural Charcoal Broiler Longest Side - 24 in. (61 cm) 1 18 - 40 in. 419335/417332 1 N/1 NSS Area - 288 sq. in (46 - 102 cm) (1858 sq. cm) Lava -Rode or Natural Longest Side - 30 In. (76 cm) 1 14 - 40 In. 419338 3N Charcoal Char - Broiler Area - 720 sq. in. (36 - 102 cm) (4645 sq. cm) • neen.n NF bob, l.n.ue a enng - 11 1i • 12 n ra an • 31 nni net na Su a an ma d Jeanne bleu .iu TANK AND CARTRIDGE REQUIREMENTS Once the hazard analysis is completed and the total nozzle flow numbers are established, the quantity and size of agent tanks and cartridges needed to supply the nozzles with the proper volumes of agent at the proper flow rates can be determined. For cartridges used in the regulated release mechanism, flow capacities, tank quantities and sizes, and regulated release cartridge options are given in the table below. Total Quantity and Regulated Release Row Size of Cartridge Options dllin !art Tank(R) Elliman Carbon Dtaxida 1 - 5 (1) 1.5 Gallon LT -20-R 101-10 6 -1t (1)3.O Gallon LT -30-R 101-20 11 - 16 (1) 1.5 Gallon Double 101-30 (1) 3.0 Gallon 16 - 22 (2) 3.0 Gallon Double 101.30^ When one or more regulated actuators are used, the following tank and cartridge combinations appy for each regulated actuator. Regulated Actuator Regulated Actuator Tank(s) Cartridge (1) 1.5 Gallon (1) 3.0 Gallon (1) 1.5 Gallon and (1) 3.0 Gallon (2) 3.0 Gallon LT -20 -R or 101 -10 LT -30-R or 101.20 LT -A -101-30 or 101.30 or double tank LT-A-101-30 or 101.30" or double tank • Ili sap.. 0 tr... tO r+Fren. sr Dbd,OV, PbeK1 TAFeul.rob b went. 310 P waste. M MP Seca.. - Tb tot Dareu0! ante b,e.d.hm (TM 10 Won 1.b Ire nNnetlbd 1s.) For higher total flow numbers (23 to 110), multiple cartridges and regulated actuators are required as shown in the System Selection Guide In Section IX - Appends. 1e NOT PICWDED tN ACTUATION GAS UNE LENOIR =ALE R ASSEI®LY REGULATED REGULATED ACTUATO ACTUATOR 0 66E.130 ACTUATOR GAS LINE wrru AM LT 2041. L7404. 101.10 OR 1m•20 CARTRIDGE MA NO OE Fmwm o mL Ra REGULATED -4 ACTUATOR ASSEIusLI •ANSUL AUT.:WM REGULATED RELEASE ASSEMBLY � SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-43 4.1 -06 REV5 ACTUATION AND EXPELLANT GAS UNE REQUIREMENTS This section contains the guidelines for Installing the actuation and expellent gas Ones between the regulated release mechanism reg- ulator, each regulated actuator regulator, and each agent tank. These limitations should be considered when selecting the com- ponent mounting locations. Actuation Gas Une - 6 to 8' Tanks Maximum • e Tank INdnmn rellsO, Ore udlraSon 013 tank regulated amleron 1. Use only 1/4 in. Schedule 40 black iron, hot-dipped galva- nized, chrome - plated, or stainless steel pipe and fittings. 2. The actuation gas line piping Is installed from the regulated release mechanism to each regulated actuator connected wit in the system. The total length of the actuation gas ins from the regulated release assembly to the regulated actuator assemby(les) must not exceed 20 ft (6 m) when using an LT -20-R, an LT -30-R nitrogen cartridge, or a 101 -10 or a 101.20 carbon dioxide cartridge. See Figure 80. FIGURE 80 SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-44 REV.5 4-1-06 ACTUATION AND EXPELLENT OAS UNE REQUIREMENTS (Continued) Actuation Gas Line - 6 to 8' Tanks Maximum (Continued) 3. If an expellant gas line is connected to the regulated release assembly along with an actuation gas Une, the total combined length of the actuation and expellant gas line must not exceed 30 R (9 m) when using a 'double -tank' nitrogen car- tridge ore LT-A-101-30 nitrogen cartridge or 101-30 carbon dioxide cartridge. See Figure 81. 4. A combined total of rune fittings may be used In these Ines, eight 80° elbows and one tee. Two 45° elbows equal one 90' elbow. Actuation Gee Une -10 to 15' Tanks Maximum • 15 Tank maximum rang the ulOxatIon of 3 tank regulated 4Ceatore 1. Use only 1/4 in. Schedule 40 black iron, hot-dipped galva- nized, chrome- plated, or stainless steel pipe and fittings. NOTE: Stainless steal hose and fittings can also be used. See Component Section for detailed Information. ACTUATOR AND EXPELLANT GAB ONES Wall A 9OUBLE TANK• CARTRIDGE OR A 10100 CARTRIDGE OR A LT.A.1o100 CARTRIDGE MAXIMUM COAaaED LENGTH -30 FT (0 m) MAXIMUM COYSINED PTTNGS - '1 �q� I - 111 I,e (, II 1 REGULATED ACTUATOR III 11I ABSfl®LY ANSUL AUTOMAIP REGULATED RELEASE ABSfla3Y SAFETY EXPELLANT RELIEF 1VALVE GAS UNE A TM MIL arAlafus inlet NOS! OPTIONS SAFETY REUEF VALVE M REGULATED ACTUATOR WOH TANK REGULATED ACTUATOR ASSEMBLY EXPELLANT OAS LIMES NOT INCLUDED IN COL®iED TOTALS FIGURE 81 lst IN ACTUATOR UNE - 10o FT DOS m) MAXIMUM r _ 1� 42N (1OI nn) r� YAx SPACING n~P F' Fti I I , u REGULATED ACTUATOR ASSE1aLY REGULATED ACTUATOR WITH TANK NOTE. WHEN MULTIPLE REGULATED RELEASE ASSEMBLIES ARE =MED. A IN IN CHECK • VALVE. PART NO Oxen WILL SE REQUIRED AFTER EACH REGULATED RELEASE 2. The actuation gas line piping is Installed from the 101 remote mechanical release to each R -102 regulated actuator assem- bly. The total length of the actuation gas line from the remote mechanical release to the regulated actuator assemblies must not exceed 100 ft. (30.5 m). 3. A combined total of 20 elbows and 9 tees may be used in these lines. Two 45° elbows equal one 80 elbow. See • Figure 82. 4. Use only a 101-10 carbon dioxide cartndge in the 101 remote mechanical release. 5. A safety vent relief valve (Part No. 15677) Is required in the actuation gas One to relieve residual pressure after actuation. . Actuation Gas Une - 10 to 15 Tank' Maximum - Using 1/4 In. Stainless Steel Hose • • 15 Otnk madman reel= the ul2ra0m a13 tank regulated mums. 1. Maximum hose length cannot exceed 17 5 ft (5.3 m) 2. Maximum 015 regulated actuators allowed • 3. Actuated with remote release (Part No. 433485) or Regulated • Release Assembly (Part No. 429853) 1 I MAMMY OF FIVE AGENT TANK REGULATED ACTUATORS IN IN STAINLESS STEEL HOSE O TEES MAXIMUM MAXIMUM OF FIVE REGULATED ACTUATORS TO ELBOWS MAX MUM REMOTE RELEASE MECRANbSD (Min no 43341516 MAAMUY CHECK VALVE REMOTE RELEASE MECHANISMS : MR: NO Dash OR REGULATED RELEASE (RWr NO 430671 5 MADMUY FIGURE 82 . - . • SECTION IV - SYSTEM DESIGN SECTIONS/ - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-45 UL EX. 3470 ULC CEx747 Page 4-46 4 -1 -06 REV 3 REV.5 4-1 -06 ACTUATION AND EXPELLENT GAS UNE REQUIREMENTS DISTRIBUTION PIPING REQUIREMENTS (Continued) (Continued) 2. A combined total of nine fittings may be used In these lines. Supply and Branch Line Identification SUPPLY LINE Expellant Gee Line eight 80° elbows end one tee. TWo 45' elbows equal one 80° xpa The R -102 distribution piping network is broken down into four The Supply Line Is defined as the length of pipe whits runs from 1. The expellant gas line piping is Installed from the regulated elbow specific pipe runs: the Supply Line, the Dud Branch Line, the agent tank outlet to the last branch line (whether a dud. app'- release mechanism in double and multiple -tank systems, and 3.11 two tanks ere connected to the regulated release assembly the Plenum Branch Line, and the Appliance Branch Line. See ant*, or plenum branch line). This includes all supply line fittings from the regulated ad uator assembly in multiple -tank sys- In a multiple -tank system arrangement, the total combined • Figure 85. except for the tees or elbows leading to the branch Ines. See tams. The expellant gas line Is the piping between the repute- length of the actuation and expellant gas Ones must not DIRT • Figures 86 and 87 for and the tank-endosureltank -brae et assembly. The total exceed 30 ft. (e m) when using a'double -tank' nitrogen car- BRANCH UNE ti length of the expellant gas line from the regulated release fridge, an LT-A-101-30 nitrogen cartridge, or a 101 -30 carbon mechanism or each regulated actuator assembly must not • dioxide cartridge. See Figure 81. exceed 30 R (9 m) when using a'double-tank' cartndge, an � • LT-A-101-30 Cartridge, ore 101 -30 Cartridge See Figures 83 DISTRIBUTION PIPING REQUIREMENTS ,1.