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Report (14) e )--rA I-662 HussmAnn° DD5NX-L ExcelTechnical Data Sheet P/N 0523506_G 00 NSF® Certified O© April 2017 t DOE 2417 Energy Efficiency _ ii `�liftCompliant I �__ ❑■ 1'• El Scan OR code to `�_._. ■ ,;• �3. 1 access product � : •"1 047 information on your p '� 1 r 1` - CO 0 •.; mobile device. ---L':` i/ 0 ` We reserve the right to change or revise Ep �i specifications and product design in connection m��i; "• with any feature of our products.Such changes O do not entitle the buyer to corresponding changes, improvements,additions or replacements for equipment previously sold or shipped. Item Part# Description Wiring Item# Item Part# Description Wiring Item# 1 FAN ASSEMBLIES LED FIXTURES AND POWER SUPPLY 4 Ft,8 Ft& 12 Ft E. 0501213 Power Supply(EP.4481861) (5) A. 12W Standard Energy Efficient Fan Assembly (1) 0477655 Fan Motor,Evaporator F. LED Canopy Fixture (6) (MO.44l0546) Replace with like fixtures 0461805 Fan Blade(FB.4780446) G. LED Mullion Fixture (7) 6 Ft Only Replace with like fixtures A. 7W Standard Energy Efficient Fan Assembly (1) 0477654 Fan Motor,Evaporator (MO.4410545) 0142780 Fan Blade(FB.0142780) THERMOSTATS B. Optional Adjustable Refrigeration Thermostat (2) LAMPS AND BALLASTS, C. Ballast, Electronic (3) 0480130 2 lamps (BA.4481676) 0480131 3 lamps (BA.4481654) 0480132 4 lamps(BA.4481677) D. Fluorescent Lamp (4) Replace with like fixtures Data sheet-Excel-DD5NX-L Note:Revision G:April 2017.Updated LED energy values.Other changes marked with a bar,circle or underline. ©2017 HUSSMANN CORPORATION•BRIDGETON,MO 63044-2483 U.S.A. U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900•WWW.HUSSMANN.COM Spanish P/N 0533130 Engineering PHYSICAL DATA Plan Views Merchandiser Drip Pipe(in.) 1 1/4 Merchandiser Liquid Line(in.) 3/g Merchandiser Suction Line(in.) 7/8 Dairy & Delicatessen 01-2012 Dimensions shown as in.and(mm). DD5NX A B 3 In. D (77 mm) 41 1/2 7/s 41 1/z Required (1054) 43 8(203) Air Gap (1114) (1054) 4 1/2(115) 4 1/4(108) �; ( ,...�.,..��. r.. 4 3/4(120) �� 1 Electrical ,, 19 Stub Up Area ;' Refrigeration i (483) I I s x s T Outlet 251/4 28112 —1—�$ (152x152) i i 4 3/4(120) H Waste Outlet i I 21 1/4 (6I 1) 3 (724) Electrical Waste Outlet ' (1511) i (680) Field " 37 Connection Wireway :I�-- (940) 26 1/2 i I (673) Splashguard 12 1/8(307) f I C 22 1/2 Clearance for Door Opening ' (572) NOTE:Case-to-Case Electrical Connections FRONT are made IN FRONT OF SPLASHGUARD. _._..._......................... General 4 ft 6 ft 8 ._.__...._ ft _____ _ __ 12ft (A) Case Length(without ends or partitions) 48 3/8(1229) 72 3/s(1838) 96 3/8(2448) 144 1/2(3670) Foch end and insulated partition adds I 1/2 in.(38 mm)to case line up.) Maximum 0/S dimension of case back to front %include.,bumper) r Back of case to front of splashguard 37(940) 37(940) 37(940) 37(940) p guard Back of case to 0/S edge of front leg 28 1/2 (724) 28 1/2 (724) 28 y, (724) 28 h (724) Distance between edges of external legs and center legs 25 NA(641) 20 1/4 (641) 25 1/4 (641) 25 1/4 (641) Distance between edges of center legs NA 41 1!2 (1054) 41 1s (1054) Distance between front legs and splashguard 2 NA NA NA 43 7/s (1114) 3/4(70) 2 3/4(70) 2 3/4(70) 2 3/4(70) FE Electrical Service (Electrical Field Wiring connection point) (B) RH End of case to center of stub up area 36 1/4 (921) 60 i/4(1530) 84 1/4 (2140) 132 3/s (3363) Back of case to center of stub up area Length of electrical wireway 19 (483) 19 (483) 19 (483) 19 (483) wirewa 26 1/2 (673) 26 1L (673) 26 1/2 (673) 26 112 (673) (C) RH End of case to LH end of wireway 42 1/8 (1070) 661h (1680) 90 1/s (2289) 138 1(4 (3511) Waste Outlets (One each end) E (D) RH End of case to the center of LH waste outlet 36 1/4921 60 RH End of case to the center of RH waste outlet ( ) /4(1530) 84�/a (2140) 132 3/s (3363) Back 0/S of case to center of waste outlets 12 i 1s(307} 12�/s(307) 12�/s(307) 12�/s(307) 26 3/4 (680) ii 26 3/4 (680) 26 3/4 (680) 26 3/4 (680) Schedule 40 PVC drip pipe 1 1/4(32) 1 1/4(32) 1 1/4(32) 1 1/4(32) Refrigeration Outlet 0 Back of case to center of refrigeration outlet RH end of case to center of refrigeration outlet 21 1/4 (540) 21 1/4 (540) 21 1/4 (540) 21 1/4 (540) 8 (203) 8 (203) 8 (203) 8 (203) 2 of 8 U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900 ` DD5NX-L Technical Data Sheet Narrow Footprint Multi-deck with Doors, 5 Display Levels, Low Front Excel DD5NX-L 'DoE 2017;" Hussmann refrigerated merchandisers configured for sale for use in the United States Dairy& Delicatessen Energy Efficiency:. camptrant' meet or surpass the requirements of the DOE 2017 energy efficiency standards. Dimensions shown as in.and(mm). REFRIGERATION DATA Note:This data is based on store temperature 37 I DD5NX-L I (940) � 1 3 In.(77 mm) and humidity that does not exceed 75°F and Required 55%R.H. / Air Gap DDSNX-La UNLIT LIT PEG* f ' . 7 1/a(183) Discharge Air°F 39 37 37 _i______ Evaporator°F 34 32 32 I : a / Unit Sizing°F 32 30 30 e / *Hussmann Peg Shelves(Deli only). ° j Btu/hr/ft- Unlit ez e DD5NX-L§ * Kr / UNLIT LIT PEG .Q / PARALLEL 261 271 292 0 531/2 ° I CONVENTIONAL 269 279 301 ■ (1359) . 61 # +Lit data is for canopy and mullion lighting. s (1549) Hussmann recommends against using lit shelves with e 81 3/4 EcoVision Doors. e (2077) §Average evaporator temperature shown.Use dew e • point for high glide refrigerants for unit sizing.Care a should be taken to use the dew point in PT tables e 0 e / for measuring and adjusting superheat.Adjust e C / evaporator pressure as needed to maintain discharge 25 3/8 0 air temperature shown. i (644) I i C___ LDEFROST DATA 19 5/8 / Frequency Hr 24 (499) 3 /8 FAN (152) Defrost Water(lb/ft/day) 1.0 Refrigeration 17 1/4 (92) t outlet rata • (±15%based on case configuration and ,, W „ h`j i, / product loading). aI /r } OFFTIYIE DD5NX-L , 4 3/4(120) Time(minutes) hp Electrical ;•••-21 1/4(540) ELECTRIC OR GAS Not Recommended Case to Case ..-- 25 1/4 (641) Connections I 26 3/4(680) -'^ CON VEN'TIONAL CONTROLS tom--- 28 1/2(724) Low Pressure Backup Control r- 37(940) .I Cl/CO** DD5NX-L Estimated Charge*** DD5NX-L 35°F/25°F 4 ft 1.91b 30 oz 0.9 kg 6 ft 1.9 lb 45 oz 1.3 kg Indoor Unit Only,Pressure Defrost Termination 40°F 8ft 3.71b 59oz 1.7 kg **Use a Temperature Pressure Chart to 12 ft 5.1 lb 82 oz 2.3 kg determine PSIG conversions. ***This is an average for all refrigerant types.Actual refrigerant charge may vary by approximately half a pound(8 oz/0.2 kg). NSF Certification This merchandiser model is manufactured to meet NSF/ANSI (National Sanitation Foundation)Standard#7 requirements for construction,materials&cleanability. w P/N 0523506_G HUSSMANN CORPORATION•BRIDGETON,MO 63044-2483 U.S.A.