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• A r 1' - i r "uTnarO"M'ONIIF'C°"' HOOD INFORMATION - ✓ob#2490331 MAX I EXHAUST PLENUM TOTAL HOOD CONFIG. H000 TAG MODEL LENGTH COOKING TOTAL RISERS),y SUPPLY HOOD END TO r,' NO. TEMP. EXH. CFM WIDTH LENG. DIA. 'ee) t . C1� GAN 'OCT END . ROW 5430 14' 5 -,'�',Z73 n vy,•' SS 1 ITEM 21A 8' 5.00' 600 Deg. 1895 ..• 1 LEFT ALONE ND-2-PSP-F (7r xp 5430 14' 2340 .4127 "'• 6 4 SS 2 ITEM 218 8' 6.00' 600 Deg. 2340 �h( • 2� RIGHT ALONE `- • J ND-2-PSP-F 1•• It Wher xp _ HOOD INFORMATION •1?'Ab ' FILTER(S) LIGHT(S)LIGHT(S) UTILITY CABINET(S) FIRE HOOD HOOD FIRE SYSTEM ELECTRICAL SWITCHES TAG FFICIENCY I SYSTEMHANGING NO. TYPE QTY.HEIGHT LENGT - QTY. TYPE CATION MICRONS - A TYPE SIZE MODEL M QUANTITY PIPING WGHT PA11TICLG DIM[rTLa(unil 1 ITEM 21A Cnptrnte Solo Filter 6 20' 16' • See Filter' 3 I erles 6 YES 481 � LBS 7 \\\ � 6 20' 16' 1 Light 675 ` \\\ \ 2 ITEM 21B Cnptrnte Sala Filter . See Filter 3 tit5 erles E2 /�N Right Ansul R102 3.0/1..5 DCV-2111 1 Fan YES LBS 5555\\ H00� OPTIONS OPTIONtill \� \ IPBRFORA L1fY PLY PLENUM(S) \\\\\\\\\\\\\ HOOD ITEM 2tA ' NO. MOOD RISER(S) \ FIELD WRAPPER 10.00' High Fron �.y \ NO TA CI LENGTH WIDTH HEIGHT TYPE WIDTH LENG. DIA. CFM S.P. LEFT END STANDOFF (FINISHED) I' WI 54' Longe/Insul• e• i� W CaptiveAire Captrate Solo Filter 2 ITEM 21B FIELD WRAPPER 10.00' High Front t F� MUA 12' 24' 600 0.162' FTI.listed Grease Extracting)Filters \ 1 ITEM nt 102' 16' 6' MUA 12' 24' 600 0.162' • ' MUA 12' 24' 600 0.162' Made From 430 Stainless Steel < MUA 12' 28' 666 0.169' 1 ± Filter Detail 2 ITEM nt 114' 16' 6' MUA 12' 28' 666 0.169' 1' LAYER OF INSULATION ' MUA 12' 28' 666 0,169' 1 FACTORY INSTALLED IN 1.00' END STANDOFF MEETS 0' REQUIREMENTS CLEARANCE TO COMBUSTIBLE SURFACES. ^.. i I - gum~ 11111.11111111,11111, � / i // X/ ''iri /��/ir���������/��������������������/ I 3' r 3' °V 11' 1 11' Allikeit 4 Grease cup will be supported by 2 studs 014' • �-or i� 014' /efir � an the inside wall of the hood.The grease will . -/� ,1 • � S drawn through a concealed grease trough . SEE TEMP SEE TEMP z Fw SENSOR DETAIL ^� SENSOR DETAIL � and into this removeable cup. i a y¢ 1/2 Pint Grease Cup Detail 54' 4 U.L. Listed L55 Series E26 Canopy 1 ' U.L. Listed L55 Series E26 Canopy hod 54' Light Fixture - High Temp Assembly Light Fixture - High Temp Assembly vw lir ONauau11rn1100 lir w MEW MY CONNERED1,50.1 ONE VE NO I!!Mar '4'z' e —24' — 24' — 24 -- 28' 28' 28' T T Fa T ���''j� lmeal — ``----i f �/ `� f �� f DIGITAL USER 16' 1•'- Vic'- ' '-k)' '— '— 16'INTERFACE •1100 AND NOM r°D ew" CONTR.. — »new, ` _8'iice_8"i %ice_ �i�_8'I �i�_e� �i�- ND-2 HANGING FACTORY DETAIL ' ' ' ' ' f I IANGING ANGLES 5(11.1.BE LOCATED IN THF.FOLLOWING LOCATIONS FOR(GALL CANOPIES e-` 50 1/2' - 50 1/2' 51' -- 51' - DIM DIM ''�• DIM FROM FROM " HOOD STYLE FROM FRONT FRONT,.4.1 17.1°,4'. — 33 3/4' 33 3/4' — 19 1/4' 1' 37 3/4' 37 3/4' REAR (24"High (30"Higa 12' -- Hand) Hood) i • r 8' S.00'Nom./8' 5.00'0D - 8' 6.00'Nom,/8' 6,00'0D ,---sr p d Wall Exhaust 2.25" 2.25" t✓"t-` ' Only _ 8'-6.00' Overall Length - 9'-6.00' Overall Length 4.166" - .,_ .. With „as, MLU 2.25" 2.25" 4,000, d,,.= Exhaust 2.25" 2.25" --r ® f4Al "VIEW — Hood #1 (ITEM 21A) PLAN VIEW — Hood #2 (ITEM 21E3) Back Only :re- 4.166" x,.5100" LONG 5430ND-2—PSP—F 8' 6.00" LONG 5430ND-2—PSP—F Shelf MBA . Tfl!A 2.25" 2.25" � ti'�, - * y JOB BAJA FRESH - TIGARD, OR Condensate 2.25" 2.25" t`'` > I LOCATION PORTLAND, OR, 97223 161/11PHANGING ANGLE LOCATIONS `"`a T E / ��/� DATE 4/1/2016 JOB 6' 2490331 w Ywertdc — /� I II r _ _-- DWG' # 1 DRAFYN BY REV SCALE 3/8' = 1'-0' • • FOR QUESTIONS, CALL KURT CURTIS, REGIONAL MANAGER PHONE, (360) 828-5418 FAX, (919) 227-5983 EMAIL, kurt.curtls@coptivealre.com L55 SERIES E26 CANOPY LIGHT FIXTURE - HIGH TEMP ASSEMBLY,INCLUDES CLEAR THERMAL AND SHOCK RESISTANT GLOBE(L55 FIXTURE) FIELD WRAPPER 1000'HIGH (SEE HOOD OPTIONS TABLE) 54' /EXHAUST RISER ATTACHING PLATES HANGING ANGLE SUPPLY RISER WITH VOLUME DAMPER H 23.55...1101101 OPEN STAINLESS �il= 2 3/4' STEEL PERFORATED PANEL 20'CAPTRATESOLO FILTER WITH HOOK \ 6' 3'INTERNAL STANDOFF -16' As 30'NOM. 24' fT IS RCE RESPONSIBILITOOF THE ARCHITECT/OWNER TO ENSURE THAT THE HOOD CLEARANCE FROM LIMITED-COMBUSTIBLE AND COMBUSTIBLE MATERIALS IS IN COMPLIANCE WITH LOCAL CODE REQUIREMENTS. / GREASE DRAIN WITH REMOVABLE CP 48.0'MAX -1 A0'AFF REFERENCE EQUIPMENT BY OTHERS I SECTION VIEW - MODEL430N -2-PSP HOODS — #1 (ITEM 21A) #2 (ITEM 21B) Hood H No, Riser(s) Height 1 4 2 4 JOB BAJA FRESH — TIGARD, OR /�� ����� ♦, — � _ _ LOCATION PORTLAND, OR, 97223 c w ``\IVI/I / coir -• DATE 4/1/2016 JOB # 2490331 Alli% O �I"I I I — DN'C # 2 DRAWN BY REV SCALE 3/8' = 1'-0' L ' f T r ' 6` nae GREASE BOX 4,'- -- COVER O / FAN --__ 41 FAN FAN BASE PLATE �a CURB 1 j)LEFT) `_��� 1 i� L♦, � PLATE �I .'' , , (LEFT) , /� � �i • ii /� DETAIL 4�� .► GREASE BOX SEPARATOR FAN BASE �` ' �/ / �B.B*�t+�)11 HINGE KIT DETAIL ATTACH GREASE BO%COVER TO THE CURB 3'BELOW 17// �II\STOP EDGE Or CURB. \ USING(3)LONG(314'LG)SCREWS AS SHOWN, INSTALL GREASE PIPE AS SHOWN. \r, www . \• tit, lip. GREASE PIPE FOR QUESTIONS, CALL �� • `de ` , CURB KURT CURTIS, REGIONAL MANAGER (r0 IP* PHONE, (360) 828-5418 `` FAX (919) 227-5983 = `� GREASE BOX EMAIL, kurt.curtis@captivealre.com (OPTIONAL) ATTENTION INSTALLER SHOULD SUPPLY GREASE PIPE ENOUGHERI AL CORD TO LET FAN MAKE (OPTIONAL) COMPLETE GREASE BOX INSTALLATION FAN IN OPEN POSITION FAN IN CLOSED POSITION EXHAUST FAN INFORMATION - Job#2490331 FAN WEIGHT UNIT TAG FAN UNIT MODEL R CFM ESP, RPM H.P. B.H,P, 0 VOLT FLA (LBSSONES NO. 1 DU85HFA 1895 1.000 1366 0.750 0.5030 3 208 2.6 74 15.9 2 DU180HFA 2340 1.200 1113 1.500 0.7290 3 208 4.4 112 13.4 FAN OPTIONS FAN UNIT TAG OPTION (Sty. - Descr.) NO. 1 1 - Grease Box 2 1 - Grease Box 1 - AC Interlock Relay - 24VAC Call 1 - Motorized Backdraft Damper for A2-0 Housing 1 - Low Fire Start 1 - Inlet Pressure Gauge, 0-35' 1 - Manifold Pressure Gauge, -5 to 15' we 3 1 - Extra Set of Belts 1 - Separate 120V Wiring Package (Required and used only for DCV or Prewire with VFO) - Three Phase Only 1 - Size 2 Direct Fired Heater Low CFM Profile Package. Used on Heaters under 2500 cf), 1 - Freeze Protection Drain Kit for Evaporative Coolers CU B ASSEMBLIES NO. FAN WEIGHT ITEM SIZE 1 N 1 36 LBS Curb 23.000'W x 23.000'L x 20.000'H Vented Hinged 2 It 2 41 LBS Curb 26.500'W x 26.500'L x 20.000'H Vented Hinged 3 k 3 88 LBS Curb 31.000'W x 79.000'L x 24.000'H Insulated k 3 Rall 4.000'W x 4.000'L x 36.000'H JOB BAJA FRESH - TIGARD, OR /-1 ♦, An ��m = LOCATION PORTLAND, OR, 97223 It ) �i�� �_ _= DATE 4/1/2016 JOB # 2490331 et Ia2errok EiE �// i/ „ -� =__ -- DWC # 3 DRAWN BY REV SCALE 3/8' = 1'-0` fi 4 4. /\ 23' 23' \ FAN #1 DU85HFA - EXHAUST FAN / VENTED FEATURES, CURB - DIRECT DRIVE CONSTRUCTION<NO BELTS/PULLEYS) WI/3l 7/8 - ROOF MOUNTED FANS 20' ,' -RESTAURANT MODEL -UL705 AND UL762 - VARIABLE SPEED CONTROL G20 AUGE -INTERNAL WIRING CONSTRUCTION - WEATHERPROOF DISCONNECT - THERMAL OVERLOAD PROTECTION(SINGLE PHASE) • -HIGH HEAT OPERATION 300'F(149•C) \ 3' FLANGE Ilir1111[117 D -GREASE CLASSIFICATION TESTING /30 1/2 _ NORMALTEMPERATURETEST I LEST FAH MUST OPERATE 0•F U CONTINUOUSLY 111 23 EXHAUST EXHAUSTINGHAIR 300•F INUOU) ROOF OPENING UNTIL ALL FAN PARTS HAVE REACHED 21 \ / 21 DIMENSIONS THERMAL EQUILIBRIUM,AND WITHOUT ANY J Ell DETERIORATING EFFECTS TO THE FAN WHICH �I' GREASE DRAIN WOULD CAUSE UNSAFE OPERATION. L ABNORMAL FLARE-UP TEST 2 . . EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING BURNING GREASE VAPORS 14 7/8 I AT 600•F(316'E<FOR A PERIOD OF 15 MINUTES WITHOUT THE FAN BECOMING DAMAGED TO ANY EXTENT THAT COULD CAUSE — AN UNSAFE CONDITION. 