\ �� • and 84. Once the nozzle placement and quantity of tanks has been deter- '' mined, ad it is then necessary to determine h g nozzle. configurations i �E `r some. L NG Lwe between the tank limitations discharge This sBeecson -.-1.4 MAGNUM LENGTH Fr FR rB FT o'" contains the guidelines :ines and hmitabons for ar for designing the dhs[tbU- MAGNUM NO OP \ TINOB - P ton piping so that the bquid agent will discharge from the nozzles at a proper flow rate. These limitations should also be retered to l II 4 when selecting the mounting location for the regulated release i w mechanism and agent tank. PLENUM APaNCE :41 1,� BRA ]I lea BRANCH UNE General Piping Requirements s 1. All R-102 system piping is straight line. Therefore, the need for `� altical lengths and balancing is minimized. • Mors: r s A o e cruALD INS ear 2 Two 45° elbows count as one 80° elbow. nas LS eon AN ACNAL RBTAL A ma 3. Each branch line includes the tee or elbow leading to R and FlGURE o¢ ell finings within the branch bye ttsetl. slaRr USE NW RE rxo EASE 4. The minimum piping length of Schedule 40, 3/8 In. pipe from Bore' THESE Aug °hA"'PLES ONLY OTHER eaNRCURAno lu tin BE DESIGNED rii AUDIBLY 1. tank outlet to any nozzle protecting a range, fryer, or wok - •' / must be 6 ft. (1.8 m). 5. Pipe lengths are measured from center of fitting to carter of . FIGURE ftbng. See Figure 85. {.-- eEerERro CENTER ECPELLANT OAS UNE MAXIMUM LENGTH - b FT fl m1 I 1 END OF MAIGMUM NO OF FITTINGS P SURLY UNE END OF SUPPLY UNE 11 ' FIGURE 85 4 , SUPPLY LINE �� 4 4 awn , 4 t 6 All distnbution piping must be 3/8 in. Schedule 40 black iron, 4 `} - t } t \ chrome- plated, or stainless steel. Do not use hot dapped gal- vanlzed pipe on the distribution piping. • SURLY P OZZLF FOR 7. All threaded connections located in and above the protected lBle Ttf gilt. area must be sealed with pipe tape Tape should be applied to male threads only. Make certain tape does not extend over the end of the thread, as this could cause possible blockage of the agent dustdbWon li 8. Before Installing blow -on caps on nozzles, apply a small amount of Dow Coming No. 111 silicone grease across the door aiming In the nozzle by and also a small amount coating the WOOF LRE AC CT U.ATR extenor of the blow -oft cap. This will help keep 000lxng grease • ASSEMBLY FIGURE 84 from building up on the cap. 1 rib V t • • .inn • 9. Tees used In the distribution piping can be used as thru tees, / • (NOZZLES FOR • side outlet tees, or buff tees. SUPPLY / 0.EeLu UNE TEE PROTECTION) BRANCH UNE CAMIOT BRANCH CATaIOT • I START UNE P OF LaI START AHEAD OF A SU 0.Y UNE TEE PLY UNE TEE • FIGURE 87 • • SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX 3470 ULC CEx747 Page 4-47 UL EX. 3470 ULC CEx747 Page 4-48 4-1 -06 REV.4 REV.5 3-1-07 DISTRIBUTION PIPING REQUIREMENTS (Continued) DISTRIBUTION PIPING REQUIREMENTS (Continued) STAIR OF LAST Supply and Branch Une Identification (Continued) Distribution Piping Requirements -1.5 Gallon LANE PLENUM BRANCH LINE W 9 qu System START OF FIRST 1 NOTICE The Plenum Branch Une is defined as the length of pipe which DUCT, PLENUM, AND APPUANCE PROTECTION 0RANCN UNE Branch lines cannot start ahead of a supply line runs from the supply line to the plenum nozzle(s). This Includes all 1 This option allows for dud protection, plenum protection, I tee. branch line ratings ings as well as the tee or elbow used to start the appliance protection, or any combination. SUPPLY 111 DUCT BRANCH UNE • branch tine See Figures 66 and 89. 2. When using a combination of plenum and dud protection only, USE TEE TOTAL LeNOrH on one duct nozzle, either a 1 W, or a 2W, may be used usTN The Duct Branch Una Is defined as the length of pipe which rune •' ., ly Y ExcE ED a OT Fr from the supply line to the duct nozzle(s) This Includes all branch - • ••(, • • 3. All distnbution piping, supply and branch, must be 3/8 In. / (z.n) line fittings as well as the tee or elbow used to start the branch line. to Schedule 40 bladc Iron, chrome-plated, or stainless steel •Sae Figures 87 and 88. PLOWS BRAND/ UNE .,t • 4. Each 1 5 gallon tank allows a mandmum of live flow numbers.' • (TEE walu)ml • 5. The pipe length between the start of the first branch line end DUCT BRANDN UNE (ELBOW INCLUDED) --.1..... FyOGy BRANCH UNE the start of the lest branch line must not exceed S R. (2.4 m). START OF LAST ,., (TEE INCLUDED) When the supply line is spot, the combined length of both 0 START BRANCH UNE • legs of the supply line (start of first branch line to start at last BRANCH ir FIRST LINE branch One) must not exceed 8 ft. (2 4 m). See Figure 81. FIGURE 91 / DUCT BRANCH UNE •a., (TEE INCLUDED) • 6 The combined length of all branch tines must not exceed 22 ft. / �' 0 (6.7 m). See Figure 92. • 7. The requirements of the following table must not be exceeded: 'wean! ••• 8 • FIGURES • r -' DUCT BRANCH USE GEES IS \ APPUANCE BRANCH LINE ~ is NOZZLE The Appliance Branch Une Is defined as the length WPB of which 11 : - ] .. \ runs from the supply One to the appliance nozzle(s). This Induces . y= * . all bran ch line fitbrhgs as wet as the tee or elbow used to start the IP • bran One See Figures 87 and 90. y ^` N ,, , • - r . • COSMINED LENGTH MUST r (BRANDS USES W BOLD) NOT ExCEED 22 FT R T in) s� I r ,.' FIGURE 92 I i Dud Plenum Appliance Reauiremenla BURN Branch Linfl Branch Lhnfl Branch One O A Ece is E BRANCH La/E8 (TEES INCLUDED) Pipe Size 3/8 In. 9 in. 3!8 In. 3l8 In. • FIGURE 88 Maximum Length 40 ft. 6 A 4 R. 10 ft. epm (12.2 m) (1.8 m) (1.2 m) (3 m) Mawmum Rise 6 ft. 4 R 2 ft 2 R. • FIGURE 90 (1.B m) (1 2 m) (.6 m) (.6 m) WM Mawmum 90° Elbow 9 4 4 6 Mawmum Tees 1 1 2 3 Maximum Flow Numbers 5' 2 2 3 • mean.• I Ss SI and Vl b e m ill d .son a S t n M rw m a miss. I. � 1.0 Porch Ire m fro plMacs. m .n te y M.. sod ro IN miss. m l .p re Odds ▪ Sn SO Dm n. isi norms m ambers d dam. , aid .n es (0) IN IN , an reed .n of en souls sold p.c. PIdalm. MUM. and Warm.. • NOTE Only 1M (dl ff. ambers an ak I • TN N l.. ass. Y sad b.pl. Ilddd4. rail, V ......r P.a.. 7. G. (d) coo nuns. m awed u n.n only rw pl 3N rouba An unad • t_ .. a a n SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4 -49 UL EX. 3470 ULC CEx747 Page 4-50 4-1-06 REV.4 REV.4 4-1 -06 DISTRIBUTION PIPING REQUIREMENTS (Continued) DISTRIBUTION PIPING REQUIREMENTS (Continued) LENGTH OF PIPING MAST NOT EXCEED Is FT O 3 ml FROM START OF FIRST BRANCH UC1E Distribution Piping Requirements - 3.0 Gallon System Distribution Piping Requirements - 6.0 Gallon Manliolded to START OE LAST BRANCH LaE 1 The maximum length between the start d the first branch line SUPPLY \( System and the start d the last branch line must not exceed 24 ft i As an option to piping two (2) 3.0 gallon tanks separately. two (2) (7.3 m). When the supply One Is split the combined total of 3.0 gallon tanks can be manlloided together to share a common . both legs of the supply line (from the start of the first branch of the between the hart , agent distribution line. Only (2) 3.0 gallon tanks connected to the • line tote start d ra the last branch line) must not exceed 24 ft. I same regulator can be manifolded. The following requirements • (7.3 m). See Figure 93. / / / ® must be met when mandoldmg START OF LAST 2 The total length of all branch Ones must not exceed 36 R I F LEGS OFF SUPF � V 1. All piping must be 3/8 in. Schedule 40. B�M+C" USE • (10.9 m) See Figure 93. UNE MUST NOT 3 BRANCH LDInS en EXCEED 2. FT. o. Ra • 2. See Figure 95 for tank mmeclons. 