•WWW.HUSSMANN.COM 3 of 8 Excel DD5NX-L Dairy&Delicatessen Electrical Data 4ft 6ft 8ft 12 ft Number of Fans-12W 1 - 2 3 Number of Fans-7W - 2 Amperes Watts 4ft 6ft 8ft 12 ft 4ft 6ft 8ft 12 ft Evaporator Fans 120V 50/60Hz Standard Energy Efficient 0.30 0.38 0.60 0.90 18 28 36 54 230V 50/60Hz Standard Energy Efficient 0.15 0.20 0.30 0.45 18 28 36 54 230V 60Hz Export 0.33 0.50 0.66 0.99 50 78 I00 150 =d4= 230V 50Hz Export 0.38 0.56 0.76 1.14 57 84 114 171 Minimum Circuit Ampacity 120V 50/60Hz Standard Energy Efficient 0.50 0.58 0.80 1.10 230V 50/60Hz Standard Energy Efficient 0.35 0.40 0.50 0.65 230V 60Hz Export 0.53 0.70 0.86 1.19 230V 50Hz Export 0.58 0.76 0.96 1.34 Maximum Over Current Protection 120V 20 20 20 20 Maximum Over Current Protection 230V 15 15 15 15 Standard Lighting(T-8 fluorescent) 1 Row Canopy 0.26 0.51 0.51 0.77 30 59 59 85 ONLY LIGHTING CONFIGURATIONS THAT ARE COMPLIANT WITH THE U.S.DEPT.OF ENERGY(DOE)2017 REGULATION ARE AVAILABLE FOR SALE FOR USE IN THE U.S.A. Optional Lighting(T-8 fluorescent) 2 Row Canopy 0.51 1.02 1.02 1.54 59 118 118 170 3 Row Canopy 0.77 1.53 1.53 2.31 89 177 177 255 LED EcoShine II Canopy EcoShine II, 0.16 0.26 0.32 0.48 19.3 31.6 38.6 58.0 EcoShine II HO 0.22 0.33 0.44 0.66 26.5 39.5 53.0 79.4 Shelf None Mullion EcoShine II 51-in. 0.29 0.54 0.54 0.79 35.0 65.1 65.1 95.2 120V Lighting Circuit Total=Standard Lighting+Total Optional Lighting 120V EcoShine LED Lighting Circuit Total=Total Canopy Lighting+Optional Mullion Lighting 230V Lighting Circuit Total=Multiply 120V Lighting Circuit Total by 0.52 Please note:some combinations of'fluorescent lights on this case model may not be compliant with DOE 2017 and may not be available to order in the US and Canada. More lighting options are available with LED lights. The Hussmann Product Configurator will not allow lighting options that do not comply with the DOE 2017 standards. 4 of 8 U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900 DD5NX-L Technical Data Sheet Excel DD5NX-L Dairy& Delicatessen Product Data Recommended Usable Cube' (Cu FtIFt) 7.076 ft3/ft (0.87 m3/m) AHRI Total Display Area 2 (Sq FtlFt) 4.46 ft2/ft (1.36 m2/m) Shelf Area 3 (Sq FtlFt) 7.448 ft2/ft (3.02 m2/m) 1 AHRI Refrigerated Volume less shelving and other unusable space: Refrigerated Volume/Unit of Length, ft3/ft [m3/m] 2 Computed using AHRI 1200 standard methodology: Total Display Area,ft2[m2]/Unit of Length,ft[m] 3 Shelf surface area is composed of bottom deck plus standard shelf complement,as shown in the Hussmann Product Reference Guide.The standard shelf complement for this model is(4)rows of 22-inch shelves. ESTIMATED SHIPPING WEIGHT 4 Case Solid End 4ft 6ft 8ft 12 ft (each) lb(kg) 860(390) 1070(485) 1310(594) 1560(708) 100(45) 4 Actual weights will vary according to optional kits included. P/N 0523506_G HUSSMANN CORPORATION•BRIDGETON,MO 63044-2483 U.S.A.•WWW.HUSSMANN.COM 5 of 8 HussmAnn 0 RLN With INNOVATOR Doors, We reserve the right to change 1111111 INNOVATOR II Doors r design in or INNOVATOR III product design in connection © \ with any feature of our products. I Such changes do not entitle the Do ors buyer to corresponding changes, improvements,additions or Technical Data Sheet replacements for equipment previously sold or shipped. PSN 0520869 K 13 JL QV n 0 NSF® Certified 0 •..kr ..,..,. January 2018 4j.. ... DDE2017Energy Efficiency ©© Terminal block NOT for0 �" comiant case-to-case � � 0 N\ wire connection! 0 Item Part# Description Wiring Item# Item Part# (Qty.) Description Wiring Item# FAN ASSEMBLIES,AND THERMOSTATS HEATERS A. 12W Standard Energy Efficient Fan Assembly (1) H. Electric Defrost Heaters- Front(208V) (8) 0477655 Fan Motor,Evaporator 3015518 (1) 1 Door Models (MO.4410546) 3015372 (1) 2 Door Models(HE.4850346) 0461805 Fan Blade FB.4780446 ( ) 3015373 (1) 3 Door Models(HE.4850337) B. 0474033 Standard Non-adjustable (2) 3015374 (1) 4 Door Models(HE.4850347) Defrost Thermostat(CT.4440726) 3015375 (1) 5 Door Models(HE.4850323) C. Optional Adjustable Electric Defrost Heaters—Rear (208V) (8) Refrigeration Thermostat (3) 3015519 (1) 1 Door Models D. 0344662 Defrost Limit Thermostat (4) 3015376 (1) 2 Door Models(HE.4850358) (CT.4440261) 3015377 (1) 3 Door Models(HE.4850359) E. 0461814 Relay Control Thermostat or (5) 3015378 (1) 4 Door Models(HE.4850360) Fan and.Anti-sweat Heater 3015379 (1) 5 Door Models(HE.4850361) Thermostat(CT.4481296) (KG Only) I. Drain Pan Heater (Electric& KoolGas) (9) (120V) RELAYS 0489708 (1) 1 Door Models F. 0342598 Anti-Sweat Control Relay (6) 0387036 (1) 2 Door Models(HE.4850239) (120V KoolGas) (RL.4480238) 0387037 (1) 3 Door Models (HE.4850240) G. 0342599 Fan Control Relay (208V) (7) 0387038 (1) 4 Door Models (HE.4850241) (RL.4480237) 0387039 (1) 5 Door Models(HE.4850242) Refer to INNOVATOR REACH-IN GLASS DOOR LED FIXTURES AND POWER SUPPLY INSTALLATION AND SERVICE manual, PIN 0425683, J. 0499399 LED Power Supply for Innovator, Innovator II and Innovator III door (EP.4481668) and frame replacement parts. K. LED Fixture Data sheet-Reach-in RLN Replace with like fixtures Note: Revision K: Updated wiring diagrams on page 6 and 7. ©2018 HUSSMANN CORPORATION•BRIDGETON,MO 63044-2483 U.S.A. U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900•WWW.HUSSMANN.COM Spanish P/N 0553993 Engineering PHYSICAL DATA Plan Views RLN - RMN Merchandiser Drip Pipe(in.) 1 1/4 Plan View Merchandiser Liquid Line(in.) 3/g Narrow Reach-In Merchandiser Suction Line(in.) 5/8 2,3,4&5 Door Dimensions shown as in.&(mm). A 4 IN.(102 MM)REQUIRED AIR GAPI. B I H H 1 1 fi I � Skid/ 1 I I 116 11 28375/a Externa! 1 (711) I' I Base 11 148 11 +1152Bottome) _(956) II -- -I11 1219) IS pport 11 55/a 61 1 I 30 5/a — t �asie'Outlet —--1'�'-I — — --1 -�- (1a3) I (n ) �0• __ RefriOutlet-►, -4- --— Electrical Wireway ——- _. 'gp/ashguard 39 3/a -+{4 y. I� —— -,� !_'_ =— . ——— —— --I►-=s-_ (1010) (See note) Water Seal---/ . 102 (See Note'* / -•; 4 I.— 1 I -N ;--13/4 ) Front Relay&Terminal s 66 /a (44) 5-Door shown Block Location 13/a, {toz) (1683) 26 1/2 (44) I (673) I j I (12 foot shown above) I .1 'General I Dr i 2 Dr 3 Dr 4 Dr 5 Dr I 1(A) Case Length(without ends or partitions) i 31 V2(800) 62(1575) I**NOTE:Each solid end adds approximately 2?/s in(60 mm)to length of line up;each partition add approximately 2(3/a n0(70 mm)"7!s(3121) 153?