21 .. OPTIONS 24 /4 GREASE BOX �\26 1/2' 26 1/2' \ • FAN #2 DU180HFA - EXHAUST FAN VENTED FEATURES, AA CURB DIRECT DRIVE CONSTRUCTION(NO BELTS/PULLEYS) \- - 39 3/8 - -ROOF MOUNTED FANS 20' RESTAURANT MODEL ' UL705 AND UL762 -VARIABLE SPEED CONTROL 4 STEEL -INTERNAL WIRING CONSTRUCTION -WEATHERPROOF DISCONNECT -THERMAL OVERLOAD PROTECTION(SINGLE PHASE) • -HIGH HEAT OPERATION 300•F(149•() 3' FLANGE Lima D -GREASE CLASSIFICATION TESTING / 33 3/4 NORMAL TEMPERATURE TEST EXHAUST FAN MUST OPERATE CONTINUOUSLY ` I"�" / ROOF OPENING 22 5/8 WHILE EXHAUSTING AIR AT 300E(149•() UNTIL ALL FAN PARTS HAVE REACHED 24 / 24 DIMENSIONS THERMAL EQUILIBRIUM,AND WITHOUT ANY �/ L ;I, I;_ DETERIORATING EFFECTS TO THE FAN WHICH .`0-11 GREASE DRAIN WOULD CAUSE UNSAFE OPERATION. ABNORMAL FLARE-UP TEST 2 . EXHAUST FAN MUST OPERATE CONTINUOUSLY WHILE EXHAUSTING BURNING GREASE VAPORS 16 1/2 I AT 600•F<316.0 FOR A PERIOD OF IS MINUTES WITHOUT THE FAN BECOMING DAMAGED TO ANY EXTENT THAT COULD CAUSE 1— — — — —I AN UNSAFE CONDITION. FOR QUESTIONS, CALL 24 I . OPTIONS KURT CURTIS, REGIONAL MANAGER PHONE, (360) 828-5418 2)I\\ GREASE BOX FAX (.r tI 227-5983 J EMAIL; kurt.curtls@captIvenire.com JOB BAJA FRESH - TIGARD, OR /fij� A1' -A = = LOCATION PORTLAND, OR, 97223 R Ct CD II If��� DATE 4/1/2016 JOB # 2490331 �111I%• I �II I -.....'==-- - DIY( J/ 4 DRAIYN BY • REV SCALE 3/8' = 1'-0' ' • FAN #3 A2-D.250-G15 - HEATER 1. DIRECT GAS FIRED HEATED MAKE UP AIR UNIT WITH 15' BLOWER 2. EVAP COOLER (LPD CELDEK) -W/INTAKE HOOD W/EZ FILTERS FOR QUESTIONS, CALL 3. DOWN DISCHARGE - AIR FLOW RIGHT -> LEFT KURT CURTIS. REGIONAL MANAGER 4. COOLING INTERLOCK RELAY. 24VAC COIL. 120V CONTACTS. LOCKS OUT BURNER CIRCUIT WHEN AC IS ENERGIZED. PHONE, <360) 828-5418 5. MOTORIZED BACK DRAFT DAMPER 22.75' X 24' FOR SIZE 2 STANDARD & MODULAR DIRECT FIRED HEATERS W/EXTENDED FAX, (919) 227-5983 SHAFT, STANDARD GALVANIZED CONSTRUCTION, 3/4' REAR FLANGE, LF120S ACTUATOR INCLUDED EMAIL, kurt.curtis@captivealre.con 6. LOW FIRE START. ALLOWS THE BURNER CIRCUIT TO ENERGIZE WHEN THE MODULATION CONTROL IS IN A LOW FIRE POSITION. 7. GAS PRESSURE GAUGE, 0-35', 2.5' DIAMETER, 1/4' THREAD SIZE 8. GAS PRESSURE GAUGE, -5 TO +15 INCHES WC., 2.5' DIAMETER, 1/4' THREAD SIZE 9. EXTRA SET OF V-BELTS. ONLY TO BE ORDERED AS FAN OPTION AT TIME FAN IS ORDERED. 10. SEPARATE 120VAC WIRING PACKAGE FOR MAKE-UP AIR UNITS. OPTION MUST BE SELECTED WHEN MOUNTING VFD IN PREWIRE PANEL OR WITH DCV PACKAGE. PROVIDES SEPARATE 120VAC INPUT TO SUPPLY FAN. THIS 120V SIGNAL MUST BE RUN BY ELECTRICIAN FROM DCV TO MUA SWITCH. SUPPLY SIDE HEATER INFORMATION, 11. PROFILE PLATE CONFIGURATION FOR SIZE 2 DIRECT FIRED UNIT FOR LOW CFM APPLICATIONS, 12. FREEZE PROTECTION DRAIN CONTROL KIT FOR EVAPORATIVE COOLERS, INCLUDES 3-WAY WATER SOLENOID VALVE 83166064 WINTER TEMPERATURE = 27'F. TEMP. RISE = 48'F. <SHIPPED LOOSE), PRESSURE SWITCH INSTALLED UPSTREAM OF 2WAY SOLENOID IN UNIT, BRASS TEE, 2 NPT HALF INCH BTUs CALCULATED OFF STANDARD AIR DENSITY NIPPLES, AND TWO STAGE THERMOSTAT T678A-1015. FIELD WIRING REQUIRED BY OTHERS FOR 3-WAY VALVE. FOR BOTH OUTPUT BTUs AT ALTITUDE OF 0.0 Ft. = 196992 CELDEK AND STANDARD V-BANK TYPE CONFIGURATIONS, INPUT BTUs AT ALTITUDE OF 0.0 Ft. = 214122 5/1:'—16' CURB OUTER WALL DISCHARGE OPENING —19- 01 1/2' 20' �� -11 o WATER�-1 //,C-r�� DRAIN \ /\I/\I/\��\/III•\\ AIRFLOW 1 J 183/4' 0 AIRFLOW I L _ J -51 1 ♦- 6 1/8' 1 — — — J3/ —_— 4 1/2._L__. FLEX CONDUIT FOR FIELD WIRING 40 3/4' 131 7/8' 40 1/8' 42 1/8' 38 1/8' 37 3/8' LIFTING LUG p--------'i 1 IT AIRFLOW AIRFLOW DIRECT FIRED NODULE .41- AIRFLOW �:� 39 9/16' LPD CELDEK FILTER/CONTROL MIINIMIN'4 _____.__ _____ • 43 3/8' SERVICE DISCONNECT ACCESS DOOR 36 3/4' SWircH r NPT ACCESS BLOWER/MOTOR 0182'NPT j WATER INLET 24' SERVICE ci c ii 00 . CLEARANCE REQ. . . •• • I 7 13/16' 20 1/4p4. ADJUSTABLE 20 1/4' LEG 1 24' EQUIPMENT CURB I• 31' 1 I_ 79' ROOF OPENING 2' SMALLER THAN CURB DIMENSION. MUA FAN INFORMATION — Job#2490331 FAN EVAP COOLER EVAP COOLER EVAP COOLER EVAP COOLER WEIGHT BURNER Z) UNIT TAG FAN UNIT MODEL 11 BLOWER HOUSING CFM ESP. RPM H.P. B.H.P. 0 VOLT FLA ENTERING DB ENTERING WB LEAVING DB LEAVING WB <LBS.) SONESEFFICIENCY( NO. TEMP. TEMP. TEMP. TEMP. 3 A2-D.250-G15 G15-PB A2-D.250 3800 0.500 1015 3,000 2.5000 3 208 9.5 90.0'F 67.0'F 72.0'F 67.0'F 1111 18.8 92 GAS FIRED MAKE-UP AIR UNIT(S FAN INPUT OUTPUT REQUIRED INPUT GAS UNIT TAG BTUs BTUs TEMP. RISE PRESSURE GAS TYPE JOBBAJA FRESH - TIGARD, OR NO. LOCATION PORTLAND, OR, 97223 ILII E 3 214122 196992 48 deg F 7 In. w.c. - 14 In. w.c. Natural I A An ��,� = II ( DA4/1/2016 JOB2490331 trot = Vl Y - ���_ TE 1 I I DWC # 5 DR9WN BY REV SCALE 3/8' = 1'-0' • I Direct Fired Heater Wiring JOB 2490331 BAJA FRESH TIGARD, OR DRAWING NUMBER DF2490331-3 SHIP DATE 4/7/2016 MODEL A2-D.250-G15 !ATTENTION ELECTRICIAN! Installed Options DROP FOR DISCONNECT CONNECTIONWIRE TO 0- NmD3 YW iINO Motorized Back Draft Damper IS FACTORY SUPPLIED C ILIA AND IL1B RE-DV-1 CONNECT POWER TO THE DROP IN DCV o-- l[D7sl (D3&D7 IN RD RD EMSPLUS) Discharge Temp. Control 1 SW-01 BK 2 BK o 8 GR DCV Wiring C�----� MT-01 0 P_K_ --H. 0 6 - 24V AC Interlock Relay RD(DCV SF1) 0----- oS �- i �comoonent Identification 3 GR--- HOCP=10 AMPS La4e1 Descrlotion I is rotlon C�B Dl FOR CONTROL WIRING CB-01 Circuit breaker (tamp) (30 � v BK 0WH (DCV Ni) -42 N d BK 4 FR-01 Flame rod C160 FSC-01 Fireye FSC 01-141 BK MT-02(LF120-SAH MA-Il Modulating amplifier (190 5 • 201 , MT-01 Supply motor C20 RE-DV MT-02 Damper motor C50 5117C H •40• IR 6 A S3 Si SW-03 ■■ PS-01 Lor Airflow Srltch (90 PS-02 High Airflow Srltch C90 7 RE-DV DCV Relay (10[50 8 RE-10 AC Interlock Relay (100070 PS Ol PS-02 RE-10-1 9 °NO BK Cc NC OR C C,��1 RD 3T BK C,_.NC OR BK 10 TS0 ,., SW-01 Maki disconnect switch [20 rr ww SW-03 Damper end limit switch (40 11 I0 11 0l TS-02 C NC 77 0p Power transformer(200vi�00 BK �1' T�-o� Power trans£orner(20vn)C720 120.2-aTR-03 Ignition transformer (140 (LINE 4) TR-04 Power tronsformer(20va)C170 70 OR 014 c' RD TS-02 High temp limit switch (100 13 60 - TS-03 Intake Air Sensor (100 20 WH. TS-05 Discharge Alr Sensor C210 14 3oG1o15�GY GY 1Q10 WH WH, TR-02 BR gBL BK VA-01 Pilot gas valve 030 4, 1016 6e- K 15 VA-01 VA-02 Main gas valve [180 So BR 1017 B1 TR 03 WH VA-03 Modulating gas valve (201 —IL1L2I -• BK SPARK MOTOR INFO SSU 16 PLUG SUPPLY 3HP-208V-3P-9.5FLA 510- Ei �1 0A 17 o-_rir�v B �➢0 V H L� r--b G 24VAC Coll - Signal From Condenser FSC-01 CC all For Cooling Interlock' FR-01 18 C ELECTRICAL INFORMATION BR 115 WH MOTOR CIRCUIT MCA: 11.9A 1..oTR-04 CONTROL CIRCUIT MCA: 2.0A MOTOR CIRCUIT MOP: 20A 19 YW I BL CONTROL CIRCUIT MOP: 15A IMIO 'VA-02 20 •2 3 4 6 7 8 MA-01 NOTES DENOTES FIELD WIRING w 21 LOWMFIREISTART DENOTES INTERNAL WIRING LBL PLLIIFF EERR VAS rx TERMINALS S4 AND S6 USED ON VA-03 NF & AF SERIES ACTUATORS 22 0 1•.D *88 TERMINAL 11 PROVIDES COOLING c CONNECTION soon STYLE 0 2• WIRE COLOR "am''rmoVr 0 3 0 BK-BLACK rd- YELLOW RD- RED b 3 K a 2 1 23 TS-05 BL-BLUE GR-GREEN WH- WHITE ma e 7 \ BR- BROWN GY-GRAY PK- PINK ma 6 S / OR- ORANGE PR-PURPLE J IEvaporative Cooler Wiring JOB 2490331 BAJA FRESH - TIGARD, GR 4\ DRAWING NUMBER EC2490331-3 SHIP DATE 4/7/2016 MODEL A2-D.250-G15 Installed Ootlons 1ON H MU WH 2 0B1 MIBK SW-01 crB— il 3 i Com0onent Identification SW-03 NOTE. Label Descriotlon Location BL YW C NC If cable Is CM1NO2VL2B02 SW-01 Thermostat [20 4 change SW-02 Overflow Switch [60 BK->BR 0. WH->BL SW-03 Pressure Switch [30 TI-01 Spray Timer [5-70 BR 15TI-08 OR RD [BKO VA- VA-01VA-01 Internal Solenoid Valve [50 5 EI• VA-02 3-Way Solenoid Valve [70 GR 6 SW-02 TI-01 MIV BK C NC OR��BK A ..2 WH MC JUMPER Al AND BI 7 L VA-02 FOR RZ7-FSH3VU23 TIMER I GP- L B 9 10 POINT-TO-POINT SUMMARY OF DRAIN CONNECTION 11 :• I 12 ° a Atm} —Az s tI ma- 15 is v 13 B ILK IB. I 7Intemal R. Water 14 I ' solenoid ME — .. •1 SL • . • . . • I i . 