3 Use a 3/8 in. union to conned 3 The length of supply the tank adaptor to the 3/8 In. line piping of first �� O supply line. line end the start o1 t line. ohe last branch line must nd 4. A maximum of two nozzles are allowed per dud branch line. • exceed 24 R. (7.3 m). See Figure 94. When the supply line Is 5 The requirements of the following table must not be exceeded' 21, NOZZLE � - IN NOZZLE split, the combined total of both legs of the supply One (from 110 the start of the last branch line to the start d the last branch r omES r" line) must not exceed 24 R (7.3 m). 4. The combined length of all branch fines must not exceed 36 ft " � 1N NOZZLE • (1 0.9 m). See Figure 94. 5. A maximum of 22 flow numbers are allowed. IN IR 6. The requirements of the following table must not be exceeded. " � E 1N NO2ZLE Zx1 NOZZLE / Y ® 1107232 1 PS NO 2 1DN Nn +am 0 IN (BRANCH usE a MD) cOMeas LENGTH MUST data NOT EXCEED 2 FT GOB NO 2 FLOW APPUANCE NOm0 ' FIGURE 93 (BIWEOH UNEB IN E MUS C a MUST 2ED LENGTH T NOT EXCEED Y FT(ta.. in ' FIGURE 94 .P,. Dud Plenum Appliance Hffi iremerd5 Buts* I mfl Branch Line Branch Line Brarx3t Line Dud Plenum Appliance Pipe Size 3/8 In. 3/8 in 3/8 in. 3/8 in Aeouiremergfl S uooN Line Drench Line Drench Ling Branch Line Maximum Length 40 ft 8 ft. 4 ft. 12 R. Pipe Size 3/8 in 3/8 In. 3/8 in. 3/8 in. (12.2 m) (2 4 m) (1.2 m) (3.7 m) Maximum Length 32 R. 8 ft 4 ft 12 It. • Maximum Rise 6 ft. 4 ft. 2 5. 2 ft (9.7 m) (2.4 m) (1.2 in) (3.7 m) (1.6 in) (1.2 m) (.6 m) (.6 in) Maximum Rise 6 ft 4 ft 2 ft 2 It Maximum 90 9 4 4 6 (1.8 m) (1.2 m) (.6 in) (.6 m) Elbows Maximum 90° 6 4 4 6 Maximum Tees 1 2 2 4 Elbows Maximum Flow 11' 4 2 4 Maximum Tees 2 2 2 4 Numbers Maximum Row 22 4 2 4 Numbers I. taelw (lit ton aortas an rimed In any yr b .a era adman V .F/ W 2 Haas f12) far rumbas am a atoned nth any GM PINY am9 ydy Wallow=Plana Taalas 1 dale (12) to 2l n rant= a amend a.N eM ms tank wag ally daelba.sMrns wale _EP.da tom. I Tada (12) toe madam an .mad ,awn by al Dee, llWam . GTI Oss Fran en sandal al as ymtlMy as Stwtm In Fg1a SO on fie U.S The bca1p MIN ma M aCbst a ngw. EP an Page 4.R 2. Fly awe MmwlC.=0 Wa. 118 doe aoaxxs are shad awn wag • annanalan CGPI (112w die n=b. ms (1) 1 .bdraWA p.mA Slaza, w (1) 1N damn mina art M. ( rowe .slab naWYa Goal And Aop4L EglwxNns Oaa.rwn in .m?JyW Mamba S. T • •. _ - SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-51 UL EX 3470 ULC CEx747 Page 4-52 4 -1 -06 REV.4 REV.3 4-1 -06 DISTRIBUTION PIPING REQUIREMENTS (Continued) DISTRIBUTION PIPING REQUIREMENTS (Continued) V� Distribution Piping Requirements - 6.0 Gallon Manitolded Distribution Piping Requirements - 6.0 Gallon System with Distribution Piping Requirements - 8.0 Gallon System System (Continued) Independent Pipe Runs This optional configuration consists only of three 3-gallon tanks, as This configuration consists of two 3 gallon tanks. Both tanks are Independent pipe runs can also be used with the regulated release pressunzed from a angle double -tank nitrogen cartridge with connected toe common manifold tee and are pressurized from a • assembly and the tank/enclosure assembly. See Figure 96. When • Inpatient gas hoses connected as shown In Figure 97. Tanks No. r=iii--\.- single double tank (Part No. 73022) nitrogen cartridge in the reg- manfol with ding is not used, each of the two (2) 3 gallon tanks utilize 1 and No. 2 must be connected directly to the regulator sap- • ulated release assembly. See Figure 85. Note A tank mounting the piping limitations of a single tank system. ante expellant gas hoses and Tank No. 3 must be connected to ad of the tank/enclosure assembly. bracket can be utilized Inste TTT((( ` • Tank No. 2 with a third expellant gas hose as shown In Figure 87. • Sea Figure 87. i n tank must connected to an mdepe pip• �t B w. r • l ll n sh efwork as shown in Figure 87. Distributiobutio pipin req n piping require• II sR`N°I x w. yaw m enu for each network must be as fellows: 6UPI4Y SUPPLY sEE 1. The maximum length between the start of the first branch lime _ • USE NOSE/ NO �• 1'� re HOSEA an the start of the last branch tine must not exceed 24 0. - f � GROMMET MEf GROMMET �« ' i • _ ' se w BRAN (7 3 m) When the soppy line is spirt, the eombined total of ye iN I NO SEE both legs of the supply line (from the start f th oe first branch en) I suP Ptr , ein 1 66 NOTE -. tine to the start of the lest branch line) must not exceed 24 0. 1 am Y� ND 1 • (7. m) See Figure 83. '.4 •=s■t r 7 ..' .1a,• 2 The total length of all branch lines must not exceed 36 A. So 35 35 ■, (10.9 m). See Figure 93. TANK LLON TANK TANK GALLON ••I r 3. Use a 3/8 In. union to connect the tank adaptor to the 3/8 In. N0 3 no a NO 1 1 supply line. n r I II 4 A mamum of two nozzles are allowed per duct branch line. �f x 5. When using this 9.0 gallon system configuration, no menF 10 SO GALLON 10 GALLON a. ' folding of distribution piping is allowed. TWO ENCLOSURE 3 GALLON OE tULATED DOU E GALLON l^ TANK TANK TANK OR OR 6. When an ANSUL AUTOMAN Regulated Release Is utilized in ADD. (INCLUDES m OR ]GALLON LTa.10110 CARTRIDGE DOUBLE TAN( ,LI GALLON 1.6 GALLON DOUBLE TANK this configuration, eddflOrBl regulator actuators cannot be HOSES MID PI REGULATED (REGULATED ACTUATOR NITROGEN TANK TANK NITROGEN this OR used. B B re U ORDIAIETa1 ACTUATOR ASSEMBLY C•11.) CARTRIDGE OR (1.T A.101•30 , a , a0 Lm NOTE. IF TWO TANK ENCLOSURE As6EMBLY. PAIR NO em., . IS CONNECTED TR CARIDGE - / 1 V DARTRICGE 7 Only 3 gallon tanks can be utilized in ties configuration. TO THE x GALLON REoUIATEO RELEASE ASSEMBLY. NO AOOmonAL 30 GALLON REGULATED RELEASE AuMOR ONLY) LATED I REGULATED RELEASE AasE,.e OR aT 0 M mrecoe - 8 The requirements of the following table must not be exceeded . REGULATED ACTUATOR(S) As6EMBUES CAN BE USED ASSEMBLY OR 10 GALLON REGULATED REGULATED ACTUA ASSEMBLY REGBATED FIGURE 97 ACTUATOR ASSEMBLY TANK/ENCLOSURE ACTUATOR ONLY) for each 3 gallon tank ®„ A66EMIBLY Duct Plenum Appliance TANKlENCLDSURE FIGURE �lBeauiremeflutM = Big ASSEMBLY giiDON Line BrenpLln Drench Line Branch Line Pipe Size 3/8 In. 3/8 In. 3/81n 3/8 in. NOTE L. THE PIPE cONNECt10N FROM TANK CENTER TO TANK CENTER CANNOT EXCEED MI /2 iN pi soal ALSO. Maximum Length 40 ft. 8 R 4 ft 12 ft. OEM RELEASERRACKET ASSEMBLY CAN BE u'nuZED WHEN MUNFOLDING SO GALLON TANK (12.2 m) (2.4 in) (1.2 m) (3.7 m) Nore a oars GALLON TANKS GAr, BE WNEOLDm Maximum Rua 6 R. 4 ft. 2 ft. 2 R. (1.8 in) (1.2 m) (.6 m) (.6 m) • FIGURE � Maximum BO' 9 4 4 6 Elbows Maximum Tees 1 2 2 4 Maximum Row 11' 4 2 4 Numbers . EaNFUmes. • I Tm• (1S) IMP nunp.n M. Wend in any am tat s AM pYm• n 0.1•11c• ONLY .MT 2 TAW (12) =Kam w Ab.. MN sa d .y an. tusk 15410KNY w reowe AM S. tY IPd) Abe nmb AW W . AN m m An 1111 any am Rum y w erwlk. A.n• neat. SOARIAI MMALAti n.. I WM 5, (A) DPI Smoak. OT Ga. Py.n an pw0.5 M Ms prtur Oyu Mown • Feum o an Nee' -2. y aktlimw ebbn mug b as Ywn • P5w. uS on Pep. A-op S Fly par MmELLMA •0011“6.6114 S0. rot.. m (load slap • meaYWb 0 eV CH MN es. Raab. a• 1G 1r1N Meap.Mo p1..{aOm KamLL am (1) I N Pawn ram And b. (A) %RAP. Mob.= nazh.. cane. An.. ARR tip. EnOSrmp OMwms. re addTaAnal 4bm.1p1. f SECTION IV — SYSTEM DESIGN SECTION IV — SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-53 UL EX 3470 ULC CEx747 Page 4-54 . 