/s(3896) (case to case joints can add approximately Vs in(3 mm)for gasket material. � Maximum O/S dimension of case back to front 39 3/4(1010) , 39 3/4(1010) 39?/a(1010) 39 3/4(1010) 39 3/a(1010) I (Includesbumper.Add26 Uz in(673 mm)for door swing.) ', I Back of case to rear of splashguard35 /a 3 (908) 35 3/s(908) 35 3/4(908) 35 3/4(908) 35 3/4(908) Width of Skidraii 4'/2(114) i 4VL(114) 4VL(114) 41/2(114) 4 1/2(114) Width of Bottom Front Support 6(152)Stub-up area between front support and splashguard ;( ) 6((162 6((5622) 6(152)(12 6((56} p guard 6/x(162) 63/s(162) b3/s(162) 63/e(162) 63/((162) 'Electrical Service ' RH end of case to the center of nearest knockout 4 102 °' RH end of case to the center of LH knockout1/2(698)( ) 4(102) 4(102) 4(102) 4(t 02) 27 58(1473) 88'/ (2248) 118 7/8(3019) 149?/s(3794) ' Back 0/S of case to center of knockout 37 5/s(956) 37 5/8(956) 37 5/s956) 37 Vs(956) 37 5/s(956) '*NOTE:Electrical Field Wiring Connection Point is at terminal ( 'Waste Outlet Q ij(8) Right end of case to center of waste outlet 15 3/4(400) i 23 3/4(603) 54 1/4(1378) 1 46 3/4(1175) 76 5/8(1946) Back 0/S of case to center of waste outlet 30 5/s(778) 30 5/8(778) 30 5/8(778) 30 5/8(778) 30 5/s(778) 'Water Seal Edge of water seal to center of waste outlet 13(330) f 13(330) 13(330) 13(330) 13 330 Schedule 40 PVC drip pipe 4 ) t "*NOTE-Field installed water seal outlets,tees,and connectors are shipped sick case 1 /a(32) 1 !4(32) 1 1/4(32) 1 /4(32) I r ' 'Refrigeration Outlet RH end of case to center of RH refrigeration outlet 5 Vs(137 Back 0/S of case to center of refrigeration outlet 32 S 13 ) 5's !s(137) 5 3/s(137) 5 3/s(137) 5 3/s(137) ( ) 32(813) 32(813) 32(813) 32(813) i Outside bottom front supports from end of case 6 3/4(170) 6 3/4 170 Center bottom front support from Centerline 6 ) 6 3/4 610) 6 4 (170)0) 6 43a 610) NA 24(610} 24(610) 24(610) 24 610 Distance between Center and Outside supports will vary ( ) 2 of 7 U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900 RLN with Innovator Doors or Innovator III Doors Technical Data Sheet . Narrow Reach-in 2, 3, 4 and 5 Door Models INNOVATOR Doors Standard RLN DOE 2017 Hussmann refrigerated merchandisers configured for sale for use With Innovator Doors or Innovator Ill Doors Energy Efficiencyj in the United States meet or surpass the requirements of the DOE Low Temperature compliant ) 2017 energy efficiency standards. REFRIGERATION DATA§ Standard Reach in configuration consists of Innovator I doors, Note:This data is based on store temperature and energy efficient fan motors,and EcoShine II LED vertical lighting. humidity that does not exceed 75°F and 55%R.H. . .._..._.......... Dimensions shown as in.&(mm). 2,3,4,5 Door 1 Door 4.4 4in(102mm) FF IC FF IC Required air gap Discharge Air(°F) -5 -12 2 -5 RLN f 37 (940) Evaporator(°F) -1-1 -..19 1 -11l -19 MAN I gab (s7) Unit Sizing(°F) --14 -22 I--14 -22 21/s 54) 17.;;v f ;k $ \� AHRI Rating* a'g_� \ Discharge Air(°F) -2 to Evaporator(°F) -7 pa • � Unit Sizing(°F) -10 *With A/S controller I4 BtulhrlDoor `, I `- —.-..—.-_ :\ \ INNOVATOR 62112 Parallel 955 1065 1095 1200 821/0 ,, (1 ) Conventional 970 1085 1115 1225 (2089) "' a $�) AHRI Rating 67 • S Parallel 910 1000 (1702) " ` Conventional 940 1030 Frame Vii; • - INNOVATOR III , Parallel 935 1035 1075 1165 651/2 � Conventional 955 1055. 1100 1190 (1664) - Door §Average evaporator temperature shown.Use dew point ', for high glide refrigerants for unit sizing.Care should be taken to use the dew point in PT tables for measuring 22 shelf and adjusting superheat.Adjust evaporator i (559) g P J p pressure as needed to maintain discharge air temperature shown. 'I24(sto) ` DEFROST DATA � FF IC - Refrigeration Outlet • killFrequency(hr) 24 24 ii / or� Defrost Water(lb/Dr/day) 1.2 1.2 � )6 (�l Fan Coil (±15%based on case configuration and product i Frame lie'' `t`t', h �ri 1 r� -Ai loading.) a 11 (5isa) ilintei;1840,n0';W:,,Ve*,� x4a/, ELECTRIC FF IC miuminnimmim�r. 121 Temp Term(°F) 48° 48° Electrical Connection og /18 42 Failsafe(minutes) 45 45 is at Terminal I 28 (711) CTAS ' 30 5/8 (778) Duration(minutes) 20 20 Electrical 37 /6 (962) Area utu-p '--39 3/a (1010) OFFTIME Not Recommended PHYSICAL DATA CONVENTIONAL CONTROLS Estimated Charge*** Low Pressure Backup Control 1Dr 0.9 lb 14 oz 0.4 kg 2Dr 1.8 lb 29 oz 0.8 kg FF IC CI/CO(Temp°F)** -18°/34° -20-45° 3Dr 2.7 lb 43 oz 1.2 kg 4Dr 3.61b 58 oz 1.6 kg SDr 4.6 lb 74 oz 2.1 kg Indoor Unit Only,Pressure Defrost Termination (Temp°F)** ***This is an average for all refrigerant types.Actual refrigerant charge may vary by approximately half a pound(8 oz/0.2 kg). Not Recommended **Use a Temperature Pressure Chart to determine NSF Certification PSIG conversions. This merchandiser model is manufactured to meet NSF/ANSI (National Sanitation Foundation)Standard#7 requirements Anti-sweat controls are standard for all low for construction,materials&cleanability. temperature Reach-in cases with Innovator I doors. P/N 0520869_K HUSSMANN CORPORATION•BRIDGETON,MO 63044-2483 U.S.A.•WWW.HUSSMANN.COM 3 of 7 1 RLN Hussmann recommends against frame heater cycling With Innovator Doors or Innovator III Doors with Innovator doors or Innovator III doors to prevent Low Temperature door seals from freezing to the frames and tearing. Electrical Data 't IDT 2Dr 3Dr 4Dr 5Dr Number of Fans-12W 2 1 2 3 4 5 Amperes Watts Merchandiser 1Dr 2Dr 3Dr 4Dr 5Dr 1Dr 2Dr 3Dr 4Dr 5Dr Energy Efficient Evaporator Fan 120V 50/60Hz 0.30 0.60 0.90 1.20 1.50 18 36 54 72 90 240V 50/60Hz Export Innovator NA 0.30 0.45 0.60 0.75 NA 36 54 72 90 Door Anti-sweat Heaters(on fan circuit) 120V 50/60Hz Innovator* 0.76 1.5 2.3 3.0 3.8 91 182 273 364 455 120V 50/60Hz Innovator III 0.43 0.9 1.3 1.7 2.2 52 104 156 208 260 240V 50/60Hz Export Innovator NA 0.8 1.2 1.5 1.9 NA 183 275 367 459 220V 50/60Hz Export Innovator III NA NA NA NA NA *Maximum door watts without anti-sweat cycling controls shown. NA NA NA NA NA Frame Anti-sweat Heaters(on fan circuit) 120V 50/60Hz 0.39 0.78 1.18 1.57 1.97 47 94 141 188 236 240V 50/60Hz Export NA 0.45 0.67 0.89 1.12 NA 107 161 215 269 Minimum Fan Circuit Ampacity 120V 50/60Hz Innovator 3.0 3.1 4.9 6.8 8.6 ' 120V 50/60Hz Innovator III 2.7 2.5 3.9 5.5 7.0 240V 50/60Hz Export Innovator NA 1.8 2.9 4.0 4.9 240V 50/60Hz Export Innovator III NA 1.0 1.6 2.3 2.8 Maximum Over Current Protection 120V 20 20 20 20 20 Maximum Over Current Protection 240V 15 15 15 15 15 Defrost Drain Heaters(120V) 1.67 0.63 1.25 2.00 2.57 200 75 150 240 300 (Export:220V 50 Hz) NA 0.34 0.76 1.22 1.53 NA 84 168 269 336 (Export:240V 50 Hz) NA 0.41 0.83 1.33 1.67 NA 100 200 320 400 208V 10 Electric Defrost 2.88 6.72 10.08 13.46 16.82 600 1400 2100 2800 3500 (Export:220V 50 Hz) NA 7.11 10.66 14.24 17.79 NA 1564 2345 3133 3914 (Export:240V 50 Hz) NA 7.76 11.65 15.53 19.42 NA 1864 2796 3728 4660 Standard Vertical LED Lighting 1Dr 2Dr 3Dr 4Dr 5Dr 1Dr 2Dr 3Dr 4Dr 5Dr Hussmann EcoShine IIT"-A(120V) 0.18 0.31 0.46 0.62 0.77 18.5 37.1 55.6 74.2 92.7 Hussmann EcoShine IrrM-A(220V Export) 0.10 0.17 0.25 0.34 0.42 18.5 37.1 55.6 74.2 92.7 i 4 Optional Vertical LED Lighting Hussmann EcoShine IIT"-B(120V) 0.20 0.36 0.52 0.68 0.84 21.6 43.2 62.3 81.4 100.5 Hussmann EcoShine IITM-B(220V Export) 0.10 0.20 0.28 0.37 0.46 21.6 43.2 62.3 81.4 100.5 Anti-sweat controls are standard for all low temperature Reach-in cases with Innovator I doors. iv- 4 of 7 U.S.