15 . ° : : . ' I . •16 ° 17 a ° Roof line 18 ///////////////////////iyce/// //=///A I Z 19 /--—T.,-H1-R-- E•A / 20 Field Wired Normally open vaNe and Piped\ To building drain I1IES 21 \ • -——- DENOTES FIELD WIRING DENOTES INTERNAL WIRING From building WIRE COLOR water supply Normally dosedvaaNe BK - BLACK YW - YELLOW 22 BL - BLUE GR - GREEN • BR - BROWN GY - GRAY OR - ORANGE PR - PURPLE RD - RED PK - PINK 23 WH - WHITE CInstallation Wiring JOB 2490331 - BAJA FRESH - TIGARD, DR DRAWING NUMBER RP2490331-3 SHIP DATE 4/7/2016 MODEL A2-D250-G15 Installed Options 120 V 1 PH, 240 V 1 PH. 208/460/600 V 3 PH. Disconnect Disconnect Disconnect Switch Switch Switch Gal-flex Gal-flex Gal-flex conduit conduitconduit (in unit) (in unit) (In unit)1 (H) s .�, DCV Connections • • Factory Factory Factory wiring wiring wiring Pr Da BK WH GR Customer \Customersupplied upplied BK RD GR supplied BK BK BK RD WH GR supplied wiring wiring wiring POWER FROM DEDICATED BREAKER Power Connection See above details, D3 IN HEATER TO ILIA IN DCV - - D7 IN HEATER TO IL1B IN DCV WIRE MEM-- DCV Erat_ ............................ NOTES WIRE COLOR BK - BLACK YW - YELLOW BL - BLUE GR - GREEN BR - BROWN GY - GRAY OR - ORANGE PR - PURPLE RD - RED PK - PINK WH - WHITE ELECTRICAL PACKAGES — Job#2490331 Room Temperature Sensor SWITCHES FANS CONTROLLED NO. TAG PACKAGE B LOCATION OPTION LOCATION QUANTITY TYPE 0 H.P. VOLT FLA Utility Cabinet Right 1 Light Exhaust 3 0.750 208 2A 1 DCV-2111 Utility Cabinet Right Smart Controls DCV Exhaust 3 1.500 208 4.4 a // Hood 8 2 1 Fan Supply 3 3.000 208 9.5 I= .0041 i 2" Y 0- ! ��� TEMPERATURE SENSOR Provides room override based 1 • �� .;.,,,,... 00i 7 on temperature differential i P :� 111111"--"--...1",....1:',., between -the room and duct. \ J I Install on a wall in space but 1111111* \� � � not directlyunder the hood or � 1.1.1HIONec... _�,� aft close to an appliance so the ,��_v" 1 reading is accurate dor space, ve el11 11111111110111 l '� /CAT 5 FRCOMM MODULE4+ r TO ROUTER FOR CAS LINK 'lilt `�� CONNECTION i �� IT IS THE RESPONSIBILITY OF THE EC TO 1% MAKE ALL FIELD CONNECTIONS INT❑ AND OUT OF THE CAPTIVEAIRE CONTROL 441„.. PANEL INCLUDING BUT NOT LIMITED To DEMAND CONTROL VENTILATION I LOW VOLTAGE, CAT 5, 24V WIRES TO ALL TEMP SENSORS, INCLUDING THE ROOM DIGITAL USER TEMP SENSOR, MOTOR LINE VOLTAGE INTERFACE / POWER FEEDS, AND CONTROL WIRING. ROOM TEMPERATURE SENSOR REFER TO WIRING SCHEMATICS IN THIS TYPICAL CONTROL DCV w/CASLink INSTALLATION DRAWING AND POSTED INSIDE OF THE 5150„ 1 CONTROL CABINET THERMISTOR INSTALLATION / , KITES Ox Theniston per E,Anust Poser ` .TherA0-es has 2 es that connect to control cobhet 0 0 '1".. yr oe sr o+,pG 1Sp, FOR QUESTIONS, CALL KURT CURTIS: REGIONAL MANAGER '^•-'v'.*eo1 PHONES (300) 828-5418 ` ur FAULT FAX (919) 227-5983 moi,c,..ro O \MUTE ` RESET ` w. -) EMAIL: kurt.curtis2cnptivenire.con ' ft 1 di 18'o,. .,e... 5,5011 SAVINGS, 9005 t^ l Ib /.1/I , ^' (O `LIGHTS J FANS Ol ..o.:aev.n ��G �(I �i � CAT-5 CONNECTION ON REVERSE. ONNECTED TO HOOD CONTROL `�`'� ANEL. I���• MOUNTS IN STANDARD DOUBLE GANG JUNCTION BOX 1 JOBBAJA FRESH — TIGARD, DR � IGITAL ���� /� AM ��sI� _ = LOCATION PORTLAND, OR, 97223 lll�iiiUjJi� rot - ...� —__ DATE 4/9/2016 JOB # 2490331 _ SER I \ T - RPAC - ' 0 'II '�-_ DH'C // 14 DRAWN 9Y REV SCALE 3/8' = 1'-0' • / MODEL NUMBER DRAYM BY SCHWA-11C TWE JOB NO DCV-2111 INSTALL DESCRIPTION VONation,NF w co Orol PE :ION2 xhaust Fans,I Supply Fon,Exhaust on In Fire,Lights out In Flre,Fans 2490331 nodulate based on duct temperature.INVERTER DUTY THREE PHASE MOTOR REQUIRED! Room temperature sensor shipped JOB NAME OA IE DWG NO BAJA FRESH - TIGARD, loose for Field Ins toga tion.Verify distance between VFD and Motor:additional cost could apply IF distance exceeds 4/1/2016 ECP k1-1 50 feet. 1 2 FAN, 03 ROUTER BREAKER PANEL TO CONTROL PANEL Load Wiringri--Lag-L" - •SUPo3 • a COMMaom CAT-5 ETHERNET CONNECTION — Responsibility' Electrician SM 3 -� �' o vaN2oB V CONTROLT❑PANELn3 WIRE TO -10e➢1Ff-0- - • o VIRE DIRECTLY TO COMMUNICATION �Iy��I 11 BREAKER SIZE SHOWN IS THE MAXIMUM ALLOWED --1n- ar- • a WORLD WIDE MODULE. SEE CASLINK OWNERS VFD QUICK •)i1 • — BREAKER PANEL CONTROL PANEL CONNECTOR Mit. -OY-!'UTA- - ' " Oi]iIIN WEB MANUAL FOR FURTHER INSTRUCTIONS. 4 _ Hot -_F�. 9 OWN ---GBWNn_ - ,, I. BREAKER 1PH_ Neutral 61 Qd CONTROL PANEL - 120 V _ Ground - MUST HAVE ITS OWN METAL L EDD- --- � --1:=1 CONDUIT. WIRE TO PROVIDED TO I TIBC}-WIRE TO CONTROL BOARD. TEMP 5 15 A CONTROL POWER. DO NOT WIRE CONDUIT DROP. KITCHEN TEMP SENSOR MOUNTED ROOM IN ROOM AWAY TO SHUNT TRIP BREAKER. SENSOR FROM HEAT SOURCES. SEE MANUAL — REMOVE JUMPER 6 IST HOOD LIGHT BREAKER SHARED W/ MAKE UP AIR ON PCB INp�MUA�Ml CONTROL POWER.SWITCH N1 DAMPER MaliCONTROL PANEL LINE - PROVING HRMS •m ltd-® 7O 1 TBFn-FACTORY WIRED TEMPERATURE HOOD 2 7 BREAKER 3PH- LINE -_1LF INTERLOCK LOW VOLTAGE CONNECTION FOR TERMINAL NAMCs DUCT SENSOR SENSOR.MOUNTED IN EXHAUST DUCT RISER 1 208 V LINA- rTT DAMPER INTERLOCK, SHOULD IF DO BY APPLY _ MCA, 3.2 A HAVE CONTINUITY WHEN DAMPER _ Ground IS PROVEN OPEN. 9 MCA: 15 A - NOT REQUIRED FOR ALL UNITS. CONTROL PANELI T3ACE ---- EXH-1 SM-1 SEE MAKE-UP AIR SCHEMATIC. TO I T3B WIRE TO CONTROL BOARD. HOOD 1 WIRE TO VFD QUICK CONNECTOR DUCT SENSOR SENSOR MOUNTED IN EXHAUST DUCT RISER 1 9 - LINE - BREAKER 3PH_ LINE 208 V _ LINE -_A L5 THE FOLLOWING CONNECTIONS MCA, 5.5 AMAY OR MAY NOT BE 10 _ Ground CONTROL PANEL TO ACCESSORY ITEMS REQUIRED BASED ON JOBSITE MOCPi 15 A EXH-2 SM-2 Responsibility' Electrician SPECIFICATIONS WIRE TO VFD QUICK CONNECTOR CONTROL PANEL COMPONENT HOT TO SHUNT COIL SHUN COIL, D CONTROL PANELI-• BREAKER 3PH- LINE - MICROSWITCH 1 SIGNAL FOR I- NEUTRAL FROM SHUNT COIL J — LINE -i LS [AP EXTERNAL ST TERMINAL IS ENERGIZED 4 209 V _ LINE - CONTROL PANEL q'NO OFF �� SHUNT TRIP IN FIRE CONDITION. MCA: 11.9 A _ Ground TO b CI 1 ,NC, MOCP, 20 A SUP-3 SM-3 —� FIRE SYS TEM Lela_ _1 Cl TO COMMON(1). J MICROSWITCH COMMON B WIRE TO VFD QUICK CONNECTOR WIRE ARI TO NORMALLY CLOSED(2). CONTROL PANEL®- NORMALLY OPEN Cl TO ARS SHOULD HAVE MS-1 4:N❑8IV SPARE FIRE UR-71-SPARE CONTACTS WILL MAKE C2 TO CONTINUITY WHEN ARMED. 1, NC SYSTEM DRY AR2 WHEN SYSTEM IS ARMED. THEY _ g r1 C}' CONTACT ARE USED TO DISABLE EQUIPMENT J OR PROVIDE SIGNALS.(NOT FOR • IF MORE THAN ONE r FIRE SYSTEM, WIRE l MS-2 q,NO BEI WIRED FIRE RECTL ALARM WHICH MUST THE ANSUL CONTROL PANEL TO FANS IN SERIES AS SHOWN L I.C�3.,NC, ALARM INITIATING SWITCH LOCATED > Responsibility' Electrician DARICX IN ANSUL AUTOMAN) - CONTROL PANEL FANS COMMON ANSUL CONTROL PANEL®- COMMON FAN, 01 EXH-1 CARTRIDGE SW DRY CONTACT NORMALLY OPEN Load Wiring1-DAn1ETi1-- LAU6 CONTROL PANEL M.