4-1 436 REV.3 REV 4 3-1-07 DETECTION SYSTEM REQUIREMENTS Detector Replacement Requirements (Continued) • Once the fire suppression system design has been determined, a Detector Placement Requirements COOKING APPUANCES detector system design must be completed Ths section con181na guidelines and limitations for detection system installation. EXHAUST DUCTS if the cooking appliance detector has be en ou is located It Is normally under ant necessary s a ry to where a / Each exhaust duct must have at least one detector Installed in the been mounted, It rtnnormally not ecesry utilize Detector Identification duct entrance, located in the airstream of the cooking vapors, or at another detector for that cooking appliance, provided the detector % The two types of detectors are distinguished from each other by • a maximum o120 R. (6.1 m) into the duct opening. See Figure 98. • is not more than 12 In. (30 an) into the duct. See Figure 100. c their location in the detection system. o I 1. The Terminal Detector (Part No. 56838, 15375, or 417368) is I I c the last Inc Gana of detectors, or the only detector used In a _ single-detector system. This detector is thus named because _ _ single-detector 't: _: ! . - p _ — R is at the point at which the wire rope ends, or 'terminates' 2. A Sines Detector (Part No. 56837, 15373, or 417369) Is any 1 0 0 detector loafed in-line between the regula'ad release mach ansm and the terminal detector. FT (INN I Detector/Pulley Elbow Quantity . The style detectors in the system wit vary depending I I \ on the a stylry of e o1 detector used. ed. \ \\..// i 1. Conduit runs, pulley elbows, and number of detectors per eys- nE BE COV BY QED BY REOU NDE NES tern must be within the approved syst gui T lot- ■' .sigAip', '∎ SEPARATE DtTECRIN DS Is, iuR SEPARATE FIGURE 101 lowing requirements must not be exceeded. DETECTOR UNDER DUCT UNDER DUCT DETECTOR Maximum Maximum Maximum _____________ Fusible Unk Selection Number of Number of Length of 12 FIGURE M FIGURE 100 When possible, temperature readings should be taken at each Detectors Elbows m. Conduit ex? ® detector location to determine correct fusible link temperature rat - m.. am oar Sysem Der System NOTICE Ing. Temperature can be recorded using either a maximum regls- Clip on Style 12 18 125 ft. (38.1 m) When gas appliances are used and the flue Each cooking appliance with a continuous 000tdng surface not tenng thermometer, Part No. 15240, temperature tape or any other Detector gases from the burner are exhausted into the exceeding 48 in x 48 in. (122 x 122 an) can be protected by a accurate thermometer. Fbnge Style 5 8 1031E (31.3 m) duct, co the detector must be kept out of the air minimum of one detector. Cooking appliances with a continuous Detector stream of these exhaust gases These gases • cooking surface exceeding 48 hi. x 48 in. must be protected by at can be very hot end could actuate the system least one detector per 48 In. x 48 In. cooking area Detectors /��'1 �l ca Scissors Style 15 20 150 ft (45 7 m) unnecessaziy, used for cooking appliances must be located above the protected l..,%.,../) Detector appliance toward the exhaust duct side of the appliance. The 2. If hinge style detectors are mixed m e system with either dip- Duct openings that are long and narrow or large detector should be located In the air stream of the appliance to 9 D enough to require multiple duct nozzles may enhance system response time. �: TEMPERATURE Runes on or scissor style, 4 series and 1 terminal is the maximum require additional detectors. ` STAMPED aR RISIBLE number allowed. If dlpon style are mixed with sassor style, Note: For overlapping detector coverage, see Page 4-42 for r uRi BOOT ELECTROSTATIC PRECIPITATOR _ ^ the maximum allowed Is 11 series and 1 terminal. design requirements. NOTICE 11 an electrostatic precipitator is located at or near the base of the When usi the 'di exhaust duct, it Is necessary to locate a detector below the pre- Detection Line Requirements ng yo style detector, the ter• dpitator, at the base of the duct, and also locate one in the duct, mat detector may u use the 'hinged' style C.ONDUR x STYLE WO 70 n STYE �* mounting bracket with the 'dip-on" style linkage. • lust above the precipitator See Figure 99. LW .F (210 'c) ONLY This Ls only allowed with the terminal detector. When Install the detector bracket and Standard d steel conduit n inch EMT uit fittings (compression type may be used. n9 system conduit, make sted type are recommend- No other linkages are allowed to be mixed certain they do not interfere with the operation of the precipitator. ad) must be employed to properly install the detection system. All FIGURE 102 with other brackets. When using this option, Note: On secondary filtration units utilizing multiple fitter conduit or pipe must be firmly supported. When using pipe, make Select correct UL Listed fusible link(s) for installation in detector(s) the total number of 'clip -on style detectors (11 stages/media, contact Annul Technical Serwees for instructions. certain that all ends are caret* reamed, deburrsd and blown according to the temperature condition. No styles are available. series and 1 terminal) Is sill allowed dear of clips end scale before assembly. See 3 If hinge style detectors are mixed in a system with either dip- NOTICE pure 102. See Component Section for detailed temperature or sassor style, the maximum length of woe rope must not r The conduit offset tan be used at the top or bot- exceed 103 ft. (31.4 m) and the maximum number of pulley tom of the ulle elbows must not exceed 8 II dip-on style are mixed with sits- regulated release to change l dip-on sor style, with le, the maximum length of wire rope must not exceed d the conduit. Th de The All chant cannot ■ 125 ft. (3.81 m) and the maximum number of by other changes ea I n di re be P Y elbows t Con must be be m maade b by usinng ANSUL apprr oved d must not exceed 18. pulley elbows, Part No. 423254 or 415670. See 4 11 the hazard requires more than 15 detectors, up to five 101 ' Figure 101. • Remote Releases (Part No. 32381) can be used for system actuation Each 101 remote release allows the use of a maxi- ((�� mum of 15 "scissor' style detectors (14 senes and 1 terminal) \ for a total of 75 detectors If needed. I FIGURE 99 SECTION IV — SYSTEM DESIGN SECTION IV — SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-55 UL EX. 3470 ULC CEx747 Page 4-56 4-1 .06 REV 3 REV 3 4-1 -06 MANUAL PULL STATION REQUIREMENTS Metal Stamped Style — Part No. 4835 or 54011 MECHANICAL GAS VALVE REQUIREMENTS (Continued) Parts that may be used for installation of a 110 VAC Gas Shut-off A remote manual pull station allows the R -102 system to be man- Parts that may be used for Installation of a metal stamped remote MI valves above are UL fisted and approved. They may be mount- Wlve are ually operated at some point distant from the regulated release manual pul station are: ed in any position. Pipe threads are type NPT. Ambient operating Desaiotion Pert No. • assembly. The pull station should be Installed at a height of 42.48 Dgmtigggg Pert No, temperature range of al valves Is 32 °F to 120 °F (0 °C to 49 ° C). Electric Solenoid Valve, 3/4 in. NPT' 13707 I in. (107 -122 an), in accordance with the requirements of the Remote Manual Pull Station Assembly' 54011 The valves are not weatherproof and must be located Indoors In Electne Solenoid Valve, 1 In. NM" 13708 Amencan Disabilities Ad (ADA) and the Authority having Jurisdic- Remote Manual Pull Station Assembly 4835 areas approved by the 'authority having junsdiction.' Eleanc Solenoid Valve, 1 1/2 in. NPT' 13709 . ten. and located In the path of egress. The pull station is the only Pulley Elbow 423250 Electric Solenoid Valve, 2 in. NPT 13710 source of manual actuation of the regulated release assembly Pulley Elbow 415670 ELECTRICAL OAS VALVE REQUIREMENTS Electric Solenoid Valve, 3 