&CANADA 1-800-922-1919•MEXICO 1-800-890-2900 RLN with Innovator Doors or Innovator III Doors Technical Data Sheet 6arde,A(\-- 't r\tt \ 2 k TABLE OF CONTENTS MODEL NUMBERING SYSTEM 4 INSTALLATION INSTRUCTIONS 5 SHIPPING DAMAGE 5 Apparent Loss or Damage 5 Concealed Loss or Damage 5 RIGGING AND LIFTING 5 MACHINE ROOM REQUIREMENTS 6 UNIT PLACEMENT 7 Minimum Allowable Clearances 7 Maximum Allowable Clearances 7 SHIPPING BLOCK REMOVAL 7 TWO-TIER APPLICATION 8 RECEIVER CAPACITY 8 PRESSURE RELIEF 8 WATER COOLED CONDENSER 8 REFRIGERATION PROCESS 9 OVERVIEW 9 REFRIGERATION CYCLE 10 HEAT RECLAIM VALVE 11 DEMAND COOLING 12 The System Parts 12 Component Testing 13 Alarm Circuit 13 Alarm Relay 13 Operational Notes 14 COMPONENT PIPING 15 OVERVIEW 15 REFRIGERATION LINE RUNS 15 Through Walls or Floors 15 From Machine to Solid Object 16 P-Trap Construction 16 Reduced Riser 16 Factory Supplied Stubs 16 Protecting Valves and Clamps 16 Connecting Remote Condenser 16 Purge Valve Location 16 MERCHANDISER PIPING 18 Suction Line 18 Liquid Line—Off Time and Electric Defrost 18 Field Connections of Heat Reclaim 18 SPECIAL PIPING FOR OPEN ROOMS 18 RUN LENGTHS AND EQUIVALENT FEET 18 INSULATION 18 REFRIGERANT LINE SIZING 19 General Information 19 Refrigeration Line Stubs Out 19 Condenser Line Sizing 19 PN 0708232_D Condensing Unit Installation and Operation Manual 2 PN 0708232_D 3 ELECTRICAL 20 OVERVIEW 20 GUIDELINES FOR FIELD WIRING 20 = . Unit Cooler Fan Wiring 20 Evaporator Mounted Liquid Line Solenoid 20 Cooler Door Switch Wiring 20 Sizing Wire and Overcurrent Protectors 20 Defrost Controls 20 Other Controls 20 ABOUT THESE ELECTRICAL DIAGRAMS 21 Electrical Diagrams 22 START-UP 30 Leak Testing 30 Test Charge 30 Oil Levels 30 Evacuation 31 Setup 31 Procedure 31 Pre-Charge Check List 31 Charging 31 Winter Charge 31 Compressor Motor Rotation(Scroll) 31 Final Checks 31 MAINTENANCE 34 COMPRESSOR REPLACEMENT 34 REPLACING DRIER AND FILTER CORES 34 APPENDIX A—DIMENSION DRAWINGS 35 AIR COOLED I WATER COOLED CONDENSING UNITS 36 TROUBLESHOOTING INFORMATION 52 TROUBLESHOOTING GUIDE 53 Condensing Unit Installation and Operation Manual 3 I H # # R - 030 0 L SK - C D - A Z 0 o Name: oe tt-4 "A"for new KRACK Unit: W Unit Type: � iN - Indoor --Receiver Size: T-Outdoor A-6"x12" R- Remote B - 6"x18" S- Satellite C-6"x23" o W-Water Cooled D- 6"5x 30" E -8 /8"x30" 4 Q. F- 10-3/4"x 30" O U Base:S- Standard G - 10-3/4"x 38" tJ H - Heav DutyH 123/4"x 30" craY M -5"x12" N -6"x15" Compressor Vendor: O-6"x12" F B - Bitzer P-6"x36" D - Copeland Discus X- No Receiver Water Con- S - Copeland Semi-Hermetic denser: Z- Copeland Scroll Air Condenser: A-WC1 X06 td r' A-20X323R1Ftii © Compressor Horsepower: B - 37.5 X 36 3R 1F B -WC1 X09 005 - 1/2HP C -37.5X363R2F C-WC1X12 ►--+ 030-3HP D-WC1X18 Q 72 O 100- 10 HP E -37.5X723R4F E -WC1X24 � `cs F-37.5X724R4F F-WC1X30CA a Alternative: G -WC1X36 0 - Basic H - (2X) (D) H -WC1X42 CA 1 - First Alternative J -50 X 87 4R 6F I -WC1 X48 4 2 - Second Alternative K-37.5 x 42.5 6R 4F J -WC1 X60 til 3 Third Alternative L-WC1 X84 4 Application(Temp Range): M -WC2X48 H - High N -WC2X60 M -Medium O-WC2X72 L- Low P -WC3X48 Voltage Designation Refrigerant: D-208V/1 PH/60 Hz Q-WC3X60 7 P - R507 T- R448a K-208V/3PH/60 Hz R - S- R404a R -449a M -460V/3PH/60 Hz X- NNone 22 V- R22 Q- R407a P -575V/3PH/60 Hz F- R407F U -380V/3PH/50 Hz 4 PN 0708232_D 5 , 4s INSTALLATION INSTRUCTIONS SHIPPING DAMAGE All equipment should be thoroughly examined '` for shipping damage before and while unloading. 4 ` ° This equipment has been carefully inspected at our factory and the carrier has assumed responsibility for „ ' :w•• ; safe arrival. If damaged, either apparent or concealed, claim must be made to the carrier. 3 fa c ) Apparent Loss or Damage Ifh 1 _. t ere is an obvious loss or damage, it must be noted on the freight bill or express receipt and signed by the carrier's agent, otherwise, carrier may refuse claim. The w.�... __ carrier will supply the necessary claim forms. �' Concealed Loss or Damage When loss or damage is not apparent until after equipment is uncrated, a claim for concealed damage is made. Upon 4 111 discovering damage, make request in writing to carrier -..„.. for inspection within 15 days and retain all packing. The carrier will supply inspection report and required claim forms. 3 RIGGING AND LIFTING 11/2 times overall unit height Under no circumstances should the manifolds, piping minimum return blends or control panel be used for lifting or Spreader bar= moving the unit. Use lifting eyes provided on two tier unit width+1 in. units. On singles tier units, secure lifting hooks to the under side of the base, or use the holes provided in the n ' mcni base. The installer is responsible to see that equipment *".41a][1:13 used to move the unit is operated within its limits. ' 1 '1-11 il, Secure lifting hooks on underside of base where sheet metal ends. Figure 1-1 Rigging and Lifting Condensing Unit Installation and Operation Manual 5 6 MACHINE ROOM REQUIREMENTS Exhaust Fan The equipment room floor must solidly support .r."fir" r the compressor unit as a live load. Ground level " '' Baffle It installation seldom presents problems, but a t ' mezzanine installation must be carefully engineered. B min ., L qg 0 , When a Remote Condenser Unit, Satellite Unit or t' " a Water Cooled Condensing Unit is installed, the ft � � e \ min i ventilation should be 100 cfm per compressor unit �� horsepower. The air inlet should be sized for a . ' it s ,,,,,, ,i\-\\ maximum of 600 fpm velocity (0.5 ft2 of air intake r per compressor unit horsepower). F 2 ft le 4460. min The Indoor Condensing Unit ventilation should be ". 