-- NC ON/OFF WITH aiI_. COMMON - SM-1 WIE -19eo '-z-- �° ",, TO BLACK ANO SUPPLY FAN NORMALLY OPEN 9 ,-�0e0-1"-'-- � vDLT toe V KILL SWITCH LV��Hr1 a- BLACK_ I GROUP 1 W-1•121-SPARE CONTACTS WILL MAKE WIRE TO UM 6.�1 COMMON TO NORMALLY OPEN VFD QUICK MO ---4.11311OD-- HI' LOOP 120V SIGNAL THROUGH KILL WHEN SUPPLY FAN IS ON. CONNECTOR WIRE TO SWITCH LOOP. SWITCH SHOULD 18 MUST HAVE ITS OWN CONDUIT DISCONNECT BE CLOSED IN NORMAL STATE DO NOT SHARE CONDUIT! AND OPEN IN ALARM. CR-1 INC - — FAN, 02 EXH-2 0 H!Ci- l 'NO, DCV SPEED I Vn+(�- -± TO BMS 9 Load Wiring �QED1Erii—- -.---0 LA A.4 J 0-IDV OUTPUT(Vfl- WIRE TO ECPM03 TERMINALS. J-vAPlEriz-- •R1500 IF MORE THAN ONE r CR-2 ON PCBI CONFIGURABLE OUTPUT. SM-2 �� �O VU20B V ANSUL CARTRIDGE SW, I ,NC WIRE TO Al - ' '°- -°-- "a WIRE IN SERIES AS L__ b MO (TOTAL) SEE ECPN03 OWNERS MANUAL. 20 VFD QUICK X11►11"1 ---F'-"°fin-- -i SHOWNDaSCH _, VFD ANALOG I ;N C' ± TO BMS CONNECTOR WIRE TO 0-I0V OUTPUT! B CI- MUST HAVE ITS OWN CONDUIT DISCONNECT IN VFD WIRE TO VFD TERMINAL STRIP. — DO NOT SHARE CONDUIT! PROPORTIONAL TO FREQUENCY. CONTROL PANELIJ 4—ALL SWITCHES FACTORY WIRED (EACH VFD) SEE VFD OWNERS MANUAL. TO CAT-5 CONNECTION BMS SWITCH SWITCHES CONTROL PANEL Hi a- D---",;:ND-, TO �-7q —i EXTERNAL 6.Z1L1a'SIGNAL SWITCH THROUGH BMS HOOD LIGHTS l WILL ACTIVATE ZONE1 FANS AND BLACK SWITCH LIGHTS 23 CONTROL PANED BI CI-- WHITE , TO k�1J1 C- GREEN _J — HOOD LIGHTS=DJ- 24 -Y! 1400 W MAX WIRE TO J-BOX ON TOP OF HOOD • / A I B I C I D I E I F I G I H I I \ N. FACTORY WIRING UNLESS SPECIFIED OTHERWISE, ALL FACTORY AC WIRING 16 AWG. ALL FACTORY DC WIRING 19 AWG. PUT END OF LINE PLUG IN MOTOR POWER CIRCUIT SCHEMATIC SWITCHES EMPTY RJ45 JACKS, PNS EOL120A NOTE. IF VFD HAS 1PH 240V INPUT, USE Ll & L2 ONLY, CIRCUIT BOARDS I J9 120V e-1 e7 CAT-5 CABLE. LENGTH AS REQUIRED. IF VFD HAS 1PH 120V INPUT, USE LI & 14 ONLY. ECPM03 (11,0z Cl HMM 1 DCV Rev. 1.18 OM fl WH 2•l.`f(+ CONTROL INPUT V V C 14 AVG HMI Rev. 2.05 ECPM03 K O BK MTR'EXH-I BK 3 PH 6111[•; •v., _ — 0 1 P, ocLic• -- 120V H1=LINE, • 0 208 V B,2 FLA'2.6 x/RD x BK __ N1=NEUTRAL, 15A ;�, 15 A •CIs�' •V/T3 BK• HP�0.750 1 0 VAC C �� BK •11.I,• BREAKER. DO 24V®OO®©®®® GR I GR'� PI00�01 RELAY �K,111 P107�00 ���� - COM-1 GNUS. NO 4 3 y�� NOT CONNECT P108.61 I;f.`>® TO SHUNT TRIP 4V J6 OI O2 OO®OO©OO �77 "lima ir:78 - i11f(�:K BK.,LI P194 01 NC 2 1 2 BK DC p •NM .111:11...4.1.,•0111:7o/11r � -wired to OVA(Cm— BK.L2 P194.225 COIL 8 7 [�.ji(� •].y(• -- BREAKER. SEE I 11-I DC+► • O1( e1(A. _Master CORE WKS" BK:•L3/N P410,11 COM 6]5 �-•1 ® INSTALLATION MN/AC A 0 DC-►II of applicable) O ,` SCHEMATIC FOR RJC-1 �m E:) BK N:f[• - + o (Nu[,,:,,, 674 VFD�ESV75lNO2YXB571 ADDITIONAL RED. J o MIT-5 �[;�_� $I=py�1fT•]1 COMPONENT 1 1S OM, A ca lul -5[N�[ •.I�eShlelded_�IW�— 14 AWG LABEL DESCRIPTION G 3 PH Mr.:K U/TI ST% Starter e PANEL L113,11- 13---D -CI--- z-- Twisted 'K O BK., MTR EXH-2 Lo Pair AMII FLA.4.4 LJ CPM03 208 V i74T�� BKS:V/T2 HP.1.500 OL-B Overload 15 A •WITO I GR•V/T3 12100.01 PMvarles 3 NOTE.AU Items on ECPM03 J3 line to be dais chained GR PI07.00 C-X Contactor from onecomponent to the next,with EOLI2OA at end GNI►BK BK.i1 P108.73 - PNvarks of line. Place PI%EOL120A in empty RJ45 port. •��(•�•� BK,, P150�01 PS-1 Power Sup.24VDC ilvho; •>L2 P194.225 PMMOPIe-2u-IC ECPM03/DAISY CHAIN i1wY.�� BK.,L3/N P410�12 RA, 120V Relay DPIT O PW 31.110.0181.0 VFD'ESV112NO2YXB571 RD-x 21VDC Ligght Relay ll- El2r Err" 14 AWG PR.34.IIOAIBB.0 4 11 `- 'TS-x Duct Thermostat 3 PH WO: 0 BK,..0/T1 FLA.9.5 P-3 PMA/CP-P0-T4'-EXPL 208 V ONO, BKV/T2 HP.FLA.9. �.M 1 ill y��.M 2 �.N 3 20 A i ivo' I GR:.V/T3 P100'01 00 u a ON1►0R 9e1,111 P107.00 — J7 120V P108 98 •pgC•.K BK.,L1 P15001 BK R1-161 BKaHI eVWIn BK:L2 P194,225 'K •176:• O BK..L3/N P410.21 I elE• }}'[KVFD'ESV222NO2YXB571 5 BK RJC-x RJ/5 to Twist.Pair PASLIn N MODULE CDNV COM-1 CASLinG M000LE PMCOIIDI 6 CR-1 KTSCB- BK<H1 WH AR1►BK "MEMO"MEMO 'MNl CR-% CARTRIDGESNITCH PN,023878 - DC+►BL 011E 11I PR-41201 LEGEND SF1►BK va n0 WH FACTORY WRITE ACK YW-YELLOW 7 BL-ELL GT-GREY BR-BRENAV PR-RLE CR-CRMLE RD-RED VH-WHITE OR/B_-CR/B-STRIPE — B_/RD-EL/RD STRIPE RD/CM-RD/CN STRIPE VIVBL-441/11 STRIPE MAKE UP AIR INTERLOCK. F.: PEREF1►BK I,I•I,I WH / \ 8 PI 1 PANEL COOLING BAAME JANFRESH - TIG.. kiip 10 DRAMAS 1ITLE CPM03 DRY CONTACTS (SHOWN DE-ENERGIZED) DCV-2111 14 AWG RA-1-1 DESCRIPTION OF OPERATION ON OFF 5/Demand Control • / Vntilation, control -- •F.1;YL•NO• WITH FIRE for 2 Exhaust Fans,1 -— ovva C Y W Supply Fan,Exhaust on In out In 9 14 AWG RA 2 I Fire,Fans modulate based duct ON/OFF temperature.INVERTER -— •2111[• Q• WITH DUTY THREE PHASE MOTOR •1311RI•Cyw SUP REOUIREDI Room temperature sensor 14 AWG shipped loose for Field RA-2-2 Installntion.Verify • distance between VFD -— •YIIY. No. ' and Motor,additional - •a>tw.. YW distance exceeds I50 feet. 10 JOB NO DRAWN BY 2490331 TYPE DATE \ SC-20 x 18 x 8.62 BOX/ FACTO`wc no ECP N1-2 2016 • • Ductwork I Parts - Job#2490331 Hood # Tag Part # CFM S.P. Weight Velocity STY Description PI DW14470WLT-2R-S 1895 -0,0218 69.47 1772.66 1 Double Wall Duct - 14' Inner Duct, 47' long - 2 Layers Reduced Clearance - 18' Stainless Steel Outer Shell. P2 DW1427DWLT-2R-S 1895 -00125 52.67 1772.66 1 Double Wall Duct - 14' Inner Duct, 27' tong - 2 Layers Reduced Clearance - 18' Stainless Steel Outer Shell. HOOD #1 P3 DWI427DWAJDTP-2R-S 1895 -0.0116 47.96 1772.66 1 Double Wall Adjustable Duct Transition Plate - 14' Inner Duct, 27' long - 2 Layers (Connected to P4) Reduced Clearance - 18' Stainless Steel Outer Shell. P4 OW2314TP 1895 0 8.49 1772.66 1 Duct to Curb Transition, 23' Curb to 14' Duct, 16 GA Alunlnlzed. Used on BDU15, DU75 & (Connected to P3) 85. Systen at P4 1895 -0.8185 PS DW1447DWLT-2R-S 2340 -0.0337 69.47 2188.93 1 Double Wall Duct - 14' Inner Duct, 47' long - 2 Layers Reduced Clearance - 18' Stainless Steel Outer Shell. P6 DW1427DWLT-2R-S 2340 -0.0193 52.67 2188.93 1 Double Wall Duct - 14' Inner Duct, 27' long - 2 Layers Reduced Clearance - 18' Stainless Steel Outer Shell. HOOD #2 P7 DW1427DWAJDTP-2R-S 2340 -0.018 47.96 2188.93 1 Double Wall Adjustable Duct Transition Plate - 14' Inner Duct, 27' long - 2 Layers (Connected to P8) Reduced Clearance - 18' Stainless Steel Outer Shell. P8 DW2614TP 2340 0 12.53 2188.93 1 Duct to Curb Transition, 26-1/2' Curb to 14' Duct, 16 GA Aluminized. Used on BDU18. (Connected to P7) System at P8 2340 -1.1975 3M-2000PLUS 0.80 2 Duct - 3M Flre Barrier 2000 Plus Silicone - Used as sealant to Seal Duct Joints. DW140WCLASY-2R-S 7,71 4 Duct - 14' Duct - 18' Double 'V' Clamp - 2R Insulation & Single 'V' Clamp Included - MISC Parts Reduced Clearance. • Double Wall Riser Cover - Used On 14' Inner Riser, 4' long - 2 Layers Reduced DWI8DWRISER-2R-S 9.50 2 Clearance - 18' Stainless Steel Outer Riser Shell Assembly. Includes Insulation & Single V Clamps For Inner & Outer Connections. Total Weight 412.66 Ductwork #1 Front View DuctWork #1 Top View HOOD #1 HOOD #2 HOOD #2 Ductwork Front View Ductwork Front View HOOD #1 DuctWork Top View Ductwork Top View 25.50 Tin 25.50 28.50 YSTEMl S-0 0 �f �1111p1 114i�f� :. P3 P7 -0.0116's.p -0.018'.s.p.. 4 P8 t SII I II ' 1895cfn 2340cf m }HI .1111 } Hllll...11lI 5 P2 P6 (`,.1 -0,0125'.5.2 95 (`,.1 00193's.p� • m O N N C C • I. N N • ON a, --P1 hii5i -0.0218'.5.2 l'i, 5cfr 41 f FOR QUESTIONS, CALL KURT CURTIS, REGIONAL MANAGER PHONE: <360) 828-5418 FAX: <919) 227-5983 EMAIL kurt.curtis@captivenir e.com • VH1E1 H EI 7p'''0.7725's.p ,III 11246.5;P 124 5'�p II[ ..'1 'iI. :IQ�/S'i JOBBAJA FRESH - TIGARD, OR ! °a Cb LOCATION PORTLAND, OR, 97223 O �, =-- Biro# 4/1/2016 DRAWN BY 2490331 Iniertek REV SCALE 3/8' = 1'-0' • • DuctWork #1 Side View DuctWork #1 SE View FOR QUESTIONS, CALL KURT CURTIS, REGIONAL MANAGER HOOD 82 HOOD kl PHONES (360) 828-5418 DuctWork Side View DuctWork SE View FAX1 (919) 227-5983 28.50 EMAIL, kurt.curtis@captiveaire.com rSYSTEM IISYSTEM .0811115.s p. r0.81B5's.p. 1895c Fn 1895cfn P4 f I e P I f 00116'.s.p .fl'Scf A. 0.0116'.s.p.: I1, f r GIA_////// �. 