in. NPT' 17643 The total length of the cable used for each manual put station Pulley Tee 427929 A UL Usted electrically-operated gas shut -off valve can be Manual Reset Relay (110 VAC) 14702 within a system must not exceed 150 ft. (46 m). •v,. '+ W„am Pw Wed Wkw attached to the R -102 system to provide an electncal means of WAN a men./ mmn d..,ws.d The maximum number of pulley elbows that may be used per pull 1/16 In. Stainless Steel Cable 50 ft (15 m) 15821 shutting off the gas line ata predetermined point If an electric gas station Is 20. Oval Presa-To -Cnmp Sleeves 4596 shut-off valve is used in the system it must be attached with both ALARM INTATING SWITCH REQUIREMENTS One pulley tee, Pen No. 427828, is allowed per system. Glass Break Rod (1) 4834 an electric (snap-action) switch and a manual reset relay. For The Alarm Initiating Switch can be field mounted within the ANSUL more Information on the types of electric (snap- action) switches, AUTOMAN release. The switch must be used to dose a super - The maximum length of cable from the AUTOMAN to a pull station MECHANICAL GAS VALVE REQUIREMENTS refer to the Electrical Switch, Field Installation section. The menu- • vied alarm drart to the building main fire alarm panel when the is 150 f . (45.7 m) with a matdmum of 20 pulley elbows used per An ANSUL or ANSUL approved mechanical gas shut -off valve sys- al reset relay is reviewed in this section. ANSUL AUTOMAN release actuates. This action will signal the fire side of the tee. As the tee Is located farther from the AUTOMAN, tam can be attached to the R -102 system. The system works both All electrical connections should be performed by a QUAUFIED alarm panel that there was a system actuation In the kitchen area. the 150 ft. (45.7 m) max must be observed but as pulley mechanically and pneumatically by use of an air cylinder located ELECTRICIAN and in accordance with authonty having The switch kit contains all necessary mounting components along elbows are placed between the AUTOMAN and the tee, they must Inside the regulated release assembly. Upon actuation of the fire junsdretion. • with a mounting Instruction sheet See Page 5-25 for wiring inter - be deducted from the available pulley elbows (20) allowed on each suppression system, a pneumatically-operated air cylinder assem- • million. side. bly wit mechanically dose the gas shutoff valve. The following Is a brief explanation of how the R -102 system oper- Example: II 10 pulley elbows are placed between the AUTOMAN The total length of the cable for each mechanical gas valve mu end with an Electric Gas Shut-off Valve attached: The switch is rated 50 mA, 28VDC. end the pulley tee, the maximum available pulley elbows left for not exceed 150 f. (46 m) The maximum number of pulley elbows With the regulated release codced In the ready condition, the nor - Pem No. Desenouon • use on each side of the tee is 10 per side. See Figure 103 for three that may be used Is 20 for each valve. malty dosed contacts in the snap -action switch allow current to 428311 Alarm Initiating Switch Kit es. (Note: Both must be as valves or both must tow to the manual reset relay. With the relay coil energized, nor - different examples. 9 One pulley tee (Part No. 427929) is allowed per system. malty open contacts In the reset relay dose, allowing the solenoid ELECTRICAL SWITCH REQUIREMENTS be put stations. Mixing is not allowed.) The maximum length of cable from the AUTOMAN to a gas valve is in the gas valve to be energized. TEE CLOSE To AUTOMAN (ExAMPLO 150 ft. (45.7 m) with a maximum of 20 pulley elbows used per ode The electric (snap-action) swedes for the R -102 system are spe- PULLEY WEE of the tee. As the tee is located farther from the AUTOMAN, the Once the R -102 system Is activated, the normally dosed salte= daily designed to fit the regulated release assembly. The switches 150ft (45 7 m) maximum be b must b observed but as pulley elbows in the snap -action switch will open, de-energizing the reset relay are intended for use wwith rm electric gas valves, alas, contactors, 12 IN are placed between the mst e AUTOMAN and the tee, they must be This will, in turn, open the contacts In the relay which will cause the fights, contractor supplied electric power shut-off devices, and deducted from the available pulley elbows (20) allowed on each gas valve to become de-energized and dose. other electrical devices that are designed to shut off or turn on side. The system must be re -armed and the 'push to reset' button on when the fire suppression system is actuated. (See Figures Example: If 10 pulley elbows are placed between the AUTOMAN the reset relay must be operated to reopen the gas valve. • 104 through 106 for reference ) AUTOMAN and the pulley tee, the maximum available pulley elbows left for It is Important to note that a power failure or an electrical power Contractors shall supply 1.1L listed, endosed Industrial control GAS VALVE OR GAS VALVE OR • use on each side of the tea is 10 per side. See Figure 103 for three arterruption will cause the gas valve to dose even though the sys- equipment or magnetic switch having a rating matching that of the • MANUAL PULL MANUAL PULL different examples. tern was not fired. cooking appliance, coil 110 VAC/60 Hz or 24 VAC/60 Hz.' ms Fr ire' m) AND 20 PULLEY ELBOWS ROAMS. MI electrical connections should be performed by nOrrtlBd b a QUALIFIED PER EAa that WOE OF WEE Parts at may be used for installation of a Mechanical Gas Shut- In either case, whether in a fired condition or when a power failure TEE apse TO ass VALVES OR wNiu PUUtehuAMPLq off Valve are: has occurred, the manual reset relay and electric gas shut-off ELECTRICIAN and In accordance with authority having Desaimion Ped No. valve must be reset to resume a normal operating condition. For jurisdiction. 12 AN 12 IN Gas Valve/Actuator 3/4 in. Assembly (ANSUL)' 55598 resetting, refer to the "Recharge and Resetting Procedures" Electne (Snap-Action) Switches that may be field installed are: (xs nr) ore nrI Gas Valve/Aauator 1 in. Assembly (ANSUL)' 55601 section In this manual. PULLEY TEE Gas Valve/Actuator 1 1/4 in. Assembly (ANSUL)' 55604 Approvals 42 Pe 3 8 76 . One Switch Kt Valve/Actuator 1 12 in. Assembly (ANSUL)' 55607 GM VALVE OR GAB VALVE aA 423879 Two Switch Kit MANUAL PULL guy Gee Valve/Actuator 2 In. Assembly (ANSUL)' 55610 ANSUL gas valves listed in this section are UL listed and approved 423880 Three Switch Kit AUTOMATA Gas Valve/Actuator 2 12 In. Assembly (ASCO)' 25937 for 110 VAC. If more Information Is required, refer to the Gas and 423881 Four Switch Kit 1.P FT (.s. m) AND 20 puLEY ELBOWS BETWEEN Gas Valve/Actuator 3 in. Assembly (ASCO)' 25938 Oct Equipment List of Underwriters Laboratories, Inc. under AurosAN AND TEE Pulley Elbow 423250 'Electrically Operated Valves Guide No. 440 AS" or consult Ansul Each switch has a set of single -pole, double throw contacts rated Pulley Elbow 415670 Incorporated, Marinette, Wisconsin 54143.2542. at 21 amp, 1 HP, 125, 250, 277 VAC or 2 HP, 250, 277 VAC. WE eal,waY errwEEN AUTOMAN AND GAS VALVES DR MANUAL MALL (EXAMPLE) Pulley Tee 427929 If other gas valves are used, they shat be 'UL listed electrically- Note: A relay must be supplied by others If the equipment load rs Pr m S m) Arm 10 PULLEY ELBOWS 1/16 In. Stainless Steel Cable 15821 or operated safety valves for natural or LP gas as required, of appro- exceeds the rated capacity of the switch. 