750 to 1,000 cfm with 2 to 2.5 ft2 of air intake per ... compressor unit horsepower. ....% ,tee •' . *-.. . ..141F Jolal '` Exhaust Fan SIP The ventilation fans should cycle by thermostatic i i ftor control. min 1. qt All machine room ventilation equipment must be field supplied. Check local codes for variances. pi tt. , 4 ft Proper ventilation provides airflow across the 0. mi" ' o compressors. Duct work may be necessary. �". A 4 OP ININE e Provide a floor drain for disposal of condensate that 4, t s may form on the compressor unit or header defrost `. assembly. Al .°.1 , Equipment must be located in the machine room to mow! ame fr min provide enough working space for service personnel, 'i �� , „; , ,, ' x,!. and to meet electrical codes. Figure 1-2 Machine Room Requirements Consult NEC National Fire Handbook, particularly (Side View) "Installation of Switch Boards"and"Working Space Requirements." Figures 1-2 and 1-3 illustrate some suggested distances. Refer to local codes for each installation. Y PN 0708232_D Condensing Unit Installation and Operation Manual 6 PN 0708232_D 7 _.....--- , . . plIara;11Y111mYlm!Ilniryv,I=41.:44.v,tlumurxt t i aft Oft min min ®: 2 ft min Baffle t, • "I - I emu tt �.. 4 3 ft max • ./�"= 2 ft min /s1- sae .:.* ammo * soitoune*•, �1t'` i_'r '�.Mi_..so ams 'aA0001Ns iran€....�reummis,*. 5 f Figure 1-3 Machine Room Requirements (Top View) UNIT PLACEMENT Maximum Allowable Clearances When piping a suction riser the maximum vertical When setting the units, plan in relation to the distance between P-traps is 20 feet. rest of the equipment to be installed and existing structures. Some minimum and maximum When piping from Remote Condenser Unit to distances are listed. Note: Piping equivalent is not a Condenser, the maximum allowable piping the same as linear distance. equivalent is 100 feet. Minimum Allowable Clearances SHIPPING BLOCK REMOVAL Between an Outdoor Condensing Unit and any vertical structure (except open chain link fence) Hard mounting is standard on all units.All piping the minimum allowable distance is 4 feet. was carefully design to absorb the vibration that is generated by the compressor and fan motors. Between one Outdoor Condensing Unit exhaust and another Outdoor Condensing Unit intake the When the spring mounting kit (optional) is minimum allowable distance is 15 feet. installed, the unit is shipped with blocks under each compressor foot to prevent transit damage. Between the sides of two Outdoor Condensing Loosen the mounting spring nuts at least one full Units the minimum allowable distance is 5 feet. turn and remove the blocks. t On Indoor Condensing Unit, Satellite Unit, Adjust the torque on the mounting spring nuts Remote Condenser Unit and Water Cooled so that the compressor feet are 1 inch above the Condensing Unit, the minimum distance between unit's base. the Control Panel and the wall is 3 feet. On Indoor Condensing Unit, Satellite Unit, Remote Condenser Unit and Water Cooled Condensing Unit, the minimum distance between T� ' the Control Panel and another live panel is 4 feet. On Indoor Condensing Units the minimum 1 fii Shipping distance between the Condenser Air Intake and a "' `' . Block louvered wall is 2 feet. Figure 1-4 Shipping Block Removal Condensing Unit Installation and Operation Manual 7 8 TWO-TIER APPLICATION T, PRESSURE RELIEF The two-tier unit is only an option when it is It is standard that a fusible plug is installed on all installed on the heavy duty base (option) and the receivers. The connection size for piping from it is designed for indoor, water-cooled, remote the fusible plug to outside is 3/8"NPT. condenser or satellite application. It is also available as an option a relief valve, WARNING: which replaces the fusible plug, and has the same ,r Two Tier Remote Condenser Unitst Are Front Heavy. connection size for piping(3/8"NPT). WATER COOLED CONDENSER Hush the water lines before connecting them to 1 a the water-cooled condenser. Consult Water Cooled Condensing Unit Catalog for pressure drop, recommended inlet water temperature and water flow through the condenser. r 1 Take appropriate precautions during shipment and moving of unit. Fasten to floor upon final placement. Figure 1-5 Two Tier Remote Condenser Units RECEIVER CAPACITY 4 The receiver capacity is listed on the table below. Capacity - 90% H-series R22 R404a/R507 R448a/449a R407a R407F Receivers 6x12 12.8 11.1 11.7 12.2 11.9 6x18 19.2 16.7 17.6 18.4 18.0 6x23 24.6 21.4 _ 22.5 23.6 23.0 6x30 32 27.9 29.3 30.7 30.0 8-5/8x30 62 53.9 56.6 59.4 57.9 A. 10-3/4x30 94.6 82.3 86.5 90.7 88.5 10-3/4x38 122 106.2 111.6 117.0 114.2 12-3/4x30 115 100.1 105.2 110.3 107.6 5x12 9.1 7.9 _ 8.3 8.7 8.5 6x15 16.8 14.6 15.3 16.1 15.7 > 6x12 13.1 11.4 12.0 12.6 12.3 6x36 41.6 36.1 37.9 39.8 38.8 PN 0708232_D Condensing Unit Installation and Operation Manual 8 PN o708232_D 9 REFRIGERATION PROCESS OVERVIEW In these instructions the following constants are This section details the refrigeration process by maintained to assist the reader. tracking the refrigerant flow through the system components. Heat Reclaim,Demand Cooling, Oil In the diagrams refrigerant flow direction is separation and return is explained. See Piping for generally clockwise and indicated by directional piping guidelines. arrows. Typically, refrigeration falls into low or medium Electric solenoid valves carry the same initial temperature ranges. An average low temperature abbreviations as in the electric schematics. condensing unit maintains a suction temperature of -20F with a low-temp Satellite operating at Refrigeration lines not actually in the cycle being -33F.A common medium temperature condensing discussed are shown closed or removed. Pressure unit operates at +25F with a low-temp Satellite in oil lines will also retain a fixed pattern. operating at +7. Heat Reclaim Coi Heat Reclaim Valve In .22 Check Valvef Condenser Check Valve Oil Reline Oiturn l Separator Evaporator "' Sensor Iffi Oil Line Injection Differential "411441114114 ,4S Compressor halv I war i t * Check Valve ' "° P Demand Cooling Con'enser le 4 4Accumulator Module ;� , Adjustable �� Flooding 41111 t Valve Suction Filter R Liquids Line Receiver Solenoid Fixed Flooding Valve4 *' Sight Glass -Ili— Liquid Dryer Receiver High Pressure Hot Vaor P High Pressure Warm Liquid High Pressure Warm Vapor - Low Pressure Cool Vapor ordlor Figure 2-1 Refrigeration Cycle Condensing Unit Installation and Operation Manual 9 10 , REFRIGERATION CYCLE Beginning with the Compressor, refrigerant vapor I' 111 is compressed and flows to the Oil Separator, !! 