0.0125'.s-P ,,,,C.' OA125'.s.p/ HOOD 82 m .1695cfr._ Z DuctWork SE View ill f t 1 11 ,11 ov (/ ///IIp/////7 !SYSTEM N / 1.19r 75's p (6ars L2348Gfo_ P1 tt PIflii (' ////// P7 asp Wcf� V —E.7725's P IIIII'I//////11 F, 1—ft T441Sf 1-'l 0.0193'.s.p, 4: 2341 f OV 01 41 0,0337'.s.p; H2E1 1.1265's.p. JOB BAJA FRESH – TIGARD, OR ♦11 — ��A -� _ = LOCATION PORTLAND, OR, 97223 �j (� 0 / /�/� —= DATE 4/1/2016 JOB # 2490331 vO, ��� ,• •s DWC # 13 DRAWN BY REV SCALE 3/8' = 1'-0' • • • System Design Verification (SDV) FOR QUESTIONS, CALL If ordered, CAS Service will perform a System Design Verification (SDV) once all equipment KURT CURTIS REGIONAL MANAGER has had a complete start up per the Operation and Installation Manual. Typically, the SDV will PHONE, (360) 828-5418 FAX, (919) 227-5983 be performed after all inspections are complete. EMAIL kurt.curt s@captivealre.con Any field related discrepancies that are discovered during the SDV will be brought to the attention of the general contractor and corresponding trades on site, These issues will be documented and forwarded to the appropriate sales office. If CAS Service has to resolve a discrepancy that is a field issue, the general contractor will be notified and billed for the work, Should a return trip be required due to any field related discrepancy that cannot be resolved during the SDV, there will be additional trip charges. During the SDV, CAS Service will address any discrepancy that is the fault of the manufacturer. Should a return trip be required, the general contractor and appropriate sales office will be notified, There will be no additional charges for manufacturer discrepancies. ✓OBBAJA FRESH - TIGARD, OR / � N' imp -r _ _ LOCATION TLAND, OR, 97223 c a c , '' DNT' P/2016 OR# 4 1DRA N BY2490331 IJ II%% REV SCALE 3/8' = 1'-0' Standard and CELDEK Evaporative Cooler Modules installation, Operation, and Maintenance Manual -410 -Oaf ry` Standard Evaporative Cooler CELDEK Evaporative Cooler 4' 'ay 6 a !,�. 444 w:i r 44. 6 � � j ac rod, . .. ,�. Vis ¢ a t s s. ,e....a s e a .'�r r{. ,� 11#: ��� w 3 � N. E ti 41'1'174s�r.- I� t 14 e. d ~ 3 t. � d> • a T � r��'��c . e�iicing s s ° �� '> Q', di a s €a a s a ang • e e x ,. Yz r ' r x Save these instructions. This document is the property of the owner of this equipment and is P P Y required for future maintenance. Leave this document with the owner when installation or service is complete. A0011028 September 2014 Rev. 13 TABLE OF CONTENTS WARRANTY 3 INSTALLATION 4 Mechanical 4 Site Preparation 4 Assembly 4 Roof Mount Installation 5 Indoor(Inline) Installation 6 Electrical 6 Copper Wire Ampacity 6 Freeze Protection 7 OPERATION 8 Timer Settings. 8 Nozzle Replacement. 10 Start Up 12 Special Tools Required 12 Start Up Procedure 12 Component Description/Detail 13 Electrical Cabinet Detail. 13 Units with Freeze Protection Option: 13 3-way Solenoid Valve Detail (Field Installed under Roofline). 13 Troubleshooting 14 Troubleshooting Chart 14 MAINTENANCE 15 General Maintenance 15 Every 3 months 15 Yearly 15 Cooling Media Size and Quantity 15 Start-Up and Maintenance Documentation 16 • Evaporative Cooler Information 16 Maintenance Record 16 Factory Service Department 16 A0011028 November 2010 Rev. 12 L WARRANTY This equipment is warranted to be free from defects in materials and workmanship, under normal use and service,for a period of 12 months from date of shipment. This warranty shall not apply if: 1. The equipment is not installed by a qualified installer per the MANUFACTURER'S installation instructions shipped with the product, 2. The equipment is not installed in accordance with federal, state and local codes and regulations, 3. The equipment is misused or neglected, 4. The equipment is not operated within its published capacity, 5. The invoice is not paid within the terms of the sales agreement. The MANUFACTURER shall not be liable for incidental and consequential losses and damages potentially attributable to malfunctioning equipment. Should any part of the equipment prove to be defective in material or workmanship within the 12-month warranty period, upon examination by the MANUFACTURER, such part will be repaired or replaced by MANUFACTURER at no charge. The BUYER shall pay all labor costs incurred in connection with such repair or replacement. Equipment shall not be returned without MANUFACTURER'S prior authorization and all returned equipment shall be shipped by the BUYER,freight prepaid to a destination determined by the MANUFACTURER. 3 INSTALLATION It is imperative that this unit is installed and operated with the designed airflow and electrical supply in • accordance with this manual. If there are any questions about any items, please call the service department at 1-866-784-6900 for warranty and technical support issues. Mechanical WARNING: DO NOT RAISE VENTILATOR BY THE INTAKE HOOD, FILTER TRACKS, OR PIPING — USE LIFTING LUGS PROVIDED OR A SLING Site Preparation 1. Provide clearance around installation site to safely rig and lift equipment into its final position. Supports must adequately support equipment. Refer to manufacturer's estimated weights. 2. Consider general service and installation space when locating unit. 3. Do not allow air intake to face prevailing winds. Support unit above ground or at roof level high enough to prevent precipitation from being drawn into its inlet. The inlet must also be located at least 10 feet away from any exhaust vents. Assembly There are several items shipped loose with the evaporative coolers. These items include the drain trap BE Liquid Evaporative components, sheet metal screws, Ventilator Tight Cooler Conduit \Screennuts and bolts, screen intakes (for outdoor installations), equipment legs (for outdoor installations), and hanging cradles (option for indoor applications). Upon unit arrival, follow the following procedure to \k/ /W assemble the evaporative cooler: - Drain Trap Assembly Equipment 1. Attach the evaporative Curb : Legs cooler to the ventilator or • duct using the sheet metal screws and nuts and bolts included. Ensure that there is a liquid tight seal formed between the evaporative cooler and the ventilator. 2. Screw the flanges of the intake screen to the unit with the supplied sheet metal screws. (Outdoor installations only) 3. Fans designed for outdoor installation are provided with adjustable equipment legs. The adjustable legs should be used to support and level the front end of the evaporative cooler. 