50 ft. (15 m) or 500 0. (152 m) roll 79653 pnate pressure and temperature rating, 110 VAC/60 Hz.' The Oval Press-To -Crimp Sleeve 4598 with NFPA 7O winng (National equipment shall be Installed r ed Ie ants of t he In 7S FT. IS2.2 PO AND 75 FT =S ma AND Stop Sleeve (2) 26317 suitable for may be found in Information on temperature and type of gas that the valves are auto hor NFPA 70 (National Eleancal Code) or the requirements of the ro PULLEY ELBOWS 10 PULLEY ELBOWS wasWN a,,, 01•0 plow Underwriters the Gas and l e Equipment Ust of autity having jurisdiction. TEE Air Cylinder Assembly 5733 No. Inc. under 'Electncally Operated If a fire alarm system is provided, the fire extinguishing system ty Valves Guide No. 640 AS' P B B Y AuroMAn Air Cylinder 15521 shat be connected to the alarm system In accordance with the OAS VALVE OR GAS VALVE OR Tubing Assembly 15529 The electrically operated gas valve must be of the type that needs requirements of NFPA 72, National Fire Alarm Code, so that the MANW' Pei MANUAL PULL Copper Tubing, 1/8 In. 15525 to be energized to remain open. actuation of the extinguishing system will sound the fire alarm as • FIGURE 109 Male Elbow 15523 well as provide the extinguishing function of the system a.v Male Connector 15522 It supervision of the electrical detection, electrical actuation or Machine Screw (2) 15421 electrical power supply circuit Is provided, it shall give prompt audi- Hex Nut (2) 15527 ble or visual indication of trouble and shall be distinctive from Loekwasher (2) 4141 Visual Inspection Seal (2) 197 alarms or Iore indicating operation or hazardous conditions as speared in in NFPA 17A. • .. a,.. o • .r SECTION IV - SYSTEM DESIGN SECTION IV - SYSTEM DESIGN UL EX. 3470 ULC CEx747 Page 4-57 UL EX. 3470 ULC CEx747 Page 4-56 4-1 -06 REV.1 REV.1 4-1-06 ELECTRICAL SWITCH REQUIREMENTS (Continued) ELECTRICAL SWITCH REQUIREMENTS (Continued) EleetlIe (110 VAC/60 Hz) Gas Shut -off Valve Eleetrlc (110 VAC /60 Hz) Application with Customer Supplied Contactor and Heating Element Load INSTALLATION OVERVIEW INSTALLATION OVERVIEW POWER 0 MANUAL Refer POWER 0 MANUAL RESET SOURCE I 0 RELAY SOURCE I = RELAY E LECTRIC ' 1 ELECTRIIC I eNAP- ACTIOR "��I∎ _l E�cTR VALVE ���,I cwrAnOn `/ ` (CUSTOMER SLPPUEOI ii...11 / _1 �1� (NOT BOX JUNCTION BONES MOT 6U® BY MOULT 1 (NOT SUPPLIED BY ANBUL) �- POWER ON-OFF (a1BT011ER GUPPUE) CMS WIRING SCHEMATIC WIRING SCHEMATIC WIRING SCHEMATIC- RELAY PART NO. 426151 BLACK WIRING SCHEMATIC - RELAY PART NO. 426151 _ _ Rm BUIX ANSUL SNAP.ACTION SWITCH -BROWN ANSUL D AP•ACTO N SWITO4 (SWITCH CONTACTS SHOWN WTM ANSUL (SWITCH CONTACTS SHOWN WITH ANSUL - -- Rm AUTOMAN IN THE COOLED POBmDN) AUTOMAT. a THE COCKED POSm014 - BROWN r - -- r - - -- I RESET POWER I RESET POWER O INDI D I e o A, r NANA5 A,B svcU 5 r O 11100,11 L1 HOT NEUTRAL 10 VAG®Q ��' ..�'�� 11 NEUTRAL L1 NOT NO VACA100 • P 5 4 . 3 Fri S i CONTACTOR (QJSTp1ER SUPPLED) I f 1 . 1 MANUAL RESET RELAY I I 1 T - - 1 POWER ON -0FF SWITCH 1 (PART NO 4251511 IMMOL ES RELAY ; ; I i i (CUSTOMER SUPPLIED) RATING ELECTRIC ARp 20 VAC TO NEATM SUNNY O 0 . TO POWER SU IO HP, l0A1rp 121VAC OAa VALVE 10 HP, 10 Am ... ELEMENT LOAD L- T 22120440V 1D RR 10 Pap 240 VAC SEE NOTE] my 17 ANO.25 VOC mNe ROTE: IS Apo. 29 VDC NOM OTES FIELD MSTAMATION DEN M NORMAL I O 40TE FATOD . 7 S O O JD TR CONTROL 104 r DENOTES ELECTRICALLY-OPERATED E Y I STALLATI AN l TOF ED ENCLOSED Rm UOUBTRML GOHTR EQUIPMENT OR MAGNETIC SWATCH HAVING A RATING MATCI0 AIL 3 GAS VALVES RT SAFETY M VALVE FOR U0 OR NEEDED NEEDED LP GAB AB NEEDED OF APPROPRIATE PRESSURE Al10 TEMPERATURE RATING, THA DIE D THAT OF THE Oo IS. USTED WIRE ON COIL 110 WI DOVTO NE OR AMA. EC VALVE$PARTSWI 1 NUMBERS 1J NORIJALI INSTALLATION TIO MACH N. AND 1 MACH • DO NOT USE O KE U N S 6rATCH NORMAL NOAL INSTALLATION ON BLACK WIRE TO BE USED ONLY • DO NOT USE SLACK A. W G WIRE 6P EWR01 NSTALLATION CK WIRE TD BE USED ONLY FIGURE 105 FOR E]nTW/EOUS LA WI APP E AlA1W, GM CIRCUITS. ETC ' FOR EIRNE U OUB AIATOt U M GNT COWTTS, ETC e .9 1 . IV T - .. SECTION IV - SYSTEM DESIGN SECTION V - INSTALLATION INSTRUCTIONS UL EX. 3470 ULC CEx747 Page 4-59 UL EX. 3470 ULC CEx747 Page 5-24 4-1 -06 REV.1 REV.4 3-1-04 ELECTRICAL SWITCH REQUIREMENTS (Continued) INSTAWNO ELECTRICAL SWITCHES Electric (110 VAC/60 Hz) Application with Customer Supplied Contactor and Heating Element Load, and Power Supply Switch The procedure for Said installing an electric (snap - action) switch is b. With the ANSUL AUTOMAN in the fired portion, press the INSTALLATION OVERVIEW as follows: lever of each switch up, there should be no audible dick. ,ER O When installing multiple switches, make certain all switch - SOURCE 0 MANUAL RESET I CAUTION ea transfer when the release operates If they dB not reed - RELAY Unused wire leads will adequately c 'hot when the system Is spar- lust their r whe n. j 1 sled. Failure to adequately cover exposed wire end(s) will c. If an audible dirk Is heard In the fired position several LE ECTRIC I cause electric shock if touched. adjustments can be made. The trip lever extension pin can XCTON SWITCH OR be rotat so the peak of one of the her points is pointed ■ 7 16 � (CUSTOMER SUPPSUPPLIED) 1. Make certain that regulated release assembly endosure cover up against the switch levers. Tighten it in that position. If this I, 1 I� doesn't resolve the problem, loosen the sews holding the f_ Is detached with lode bar properly inserted within the regulat- ed release mechanism. switches, pply a smell erws n torque on the JUNCTION BOX switches and retighten the e screws. necessary, a cessary, a final (NOT SUPPLIED BY ANSUL) _I, Failure to fellow these adjustment can be made removing If II ving the snap action ese instructions instructions may lead to switch trh and aril bending the lever r slightly slightly CONTACTOR system actuation. (CUSTOMER BUPPUED) d. After adiustrnenta repeat steps a and b. Then, recoil's 1 im 2. Verify that cartridge has been removed from regulated release ANSUL AUTOMAN and Install lock bar. assembly and that the regulated release mechanism is in the ACTUATING ARM rat+ cocked mechanism d position. If regulated release meanism does not WIRING SCHEMATIC have lock bar inserted or cartridge removed, refer to the 'Semi - Annual Maintenance,' Page 8.1, in 'Maintenance Examination' section, end complete Steps 2 and 3 before/LiW---.'•-•---- completing the following Installation steps. II regulated release mechanism has a factory Installed sole- noid, It will also have a factory installed switch. kilifli I,__ 3. Press each wire assembly onto the 3- terminals located on the switch(s). Be sure that the connector Is pressed fight against N LEVER ET N p o TRIP mw the switch. See Figure 66. BLACK SNAP. ACTION swTC11 i^, RED ~ _ COMMON — RED F; P M MITI II WIRING SCHEMATIC - RELAY PART NO. 426151 - O NO. BRDWN eLAck ' NO -.