111 A hich separates the oil from the discharge gas , . Lilil xx by centrifugal force and screen baffles. The oil I( is stored in the bottom of the Oil Separator and - L.......„7-—-"----mil returned to the compressors through the oil return line. Figure 2-3 Heat Reclaim Valve II 1 The Condenser rejects the heat that must be removed from refrigerant to cause it to condense. 4 For Low Ambient Conditions, Fan Cycling or Flooding Valves are required. These valves may be fixed or adjustable. The adjustable flooding O ; valve works in parallel with a 20 pound differential check valve. Figure 2-2 Oil Separator The Flooding Valve maintains head pressure When an Oil Separator is installed the following in low ambient conditions by restricting liquid components are required: refrigerant flow from the Condenser. This causes • Check Valve on the discharge line after the liquid refrigerant to be backed up in the condenser Oil Separator, to prevent refrigerant migration thus reducing available heat transfer surface and during low ambient temperatures from the causing the discharge pressure to rise. condenser to the Oil Separator, and from that to the Compressor. • Oil Line Solenoid on the oil return line, to prevent the oil to return from the compressor when the compressor is not running. The excessive oil in the carter when the compressor starts, could cause damage to the compressorI ! such as broken valve plate or piston, etc. [ 111 __.x A 3-Way Heat Reclaim Valve directs the superheated discharge gas to either the condenser Adjustable Fixed Flooding or a Heat Reclaim device when energized. When Flooding Valve Valve the reclaim solenoid is de- energized the valve and Differential directs the refrigerant to the condenser. Check Valve Figure 2-4 Flooding Valves The Receiver is a holding vessel for liquid refrigerant that compensates for fluctuations in PN 0708232_D Condensing Unit Installation and Operation Manual 10 • PN 0708232_D 11 liquid requirements due to changing load,defrost, At critical locations along the refrigerant path, and weather. service valves or ball valves allow isolation of components. A Liquid Line Drier removes moisture and contaminants from the refrigerant. HEAT RECLAIM VALVE The Sight Glass allows service personnel to view A 3-Way Heat Reclaim Valve directs the refrigerant refrigerant flow inside the liquid line. to either the Condenser or a Heat Reclaim Coil. When the solenoid is de- energized the valve The Liquid Line Solenoid Valve closes off directs the refrigerant to the condenser. refrigerant supply to the evaporator. When the solenoid is de-energized the high- oi pressure inlet is stopped and the passage between suction and valve chamber is open. When the i - solenoid is energized the suction outlet is stopped and the passage between high pressure and the !Ii valve chamber is open. "B"version of the valve has a bleed port through Figure 2-5 Liquid Line Solenoid Valve the drive piston to the suction manifold.The bleed port provides a vent for fluids trapped in the Heat The Thermostatic Expansion Valve(TEV),located Reclaim circuits during normal operation. in the merchandiser, meters liquid refrigerant - through its orifice to the low pressure side of the system where it absorbs heat from the coil causing _ De-energized the liquid to evaporate. To Suction Manifold { sip Bleed Port *I'll To Heat Reclaim ` dull a. Figure 2-6 Thermostatic Expansion Valve From • Discharge The Accumulator catches liquid refrigerant in the Manifold suction line and provides a means for it to boil off i before it reaches the compressor. To Condenser Valve in Normal Operation A Suction Filter is placed upstream of the Figure 2-7 Heat Reclaim Valve compressor to remove system contaminants from Normal Operation the refrigerant vapor. Condensing Unit Installation and Operation Manual 11 PN 0708232_D 13 Component Testing Remove power to the system. Unplug the Temperature Sensor from the Module.The Sensor -°' t should ohm out between 1,600 Ohms and 100,000 Ohms. , EA" BIr Leave the Sensor unplugged and restart the 1 system. There should be no voltage between t 1 m terminals "S"and "L2"on the Module. The inletMU and outlet sides of the Injection Valve should feel '" the same temperature. After one minute the alarm Figure 2-10 Demand Cooling relay should trip. Remove power to the system. Alarm Connections Press the manual reset on the Module. Using a small piece of wire, jump the Sensor circuit at the female plug in the Module. Restart `" "' the system. There should be voltage between at terminals"S"and"L2"on the Module. The outlet 1 ` $` side of the Injection Valve should feel colder than 1' A .. l.t. 1 t the inlet side. After one minute the alarm relay should trip. ,.a !. 00 0.0 ." —iiLlanimme Remove power to the system. Press the manual �_ emperature reset on the Module. Sensor 0 Remove the jumper wire and plug in the Temperature Sensor. ," "t"" 121:€ w'''',.Y Restart the System. � ' BL SR Injection Valve s4 Alarm Circuitft The Alarm Circuit has three terminals in the # -- 1 Control Module. Compressor Terminal Box fir" Not all wires shown "L"–Common $ ' 4 "M"-Normally Closed "A"–Normally Open To Control Panel ``L" and "M" are wired into the compressor control circuit so an alarm condition removes Figure 2-11 Demand Cooling Wiring the compressor from the line and power to the Module. A manual reset is required to call Alarm Relay attention the alarm condition. The Alarm Relay is activated after a one minute delay under the following three conditions: • Compressor discharge temperature exceeds 310°F. Condensing Unit Installation and Operation Manual 13 14 • A shorted circuit or very low Thermistor Resistance. • An open circuit or very high Thermistor Resistance. Operational Notes Demand Cooling does NOT replace head cooling fans, which may be required on low temperature applications. On indoor and outdoor condensing units, the condenser fans replace the head cooling fan. When fan cycling is applied,at least one condenser fan MUST always be ON with the compressor, so head cooling fan will be not necessary. Temperature Sensor cables must not touch any hot surfaces or the cable will be damaged. 