4 Plumbing Connections - There are two field plumbing connections required for proper evaporative cooler operation. It is recommended that all ("- plumbing connections be sealed with Teflon tape or pipe dope. Use care not to contaminate the interior surfaces of the water lines when plumbing the unit, as small particulate can clog the orifices of the spray nozzles. 1. The P-Trap drain should be attached underneath the cooler (hardware is provided and drain is installed). The trap is important for two reasons. First, it can be piped to drain in the most convenient area. Second, a it keeps air from being drawn through the drain hole in the bottom of the pan, impeding drainage. 2. Pipe the main water supply line (50 psi. max.) to quick seal on the bottom of the unit. Install a strainer with sediment trap on the water inlet. It is highly recommended that a water-softener be installed up-stream of the unit to extend cooling media life and prevent scale build-up in unit. Roof Mount Installation mi-----EVAPORATIVE _ COOLER Los • MODULE 01-1/2 IN ATER DRAIN • AIRFLOW CURB FLEX CONDUIT 01/2 IN NPT OUTER OR FIELD ATER WALL WIRING CONNECTION SERVICE LIFTING LUGS SISCONNECT .Z--- 4 PLACES SWITCH BLOWER/11 CEJ MEDIA/ MOTOR CONTROL ACCESS ACCESS MEN DOOR DOOR N 20 IN HIGH EQUIPMENT _ CURB WITH SUPPORT LEGS . 5 Indoor (Inline) Installation . 11 P I1 EVAPORATIVE o COOLER MODULE 01-1/2 IN WATER DRAIN AIRFLOW 0 li FLEX CONDUIT \°\ 01/2 IN NPT FOR FIELD WATER WIRING CONNECTION SERVICE LIFTING LUGS DISCONNECT 4 PLACES o SWITCH 0 0 I7 I I BLOWER/ MEDIA/ II I CONTROL MOTOR • ACCESS ACCESS • • DOOR DOOR Eti.. I 00 . I .11 ll_ I1,I I - •:1 I: I \ �I 2 1/4' 2 1/4' H I4— UNI-STRUT BASE FOR HANGING 3 PLACES (OPTIONAL) Electrical Before connecting power to the module, read and understand the entire section of this document. As-built wiring diagrams • . ® ' `` are furnished with each module by the factory, and are °-�. • "`"' ,i. ` : attached either to the door of the unit or provided with a r .. . _ , « l paperwork packet. , ' . . _` -- , Electrical wiring and connections should be done in - , , , _ � . accordance with local ordnances and the National Electric , , . , Code, ANSI/NFPA70. Be sure the voltage and phase of the • _. 1. a� power supply and the wire amperage capacity is in accordance • t � ' with the unit nameplate. For additional safety information refer to AMCA publication 410-96, Recommended Safety Practices for Users and Installers of Industrial and Commercial Fans. Copper Wire Ampacity Wire Size AWG Maximum Amps 1. Always disconnect power before working on or near 14 15 this equipment. Lock and tag the disconnect switch or 12 20 breaker to prevent accidental power up. 10 30 2. An electrical drop containing the line voltage power 8 50 wiring is shipped with every evaporative cooler. The 6 65 . electrical drop should be brought through one of the 4 85 conduit openings located in the front of the module and 6 connected to an appropriate power source. 3. Make certain that the power source is compatible with the requirements of your equipment. The evaporative cooler wiring schematic identifies the proper phase and voltage of the equipment. 4. Before connecting evaporative cooler to power source, verify power line wiring is de-energized. 5. Secure the power cable to prevent contact with sharp objects. 6. Do not kink power cable and never allow the cable to come in contact with oil, grease, hot surfaces or chemicals. 7. Before powering up the evaporative cooler make sure that the interior of the unit is free of loose debris or shipping materials. 8. If any of the original wire supplied with the cooler must be replaced, it must be replaced with type THHN wire or equivalent. Freeze Protection On units shipped with the optional freeze protection drain kit, additional field wiring and piping is required. A 3-way water solenoid is provided; containing a normally open and a normally closed valve, and should be installed below the roof line and be wired and piped as shown to the right. Additional details on how to install this 3 way solenoid valve are included in the "Component Detail" section of this manual. A 2-stage thermostat is also provided in the evaporative cooler when the freeze protection option is ordered. The evaporative cooler will automatically drain when the ambient temperature falls below the internal two stage thermostat set-point. Y115 b1 2— . OtiNROV B1 iB ..n V 11�VV1 r 15 o-1B BQ\_ I TiN A demi • Whet dmdd rlr • . Roof line V/Iiifii/lr/7r7riiiiiif///iii/ /// //% Field Wired Normally open vd e and Piped To building drain l From building water supply hbr dlydoxd yd, OPERATION Prior to starting up or operating the evaporative cooler, check all fasteners for tightness. Ensure that the cooling media is installed properly and that the interior of the cooler is free of loose debris. The evaporative cooler is equipped with a 2 setting timer control. The UPPER 2 dials are used to denote the length of time the manifold sprays water while the LOWER 2 dials control the amount of time between spray periods. Both of these settings are factory set and should not have to be adjusted during initial installation of the unit. It is important to understand that the spray timing pattern is cyclic in nature with the manifold discharging water on and off continuously based on the timers dial settings. Both the standard and Celdek evaporative coolers are shipped from the factory with specific nozzles with varying characteristics regarding flow rates and anti-drip protection. It is imperative that the correct nozzle is used in the correct location and type of cooling module to ensure quality performance and leakage prevention. Information regarding the nozzles and timer control should be read and understood before commencing unit start-up procedures. Timer Settings: Input terminals Timing mode selector Input indicator fry 7,,f;t _ __.a_._.. . -aaOutput indicator Coarse time setting ON �' Fine time setting ON Coarse time setting OFF * „ Fine time setting OFF yy sor ttLit ft, Output terminals . Both the upper and lower timer settings are adjusted using the same procedure. The UPPER section controls the length of time the manifold sprays water, while the LOWER section controls the amount of time between spray periods. Both of these parameters are set in the factory and should not have to be adjusted during initial start-up. If adjustments to airflow are made,the timer settings will need to be adjusted to sustain proper performance. 