---.3 BROWN I a r -- eLALx O -- TRIP LEVER RED PRESS CONNECTOR E1nENSICN SRO 3 ANSUL SNAP.ACrON SNITCH BROWN TIGHTLY AGAINST SWITCH (sarlCN CONTACTS SHOWN WITH ANSUL LL - AUTOMAN Pi THE COCKED POSmoM ACTUATING NOTE SYWrO1 SHOYN PRIMAL AL POSMON FIGURE 67 ARM • 7. The switch may now be connected to compatible components r _ - - -- _ _ - I FIGURE 66 I that are predetermined to shut off or turn on. Refer to cameo- RESET POWER 1 I nerd manufacturer's instructions for proper wring connections • j 4. I switch(es) to the mounting bradret using provided las- to compatible components. ONn h tenors and tighten securely Iii r I • 8 Tape o place a wire nut on any unused wore leads m accor- A, 5 emus 5 5. If more than one Switch is being installed, h is necessary to T . � t ��� U NEUTRAL dance worth authority having junsdlcbon. ,,o vACaoa at tach the trip lever extension stud to the trip lever. See Figure LI MOT 67. Using t h e provided fasteners, securely Install the extension tenon NOTICE e . stud. Do not connect power source to any relay, corn- 6. Raise switch actuating arm rector, or contractor supplied devices until all s 6 g squarely over the cam surface of other electrical connections are made. Refer to • " the trip lever. This wail allow the trip lever, when actuated, to proper section or manufacturer supplied Matrix- I ham_ CONTACTOR force the actuating arm UFr thus reversing the normal condr Sons for recommended installation procedures ws I SWITCH OR THERMOSTAT (roMER SUPPLIE0) bon of the switch See Figure 67. for these devices. MANUAL RESET RELAY i (CUSTOMER SUPPLIED) r For multiple switch installations, make certain switch actuating , (PART NO. 223151) i L-" J I 9. Turn off power source and connect power line to any relay, J arms are positioned an trip lever extension stud. I i contactor, or contractor supplied devices where used ELECTRIC RATING I n m I I Before proceeding with Step 7, test electric (snap ' MP. 10 Ano, 1 VAC . Z an swltf�' IBS HP, ro. 2Kp TO HEATING TO POWER SUPPLY cs ELEMOrr LOAD rmw.ogV a. Remove lock bar. With the ANSUL AUTOMAN in the m., cocked or ready portion, press the lever of each switch up. NOM II the switch is worleng properly there should be an audible DENOTES FIELD INSTALLATION dick. 2 DENOTES FACTORY INSTALLATION. 3 CONTRACTORS: IL LISTED ENCLOSED INDUSTRIAL CONTROL EQUIPMENT OR MAGNETIC SWITCH HAVING A RATING NAMING THAT OF THE COOKING APPLIANCE COIL „OVenvr A DO NOT USE BUCK WIRE ON SNAP -ACnoN SWITCH W NORMAL INSTALLATION BLACK WIRE TO BE USED ONLY FIGURE 106 FOR EXTRANEOUS ALARM. LIGHT CRCUna. ETC • SECTION V - INSTALLATION INSTRUCTIONS SECTION V - INSTALLATION INSTRUCTIONS UL EX. 3470 ULC CEx747 Page 5-25 UL EX. 3470 ULC CEx747 Page 5-26 4-1-06 REV. 5 REV 4 3-1-04 INSTALLING ALARM INRIATING SWITCH ENO -0PimE RESISTOR WIRING 24 VDC REGULATED RELEASE ASSEMBLY The Alarm Initiating Switch Kit, Part Na 426311, consists of FIRE ALARM OR NEXT DEV•.CE (ULC APPROVED ONLY) • Alarm Initiating Switch Assembly - Rated 50 mA 28VDC CONTROL PANEL Refer to the following notes and winng diagram for instruction on • Spacer wiring the 24 VDC regulated release assembly. 1 Notes • Mounting Screw with Nut (2) • Extension Pin ALARM 1 To be GOnnected to a nominal 12 VDC or 24 VDC releasing or- CIRCUIT curt • Extension Pin Nut Input power 450 mA at 12 VDC or 750 mA at 24 VDC. • Instruction Sheet - - -- ....., Solenoid on time: Approwmately 50 milliseconds. ALARM The Alarm Initiating Switch Is mounted In the ANSUL AUTOMAN INTIATWO 2. Polarization: Observe polanty when connected to a release SWITCH Release on the same mounting plate where the current snap- circuit, Terminal 4positwe , Terminal negative. action switches are mounted. If the alarm Initiating switch is used 3. All interconnecting wiring must be 16 AWG minimum. alone, the enclosed extension pin and pin nut are not needed 4. Si contact rating: 15A, 1/3 HP, 125 or 250 VAC resistive, 1/2A When mounting the switch, the spacer must be installed first, 125 VDC; 1/4A, 250 VDC; 5A, 120 VAC inductive. between the ANSUL AUTOMAN mounting plate (or existing 5. SOL coil resistance' 28 OHMS +F 10% at 77 •F (25 'C). switches) and the alarm initiating switch. • See NFPA 72, National Fire Alarm Cade; Inibetin Devices 6. Install the in -line supervisory device SD across terminals Na 0 4 and No 5. Refer to the releasing panel installation Instruc- section, for the correct method of wiring connection to the fire 4 /[74 bons for supervisory device requirements. If an in-line super - alarm panel — visory device is not required, install Jumper J2 across terminals After the switch Is property mounted, follow the steps listed In the Na 4 and No. 5. installation section of the Design, Installation, Recharge, and Maintenance Manual for correct positioning of the switch lever on *CORRECT THESE SWITCH CONTACTS TRANSFER UPON A the ANSUL AUTOMAN cam surface. the of RELEASE BRACER WHEN SPACER AND 10E. _ J TOWARD WHEN NO OHS CE moron ARE PROPERLY AUTOMAN r/ MOUNTED, CANCER I rata HE D, O EN RT \ N O AND N C. TERNSiAl6 mo ACCESSORY . O +� ) / I 1 POWER / SOURCE 0 I COO IN OUT OUT IN 0. I / - .. N O COME= - SEFaRRE INCOMING A O UTGOING CONDUCTORS IC ..........• 4/ . FIGURE 68 Low ETA EH © n ' 3r ^', . -\ SUPERVISED D N C UL USTED (�) OR - ®X 0 S S ) UPERVISED NC I RELEASING O COMM I -I of INITIATING 0 JT W{YNE • SWITCH SUPERVISORY FIGURE E 1 VOLTAOE J ' TRANSIENT ) SUPPRESSOR L _ —_ — — — J • ALHOLM V ALARMING DEVICES. SEE 8, RATINGS - FUEL SHUT-OFF VALVE BLOWER MOTOR DOOR CLOSER ETC. SEES, RATINGS. ' FIGURE 70 S • t • SECTION VI — TESTING AND PLACING IN SERVICE SECTION VI — TESTING AND PLACING IN SERVICE UL EX. 3470 ULC CEx747 Page 6-1 UL EX. 3470 ULC CEx747 Page 6-2 3-1-04 REV. 2 REV 2 3-1-04 After the system has been completely installed, and BEFORE 6. Check burners for gaseous odor. IF GASEOUS ODOR TESTING ELECTRICAL OAS VALVES TESTING ELECTRIC SWITCH INSTALLING THE CARTRIDGE, the system must be tested at the EXISTS, MANUALLY PUSH THE AIR CYLINDER ROD TO To test each Electric Gas Shut-oft Valve complete the following The procedure for testing a field Installed Electric (Snap - Action) regulated release assemby THE FULL "DOWN" POSRION IMMEDIATELY. This will steps: Switch is as follows. cause the mechanical gas value to shut the gas line aft. TESTING MANUAL PULL STATION 1. • Open any doors and /or windows to clear the area of gaseous //\ ' CAUTION If en electrical gas shut-off valve is attached to NOTICE each To test ea remote manual pull station, complete the following fumes, then correct the gas leak before proceeding any system, perform proper test procedure for the steps. further - To reduce the risk of explosion due to leaking gas, before gas valve first, before completing the following 1. With the expellant gas cartridge removed, remove lock bar 7. If no gaseous odor exists, pilot light may be ignited at this time. the gas line is turned on, make certain to extinguish any steps from regulated release assembly cable lever. open flames enc turn off ell burners and cry electrical or 8. Reinstall side covers to gas valve housing. Make certain roll 1. Turn power source on and If installed, depress reset button on 2, On metal stamped mechanical devices that are capable of igniting gas. ped pull station, remove glass break rod from pin is poskboned within both sides of the valve housing Not. manual reset relay (RED LIGHT ON). All electrical devices pull station by removing set strew on side of stud and slide Connect visual inspection seals (Part No.197) on ANSUL type Turn gas fine on should be operating at this time. glass break rod out On molded plastic pull station, seal will be valves. See Figure 1. broken dunng test and must be replaced 2. Make certain electric (snap - action) switch is property wired 2. Remove fork bar. 3. Pull ring handle on pull station. If the regulated release assem- 4 3 Make certain all other devices connected to the manual reset Q CAUTION Idly is tipped easily, the remote manual pull station is properly I relay are properly wired. Refer to typical wiring diagrams In instated. Figures 106, 107, and 108 In 'Design' section. Do not Install cartridge at this time or system may be If the regulated release assembly does not trip, remove pulley '•/. - 4 Test for gas leeks by painting connections with a soap soli- actuated. tee Of provided) and each pulley elbow cover to make certain - tion. Bubbles indicate a gas leak. Tighten connections where wire rope is resting on the pulley sheave. If this does not car- leaks appear. Repeat test again to make certain no other gas 3. Manually actuate the system by operating the remote pull sta- red the problem, there is too much slack In the line and It must leeks exist lion. It may be necessary to remove the glass break rod prior be retightened. I 5. If no gas leaks we found, turn power source on and depress to operating pull station. (If Installed, the manual reset relay 4. Cut off any excess wire rope 3/4 in. (2 an) above oval sleeve. wv�u wsrEGOON the reset button on the manual reset relay (RED LIGHT ON) will do-energize the r gas valve, thus shutting Off the get cocking lever (Part Off or turn on should do so. If this does not occur, turn power SEAL NO OM to energize (OPEN) electric gas valve. Inc.) All electrically-operated -oopeperet ad devices predetermined to shut 5. Resod( regulated release assembly using co No. 14995) and reinstall lock bar (Part N0. 