41, PN 0708232_D Condensing Unit Installation and Operation Manual 14 e , PN 0708232_D 15 COMPONENT PIPING OVERVIEW This section deals with the information necessary t for installing the refrigeration lines for a jai e condensing unit. The components are piped as completely as practical at the factory. —sNe\ > t ,. }cA . Use only clean, dehydrated, sealed refrigeration "4. grade copper tubing. Use dry nitrogen in the , , , tubing during brazing to prevent the formation ,3 ' of copper oxide. All joints should be made with Floor Run silver alloy brazing material, and use 45% silver solder for dissimilar metals. WARNING i� *,, Always use a Pressure Regulator on the nitrogen tanks. NI r REFRIGERATION LINE RUNS .. + • Nor r.+.►rsrr•',...1 .' Liquid Lines and suction lines must be free to expand and contract independently of each oF other. Do not clamp or solder them together. Ceiling Run Run supports must allow tubing to expand and contract freely. Do not exceed 100 feet without a change of direction or/and offset. Plan proper Figure 3-1 Supporting Refrigeration Lines pitching, expansion allowance, and P-traps at the base of all suction risers. Use long radius elbows Through Walls or Floors to reduce line resistance and breakage. Refrigeration lines run through walls or floors must be properly insulated. Avoid running lines Avoid completely the use of 45 degree elbows. through the refrigeration cases. When this is done Install service valves at several locations for ease the lines must be adequately insulated. of maintenance and reduction of service costs. These valves must be UL approved for 410 psig minimum working pressure. .�"'' Riser k Insulation Insulation 2nd Layer 44. Support Detail Figure 3-2 Insulating a Riser Condensing Unit Installation and Operation Manual 15 Ti 16 , From Machine to Solid Object When mounting lines from machinery to a solid object allow line freedom for vibration to prevent Reduced metal fatigue. Riser --"— w,... siliiiiiiiiiiN Clamp Here ` '�izi "ti �l c ,.iz �,�;. t kill iii Factory Clamp � ':: 10# 5i%10XPipe 7 PIM ti;;;Diameter jail e. Figure 3-5 Reduced Riser ii....mpoir. a` Factory Supplied Stubs i... r,, Stub sizes provided do not automatically correspond to the line sizes necessary. It is the Figure 3-3 Vibration Allowance installer's responsibility to supply reduction couplings. P-Trap Construction A P-Trap must be installed at the bottom of all Protecting Valves and Clamps suction risers to return oil to the compressors. When brazing near factory installed clamps or valves be sure to protect them with a wet rag to avoid overheating. Using Elbows Connecting Remote Condenser Riser • Discharge Line will be routed directly to the IlliiiiiIN condenser inlet stub with a purge valve at the El ii highest point. • Liquid Return line will be pitched downstream � "' and provide trap less drainage to the Receiver. Keep this distance as short as possible Purge Valve Location Using P Trap The purge valve will be installed at the highest Riser point of an inverted P-Trap, with at least a 6" \ow)11 rise. (Use with approved recovery vessel.) WARNING Vent the Receiver Safety Relief Device properly. Figure 3-4 P-Trap Construction Reduced Riser • When a reduced riser is necessary, place the reduction coupling downstream of the P-Trap. PN 0708232_D Condensing Unit Installation and Operation Manual 16 P.O. Box 821127 Vancouver, WA 98682 N 0708232 0 LAIR 17 Oregon (503)285-8181 REFRIGERATION Inc, Washington (360)891-6783 Toll-Free(877)891-6788 Refrigeration •Air Conditioning•Heating Fax(360)882-2711 24/7 Emergency Service LA CCB#170015•WA#PpoOo ARRR19482ccRI948KC Fixed Flooding Valve Piping Heat Reclaim Valve itt i Bleed Line .........= — to Suction s All Piping and Header End of Valves in this ,Fixed Flooding Valve4._ Condenser box are field rw supplied and o`.1/,,r.,,,':`,*/, ,*, L 3"Min installed. Liquid Return Line Rise ,te."`'u .:4)1, e Receiver Heating Coil do To Heat r From'' •Reclaim Heat r /. Reclaim di t '� Bleed Line F if isimmia, . to Suction 12' Min ,- a., Heat Reclaim Valve I" a Adjustable ,1 Differential r, r s rrr rr�ii` Flooding Check , . Pitch'/4"per Foot Valve f Valve Liquid Return �" Line o� Receiver ,/ Discharge bines rE. Ball Valve 1/,,.../2//./.,Liquid Return Lines 0 Check Valve Purge Valve ( Service Valve Figure 3-6 Remote Condensing Unit Piping , Note: The Heat Reclaim Valve could be factory or field installed and depends on the customer request. Condensing Unit Installation and Operation Manual 17 P.O. Box 821127 Vancouver, WA 98682 18 .11) 0 LAIR Oregon (503)285-8181 REFFIG F.R ELON Inc. Washington (360)891-6783 Toll-Free(877) 891-6788 Refrigeration •Air Conditioning•Heating SPECIAL PIPING FOR OPEN litgaM6) 882-2711 uc ion Line 24/7 Emergency Service CCB#170015•WA#POLARRI948KC ROLARR 194820 • Pitch in direction of flow. An open preparation room allows heat infiltration • May be reduced by one size at one third of run from the rest of the store at a rate which may load and again after the second third. Do not jeopardize total refrigeration performance. To reduce below evaporator connection size. protect the rest of the refrigeration system, open "",: • Suction returns from evaporators enter at the preparation evaporators must be piped with a - : A- top of the branch line. Crankcase Pressure Regulating Valve (CPR). 4106 the CPR is field installed in the suction line(s)from the evaporator(s). And the installer is responsible I for proper adjustment of the Valve. (See: Control .. _... .----- Valve Section for adjustment procedures.) Suction Return RUN LENGTHS AND EQUIVALENT FEET Emst When figuring run lengths, angle valves and 90 �. degrees elbows are figured as additional straight 3" Loop pipe. The chart below gives equivalent lengths for Liquid Line Take Off these components. Figure 3-7 Line Piping Inside Merchandisers Tubing Size Angle Valve Long Radius Elbow 90° Liquid Line—Off Time and Electric Defrost '/z 6 0.9 • May be reduced by one size after one half of the s/s 7 1.0 case load run. Do not reduce below evaporator 7s 9 1.4 connection size. 1 Is 12 1.7 • Take-offs to evaporators exit the bottom of 1 3/8 15 2.3 the liquid line. Provide an expansion loop for 1 '/s 18 2.6 each evaporator take-off (Minimum 3 inch 21/s 24 3.3 diameter). 