8 The procedure for setting the Timer control is as follows: 1) Set the two coarse time setting dials to"1 MIN". THESE ARE ALWAYS SET TO"1 MIN" FOR ALL UNITS REGARDLESS OF SIZE AND TYPE. 2) Set the"fine time setting off"dial located on the LOWER portion of the timer. THIS IS ALWAYS SET TO"1.0" FOR ALL UNITS REGARDLESS OF SIZE AND TYPE. 3) Using the table at the bottom of this page, calculate the time parameter of how many seconds the manifold will spray based on the given CFM of the unit. 4) Set the "fine time settting on" dial located on the UPPER portion of the timer. For each time parameter, the values of both the fine adjustment and coarse adjustment dials are multiplied by one another to denote the total time of the parameter. The fine time setting dials are percentages of the course time settings. For example, if the course dial is set to 1 minute, and the fine dial is set to 0.5, the selected time period would result in 30 (1 minute * 0.5 = 30 Sec) seconds. Check to ensure that the parameter for"spray time on" matches the amount of time calculated in step 3. Unit Size *Time "Spray - On" (LOWER timer setting in SEC.) 1 CFM*(15/3000) + 6.5 2 CFM*(15/4000) + 1.5 3 CFM*(15/4500) - 1 4 CFM*(15/9000) - 1 5 CFM*(15/12,000) - 3.5 6 CFM*(15/15,000) - 5 *NOTE: THE VALUE GENERATED FROM THE EQUATIONS IN THE TABLE IS FOR SECONDS THAT THE MANIFOLD IS TO SPRAY WATER. IT IS NOT THE FINE DIAL SETTING. STEP "4" MUST BE CARRIED OUT IN ORDER TO PROPERLY SET THE FINE TIME SETTING ON DIAL. 9 Nozzle Replacement: The standard and Celdek style evaporative units each have each been designed with their own specific water manifolds and nozzles in order to deliver maximum spray coverage and correct quantity of water to the cooling media. It is imperative that in the event of a nozzle change-out, the nozzles match what is specified in this section of the manual. Nozzle threads must be wrapped in Teflon tape to prevent leakage. CELDEK Evaporative Cooler Water Manifold: °IR:5 Waite - .140 .,.iL.diL GPH 1 IER,,°�?0 -3tEMOTAHLE HALF-SPHEREC3{ETAL CREW 10 • Standard Evaporative Cooler Water Manifold: FRONTFACE.SPRAY-BAR NOZZLE: COLOR: SLACK TYPE: ANTI-DRIP FLOMUTE: 2 O F73.TM: NON-MIOVABLE NAT.Fa 5PFIERE METAL SCREi' -NimirommimmeurAmmummorramenimmoromommeinammommikrimoimmurnommannitmodumnimM 1 i i ail _ 0r lit 1 11 Start Up Special Tools Required • AC Voltage Meter • Amperage Meter • Standard Hand Tools Start Up Procedure 1. Remove the access door and check all electrical connections for tightness and continuity. 2. Inspect the air-stream for obstructions and install cooling media if missing. 3. Compare the supplied voltage with the unit's nameplate voltage. If this does not match, correct the problem. 4. Set the internal thermostat to a set-point cooler than the entering air temperature for start-up purposes. The cooling circuit will be energized when the entering air temperature is hotter than the thermostat set-point. 5. Check the timers dial settings. Ensure that the timers settings match what is specified in the above section of this manual under"Timer Settings". 6. Install the access door and apply power to the unit. If the entering air temperature is hotter than the thermostat set-point, the cooling circuit will be energized and water will begin spraying from the nozzles. If no water sprays, the unit is either not powered, has no water pressure or the entering air temperature is cooler than the thermostat set-point. 7. Observe the spray timing sequence. Make sure that the sequence observed matches what is specified based on CFM to optimize evaporative cooler performance. The unit should spray enough to keep the media wet with minimal run-off and light drainage. It takes roughly 20 minutes for the cooling media to become fully saturated and come up to steady state operating conditions. If there is no water in the drain pan and no run-off of the media, the "spray-time on" parameter should be increased to lengthen the time water is sprayed. If there is excessive runoff and quantities of drainage, the "spray-time on" parameter should be decreased to shorten the time water is sprayed. Set the thermostat back to the desired cooling temperature (typically about 85°F). Remember, the cooling circuit will only be energized when the entering air temperature is higher than the set-point. 12 Component Description/Detail . The following table lists controls used in the evaporative cooler and their function: Component Component Description of Operation Electrical Cabinet Detail: Number Controls spray timing 1 Timer sequence. Runs continuously from spray time on and spray i writalka. time off. "'i Energizes cooling circuit when t. 2 Thermostat entering air temperature exceeds set-point Normally closed valve. Ii`" 3 Energized when liquid level , Valve controller senses"dry' condition ... Normally closed switch. 4 Overflow Detects clogged drain to switch prevent overflow. Normally closed switch. i.,, Prevents unitfrom 5* Pressure spraying if 3way solenoid valve Switch used for freeze protection is not installed in field. O i 3 WayInstalled under roof-line. Allows . • 6* solenoid Valve gravity fed drainage in sub- 0 '' freezing ambient conditions. i 0 .E.. k ., -4 ,... Units with Freeze Protection Option: 3-way Solenoid Valve Detail(Field Installed under Roofline): 6* *NOTE: Only installed on units with Freeze protection. To Building ' Pressure NOTICE: IT IS THE Source t To unit Inlet RESPONSIBILITY OF THE INSTALLER TO ENSURE 3-WAY SOLENOID VALVE IS INSTALLED UNDER THE ROOF-LINE ON THE w , WATER-LINE UPSTREAM OF THE UNIT. THE MANUFACTURER IS lit, , NOT RESPONSIBLE FOR ANY DAMAGE RESULTING FROM THE 1,`" .0, '�` FAILURE OF INSTALLING THIS 3- - WAY SOLENOID VALVE PRIOR To a" a> TO START-UP. Drain fi 13 Troubleshooting The following table lists causes and corrective actions for possible problems with evaporative coolers. Review this list prior to consulting manufacturer. Troubleshooting Chart Problem Potential Cause Corrective Action Insufficient Cooling Media not wet Check for even spray pattern from all nozzles Clogged nozzles Clean or replace nozzles Timer Settings improperly set Ensure that the timers dial setting Settings correspond to those specifiedin the reference table of this manual based on face velocity. Internal thermostat set to high Set thermostat to lower setting. Cooling circuit will be energized when the outside air temperature is higher than thermostat set- point No water pressure Turn main building water valve on Clogged drain causing pan overflow Clear any debris from drain and switch to activate ensure bottom pan drains properly. Ensure that the overflow switch float mechanism is able to travel up and down freely Excessive ambient humidity Wrong application for evaporative cooling Cooling media dirty Clean or replace cooling media Insufficient Airflow Cooling media clogged Clean or replace cooling media Excessive Airflow Cooling media missing Install cooling media 14 MAINTENANCE To guarantee trouble free operation of this evaporative cooler,the manufacturer suggests following these guidelines. Most problems associated with unit failures are directly related to poor service and maintenance. Please record any maintenance or service performed on this'equipment in the documentation section located at the end of this manual. WARNING: DO NOT ATTEMPT MAINTENANCE ON THE EVAPORATIVE COOLER UNTIL THE ELECTRICAL SUPPLY HAS BEEN COMPLETELY DISCONNECTED General Maintenance 1. Inlet and approaches to evaporative cooler should be kept clean and free from any obstruction. 2. All fasteners should be checked for tightness each time maintenance checks are performed prior to restarting unit. 3. Evaporative coolers require little attention when moving clean air. Occasionally oil and dust may accumulate on cooling media causing low airflow or reduced cooling. Cooling media should be inspected and cleaned every 3 months and replaced every cooling season. Every 3 months CELDEK Installation 1. Cooling media needs to be cleaned and/or replaced (if damaged) quarterly, and more often in severe conditions. Cooling media can be washed with a standard water hose. When re-installing cooling media, be sure to install with the airflow in the correct direction. ENTERINGj -45° The standard v-bank style evaporative cooler media should be LEAVING AIR —�► installed with the metal mesh sideof theon ', pad the leaving air side of the media. The CELDEK media should be installed with the 15° holes along the air stream path as indicated in the CELDEK installation illustration. 