14985) \ 6. Remove lock bar from regulated r elease m echanism. source off and make sure all wrong Is properly connected and 6. On metal stamped pull station, slide glass break rod through J retest. Refer to Figures 106, 107, and 108 in 'Design' section stud and ring handle. Tighten set screw into stud. On molded • Qj CAUTION for typical wiring diagram. plastic pull station, replace seal 4 If test Is successful, recoil( regulated release mechanism NOTICE Do not install cartridge at this time or system may be using coddng lever (Part No. 14995) and reinstall lock bar If no other devices are being attached, proceed FIGURE 1 actuated (Part No. 14985).11 a manual reset relay Is Installed, depress • to Page 6-3, Step No. 1, and test the detection min the reset button (RED LIGHT ON). It will also be necessary to system. 9. Make certain the regulated release mechamam is cocked with 7. Manually actuate the system by operating the remote pull eta- re-light any pilot lights on the cooking appliances. lion. (It may be necessary to remove the glass break rod prior lock bar m place. NOTICE to operating pull station.) Manual reset relay (RED LIGHT TESTING MECHANICAL GAS VALVES NOTICE OUT) will If no other S being attached, proceed off the gas (CLOSE) the electric happen, gas turn power to Pagge e 6-3, Steep p N No. 0. 1, and test the def detection To test each mechanical gas shut-off valve complete the following If no other devices are being attached, proceed shutting aft the gat Imo. If this does not happen, turn power Byefom. steps: • to Page 6-3, Step No. 1, and test the detection source off. Then re-etamine all wiring connections for proper 1 system. • hookup Refer to Figures 106, 107, arid 108 in 'Design' sec- V CAUTION lion for typical wring diagram. e to la To reduce the risk of explosion due tking gas, before 8. If test is successful, recock regulated release mechanism the gas line is turned on, make certain a extinguish any using coddng lever (Part No. 14995) and reinstall lock bar g 9 ny (Part No. 14985). Depress reset button on manual reset relay open flames and turn off all burners and any electrical or (RED LIGHT ON). mechanical devices that are capable of 'grating gas 9. Check burners for gaseous odor. IF GASEOUS ODOR Turn gas firm on EXISTS, TURN OFF POWER SOURCE IMMEDIATELY. This will cause the electric gas valve to shut the gas line off. 2. Manually push each air cylinder rod to tut 'DOWN' position. The gas valve should dose. If mechanical gas valve does riot Open any doors end /Or windows to clear the area of gaseous trip, remove each pulley elbow cover to make certain wire rope fumes, then correct the gas leak before proceeding any further. is resting on each pulley elbow sheave. If this does not correct the problem there may be too much slack in the line and It 10. It no gaseous odor exists, pilot light may be ignited at this time. should be retightened. NOTICE 3. Test for gas leaks by painting connections with a soap sots- If no other devices are being attached, proceed lion. Bubbles indicate a gas leak. lighten connections where • to Page 6-3, Step No. 1, and test the detection leaks appear and repeat test again to make certain no other system. gas leaks exist. 4. If no gas leak is found, pull air cylinder rod to lull 'UP' position. 5. Recock mechanical gas valve. i s 5 t. 4' 1 L 'T _ - a II. SECTION VI - TESTING AND PLACING IN SERVICE UL EX. 3470 ULC CEx747 Page 6-3 3-1 -07 REV.3 TESTING DETECTION SYSTEM 1. Test detection system by completing the following steps: 4. Upon successful actuation of the system, complete the follow- s. Raise the regulated release mechanism tension lever to Mg steps. the "UP" position. a. Raise tension lever to "UP' position and Install a property- b. Remove the fusible link from the terminal detector end razed fusiGa link in the terminal detector. Install a test link (Part No. 15751). See Figure 2. b Cock regulated release mechanism using codang lever (Part No. 14995) and insert lock bar (Part No. 14985). d. Lower tension lever to en position. d. Locate detector linkage center end center er In In each bracket. For "dip on style linkage, locate linkage In bracket slightly toward termination end of detection run. TEST Uwx For "scissor' style linkage, locate linkage In bracket all the FIGURE way toward termination end of detection run. c. Locate detector linkage and center In each bracket. e. Make certain the 1/4 In. (6.4 mm) minimum to 3/8 in. For "dip on style linkage, locate linkage In bracket slightly (9.5 mm) maximum clearance was maintained between the toward termination end of detection run. base of the trip hammer assembly and the cable lever assembly. For "adsaor" style linkage, locate linkage In bracket all the way toward termination end of detention run NOTICE regulated release mechanism tension lever to Reset any been ff d by the system tc may d. Lower r lip have been affected by the system fldWadon. "DOWN" position and remove lock bar. • a wire atter, at the test link at the terminal detector I. Remove is sh1 1/2 ing cap and weigh each ore be w weight h e. Using I weight is 12 ounce (14.2 g), or more, below weiBM to simulate automatic actuation stamped on cartridge f. If system actuates successfully, go to Step 4. • g Install cartridge into the regulated release mechanism 2. If the regulated release mechanism does not actuate, check reserver and each regulated actuator receiver. Hand tight - the following components and remedy any disorder as follows: en firmly. a. Check the detector linkage for correct positioning. • h. Remove the lock bar b Check the wire rope for knotting or Jamming • I Install cover on regulated release assembly and each reg- c Check pulley elbows to sea that wire rope is free and ken- ulated actuator assembly and secure with appropnate fes- tared In pulley sheaves. If any evidence of pulley elbow ^ere upper inspection seal Insert ppli e. (Part Ifs. te In each deformation is found, replace the pulley elbow nper ar a end lower cover hole, h enc o If system install sinstall m attach l an OEM enclosure, atta enclosure cover ver end d. Make certain that lock bar Is removed. secure wall appropriate hardware or procedure. e. Make certain that regulated release mechanism is cocked. • J. Record installation date on tag attached to unh and/or in a I. Make certain that tension lever is In "DOWN" position. permanent Re. 3. Re-test the system by completing the follovdng steps: a Make certain regulated release is cocked and lock bar Is Inserted. b. Raise the regulated release mechanism tension lever to the "UP' position. a Install a new tact link (Part No. 15751) on the terminal detector. d. Lower the regulated release mechanism tension lever to the 'DOWN" position. e. Check for 1/4 in. (6.4 mm) minimum 3/8 in. (9.5 mm) max- imum dearance between the trip hammer assembly and the cable lever assembly. I. Remove the lock bar. g. Using a wire cutter, at the test link et the terminal detector to simulate automatic actuation