2. Check all fasteners,sensors and electrical connections for proper tightness and continuity. 3. Check all nozzles for proper and evenly distributed water flow. If nozzles are clogged, clean or replace. Yearly Cooling Media Size and Quantity 1. Replace cooling media prior to cooling season. Intake Quantity Size Cooling media should be replaced yearly to guarantee Size 1 V-Bank/Evap 3 20"x 25" proper cooling performance. The following table Size 2 V-Bank/Evap 8 16"x 20" illustrates proper media quantities and sizes. Size 3 V-Bank/Evap 8 20"x 25" 2. Check the piping manifold and evaporative cooler Size 4 V-Bank/Evap 15 16"x 20" housing for water tightness. Replace or repair any Size 5 V-Bank/Evap 12 20"x 25" leaking or damaged components. Size 1 CELDEK 1 24"x 20" 3. Every cold season requires that the evaporative cooler Size 2 CELDEK 1 32"x 25" water piping system be drained to prevent freezing Size 3 CELDEK 1 36"x 30" and cracking of the water piping. The main water supply should also be turned off for the cold season. Size 4 CELDEK 1 43"x 38" Standard mesh filters may be used in standard v-bank Size 5 CELDEK 1 54"x 45" coolers in cold seasons. 15 Start-Up and Maintenance Documentation START-UP AND MEASUREMENTS SHOULD BE PERFORMED AFTER,THE SYSTEM HAS BEEN AIR BALANCED (Warranty will be void without completion of this form) Job Information Job Name Service Company,, Address Address City City _ State State Zip Zip Phone Number Phone Number Fax Number Fax Number Contact Contact Purchase Date Start-Up Date - Evaporative Cooler Information Refer to the start-up procedure in this manual to complete this section. Name Plate and Unit Information Field Measured Information Model Number Voltage Serial Number Thermostat Set-Point °F Volts Time spray on (Sec) Hertz Time spray off(Sec) Phase Airflow Direction Correct Incorrect Maintenance Record Date Service Performed Factory Department De artment • Phone: 1-866-784-6900 Fax: 1-919-554-9374 16 r 1•� . _ Project: -_'itc-�lis- l K Sheet# 5816 SW G,LLCREST Cr. Location: , PORTLAND,OR 97221 u , TEL:503.896.7712 Client: 1 Date: By: i�T� 514 t v =J�-K-o .9?22 3 J E -, . ; i'I i AY Sats = a IS'S aP 2, c , ?� = G , a - / goo t Cmc_ ( L.J _ (07 5 tMA,e OA gr sok cW -i- 2 P c, l �P ?- -L- `01 1.\ ti 301 (0 , 44 )(2,$)0,,-725 ) W� is _ rP 1t2(3D )) - O .2 We. ('Vt F? = l 6 3 It- 9 �-v = DI_ Sots WA _ 'Pp .., 1eo TA MO t37 gobs x .-7: �t /4 AL 1----F.: F r 67S, -} 9a = 19 3 n x "t � 5/tb CP Thn ov.._ z a = I 62 x 3 ' q b, 1 lbs Nfac t-�o ..Reye:_. -tom t ,t-c.L fat_ Q ' (L-4) �� ti) �= SD IDsw.s LtSe �� F,oc_,... -kr,› it 1 .. I WO mJect-- - -- Shat 5816 SW GILLCREST CT. Location: PORTLAND.OR 97221 • TEL:503.896.7712 Client: Job St Date: By: E-10o iD Sus J P e•!? A-u.. -1.1-2r, .,f 1--10 06 w 6 = 6,7 s f$ wA VBiu►cAi-_ tN V tfr)(' 7c t9$ ') = 77S4t7 = 193 A-IL "fit-Rr' = D, o g ►a 2G1-1 Fs t 1,.4 ( 34 psi_) Jo 1� 7 Cc�c.k. S`Tr�v T A-SSkmsr: Z' 6L ao, ST. S INl = (2)( 191 9G ,ci Lbs ( 11S$ 11t) 1 I)5�",11� k 15 DI( 103 i5: 0,212, 1A3 PICF.Dc) l ` E, JOB: Tigard Baja Rooftop Unit `' L i. SHEET NO.: OF CALCULATED BY: DATE 4//4//G 58 16 SW Gillcrest ct CHECKED BY: DATE Portland, OR 9722 1 • Ph: 503.89g.771 2 PROJECT Na: ASCE 7-I 0 WIND LOADS 29.5 Other Structures Basic wind design criteria: Wind Speed V = 120 mph Exposure category = B height to centroid of Af, z = 35 ft Wind pressure formulas and input data: qZ= .00256 KZ K,t 14, V2 Eq. 29.3-I Topography factor Krt = I .0 Directionality factor Kd = 0.90 Table 26.6-I Exposure coefficient KZ= 0.73 Table 29.3-I note I Lateral force F = qZ GC1Af Ed. 29.5-I Force coefficient C1= I .40 Figs. 29.5-1 thru 29.5-3 Gust effect factor, G = 0.85 Section 26.9 Compute KZ Table 26.9-I For selected exposure category exposure alpha zg zg = 7 B 7 1 200 alpha = 1 200 C 9.5 900 D 11 .5 700 for h less than 15 ft Kz = 2.0 I "(I 5/z9)^(2/alpha) = 0.57 for h greater than 15 ft Kz = 2.01(z/zg)^(2/alpha) = 0.73 Design wind pressures (ultimate loads): qZ= 24.29 psf Eq. 29.3 Lateral pressure, F/Af = 28.9 psf Eq. 29.5-I where Af = vertical projected area IPih. plystIMMII Project: Sheet# 5816 SW GILLCREST CT. Location: PORTLAND.OR 97221 TEL:503.896.7712 Client: Job l Date: By: r-4 F Tb 14)t til b -A- ) U.t AtSC 8 7-1 tD ..?‘‘) _ 2$ .9 psc "A4- A- \215-7 N Z C^- � F) l -W 't r,1 = ,9 Fri' x 16,9 iso : uoc," kss�. vt) LA& as LT S 710o x 42- a ba'� �tOE. 2bt 210" LA)/ (46 44-itkag-s 01)1,1K- 13D7 t2/s tot.-) it U.sem- 3k It LA-6-t3 4.4-3 W/ Z t 1 J t"reAri 64 INTO (E) PVC.- IS T (off 414 () = 29 6:471 Liqq ✓ 3K JOB: Tigard Baja fresh ..,. SHEET NO.: OF 581 6 SW Gillcrest ct CALCULATED BY: KG DATE 4//4//6 Portland, OR 9722 I CHECKED BY: DATE Ph: 503.896.771 2 PROJECT NO.: /6- PROJECT INFORMATION' ANCHORAGE DE51GN FOR KJTCHEfJ HOOD AND ROOF FAN. BAJA FRESH. TIGARD OR CLIENT: WELL BUILT CONSTRUCTION Building Code: 201 2 IBC/ASCE 7-- I 0 DESIGN CRITERIA SEISMIC. 5DS = .725 WIND SPEED 120 MPH. EXPI5 jSheet �► . - �,ed_g_ATA —�J&I-1 ------ . ocon 5816 SW CILLCREST Cr- t' ati '- PORTUuNO.OR 97221 TEL:503.896.7712 Client: Job ft • Date: By: L 32414 t% r..-r_V\ [..:.: I AI 7- x 1._-.= 4)11 !MIK milIMM1111•11.1111.111111.11MI411111M1 Nur-) 1 c4a N ) (Lt%) VNSScR.JT- I Cot%.f.-t:1 54 CP A-4- CIO ST-Forl' V/` Msn14 / o s Os _ ATTACKING PLATES /.� V stony, N t ft CAPER E3t7L OS'ET stAriESS VW �" ■� r .��� a 3�4' STEEL PE4�MEt PlNltj Q‘1) lee NOK P4' 01.00 /7/ '%.-...----:- < I ii a8a' rva 0 1400fl S tA p et rr 1 i Project: Sheet# jileWPIIIIMPRIII 5816 SW GILLCREST CT. Location: PORTLAND.OR 97221 TEL:503.896.7712 Client: Job f► Date: By: 31 7/8 1 � 3 30 V? "712, -tL 23 MI° 11111 / 1 EASE DRAIN 4,60` 1X1 x X IX( H ave IA-4s (4x) FA-�1 -1-z) 04 I z`' re Cit Q Artsc hvrLs htvA Susg.i)ER to Sw s _ I•ac.ho�acr ra eG" o Roos gy 0 A-NLH ori CE Tv i-oo ( ) W14/2016 • ' ' " Design Maps Summary Report LJSGS Design Maps Summary Report User-Specified Input Report Title Baja Hood Thu April 14, 2016 18:23:13 UTC Building Code Reference Document ASCE 7-10 Standard (which utilizes USGS hazard data available in 2008) Site Coordinates 45.448°N, 122.76665°W Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III „Ni11sora ,,,.:.� orttand ii ---- .,,---,--7:----,,,Beaverton.i'„ ,--=-----7,- ,e---„,—,.-„......_._11.___-i ---,_ -- ; l8 ir ,,, 1 Ct :t ,..e' -' * il Tigar'' \ `, )) 40 I r` i LaiCeOSIN490 .ft', ” stiff f I fi Shel'tAI►t od / USGS-Provided Output Ss = 0.982 g SMS = 1.087 g SDs = 0.725 g S1 = 0.425 g SM1 = 0.670 g SD1 = 0.446 g For information on how the SS and S1 values above have been calculated from probabilistic (risk-targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the"2009 NEHRP" building code reference document. dtp://ehp1-earthquake.cr.usgs.gov/designm aps/us/sum mary.php?tem plate=mini mal&latitude=45.448002013521965&longitude=-122.76664933656`i23&sitecl ass=3&riskcategory=0&edition=rice-2010&variant=0&pe... 1/2 Il., I • Project: Sheet 5816 SW GILLCREST Cr. Location. PORTLAND.OR 97221 TEL 503.896.7712 Client: Job!# Date: By: FA-0 C I!� 2lo D 41-X SE a� d GiAx13 u"y� to" � sails c 6 � L *to 4w5 # bo ot_ U to l #.1 lc, CA I 51 /S a„ (3) Sett -J S o