2 '/s 29 4.1 3 1/8 35 5.0 Field Connections of Heat Reclaim 3 '/s 41 5.9 Each circuit of the heat reclaim coil is tagged to 4'/s 47 6.7 correspond with a specific condensing unit and must be connected only to that unit. Table 3-1 Equivalent Feet for Angle Valve and Elbow 90° The supply and return lines are to be installed as (ASHARE 1994 Refrigeration Handbook) shown in Figure 3-6. INSULATION Notice that heat reclaim could be factory or field installed, and depends on customer order. Additional insulation for the balance of the liquid and suction lines is recommended wherever condensation drippage is objectionable or the -05 lines are exposed to ambient conditions. • 40 PN 0708232_D Condensing Unit Installation and Operation Manual 18 PN 0718232_D 19 REFRIGERANT LINE SIZING General Information This document supersedes all previously published line sizing data — including planning data, installation instructions, or other stand- alone documents. Refer to ASHARE standards for line sizing. The installer is responsible for sizing the piping for each application. Refrigeration Line Stubs Out Stub sizes do not match line sizes. Reduction fittings are field supplied and installed. These are general guidelines. The installer is responsible to account for any factors which may affect the system. Condenser Line Sizin A Condenser Line Sizing chart is established for an equivalent pipe run of 100 feet. For longer runs use the following formula: Table Capacity * 1/100/Longer Length = Longer Line Capacity Note: This formula applies only to remote condenser lines, and only to longer runs of these lines. A 25 ft run does not necessarily have double the capacity of a 100 ft. run. Condensing Unit Installation and Operation Manual 19 20 ELECTRICAL OVERVIEW To each condensing unit provide; one 460/3/60 branch circuit, The scope of this section is limited to main field one 208/3/60 circuit—see Note 1. wiring connections, and to the control panel. • For 575/3/60 Condensing Units: The standard Condensing Unit is available To each condensing unit provide; wired for 208-230/1/60, 208-230/3/60, 460/3/60, one 575/3/60 branch circuit, 575/3/60 or 380/3/50 compressors (note that some one 208/3/60 circuit—see Note 1 compressors may be available in all voltages). In • For 380/3/50 Condensing Units: either case, the control circuit is 208-230V. To each condensing unit provide; one 380/3/50 branch circuit, one Neutral The standard 460V and 575V Condensing Unit require two single point connections, one for Note 1 —Omit when single point connection kit is «' the compressor (460V or 575V) and one for the used. control and defrost circuits (208-230V). When a single point connection is specified for 460V and Unit Cooler Fan Wiring 575V condensing units, the factory will install Off Time Defrost: the unit cooler fan should a transformer to supply 208-230V for just the be wired from the condensing unit panel or an control circuit. outside panel. Refer to the serial plate located on the control Electric Defrost: the unit cooler fan should be panel to determine wire size (MCA) and over- wired from the condensing unit panel. current protection (MOPD). Evaporator Mounted Liquid Line Solenoid GUIDELINES FOR FIELD WI.RING Power for a liquid line solenoid can be picked up from the fan circuit. Condensing Unit components are wired as completely as possible at the factory with all Cooler Door Switch Wiring work completed in accordance with UL file. All The switch must be mounted to the cooler door deviations required by governing electrical codes frame, and must be wired to control the field will be the responsibility of the installer. installed liquid line solenoid and evaporator fans. I� Door switches are wired in series. The main lugs in the compressor control panel are sized for copper wire only, with 75° C insulation. Sizing Wire and Overcurrent Protectors All wiring must be in compliance with governing Check the serial plate for Minimum Circuit electrical codes. Ampacity (MCA) and Maximum Overcurrent • For 208-230/1/60 Condensing Units: Protective Devices (MOPD), follow NEC To each condensing unit provide; one guidelines. 208-230/1/60 branch circuit, Defrost Controls • For 208-230/3/60 Condensing Units: The basic defrost circuits are shown on the wiring To each condensing unit provide; one diagrams in this section. 208-230/3/60 branch circuit, • For 460/3/60 Condensing Units: PN 0708232_D Condensing Unit Installation and Operation Manual 20 PN 0708232_D 21 Other Controls Generally, in a control circuit the loads are When other controls are used, refer to the limited to coils, lights, and bells. By identifying manual included with that control. one control circuit load and "reading"the schematic to the load, the sequence of operation ABOUT THESE ELECTRICAL becomes obvious. Troubleshooting that circuit DIAGRAMS then breaks into test point terminals. Take only one circuit at the time. All diagrams show the electrical system DE- energized and in refrigeration mode. Diagrams Important Note: emphasize individual circuit continuity and The electrical diagrams in this section show logic. They aid troubleshooting and testing by circuit logic. They are not intended for identifying point-to-point connections. Color troubleshooting or design work. For unit cooler coding wires allows easy transfer to the control fan power, electric defrost sub circuit balance, panel. The diagrams normally move from and other location specific circuits refer to the left to right so the user can read the series of schematics on control panel. components and their terminals which make up a circuit. Condensing Unit Installation and Operation Manual 21 T N N POWER SUPPLY I a DIAGRAM—COMPR/DEFROST/UNIT COOLER:208-230V/1P H — THERMOSTAT: 208-230 VOLT 12 O 61-6...x.-0.—"E •B --•16PHASE rLI O O�jC3-,X.-o- 1 B }I--- 171 AWN PROTECTOR 9 B 8 B B WITHOUT UOUID • • • • u u l„�% ��• UNE SOLER • • • • UNIT /— VALVE ��/� �r COMPRESSOR • • DEFROST • • COOLER • • NOTE: ,_, PROTECTOR PROTECTOR FAN CONTROL CIRCUIT PROTECTOR NOT ALL COMPONENTS ARE USED ON A SPECIFIC ` PROTECTOR • „ (.Ti „ „ APPLICATION. DELETION OR ADDITION OF Par Lime D V: COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY FAN CYCLING B DEFROST III D” °j, AND PHASE BALANCE. ct SEE DWG 11181161001 �' COMPRESSOR e 1 a CONTACTOR CONTACTOR FAN It PROTECTORS MAY BE EITHER CIRCUIT BREAKER OR FUSES. I��,_ �� DEER.SUB ' F 7 Aar cigri iur -- ��Q, BRKR DIPG_ (SEE DRAWING NO#3010445 FOR WIRING OPTION BLOCKS) y-1 FAN CONTACTOR ii,0, /2 RAN A'.Weel ( \`` B __ N 1H53050001 1H p APPLY 1RAWG CONDUCTORS ON CONTROL CIRCUIT WIRING BELOW R yr. .--BLanti CRANKCASE BL--o- o-B ,-� _7"`."""... _ �. .. -R ski�.i• B CH HEATER CH .. L2 f” m _.V. X ill" OIL SEPARATOR HEATER L2 �. O im R OHO D D- ' ',N AUXILLAR ssB I L2 O OIL " X :� CONTACTOR SOLENOID MI B — CIDX _ R !IR OR B __ w _ _ _ __ .a �. F--1 C PHASE �'V` 71))/ I i© B L2f- MONITOR ® y 1-NOCONT. FAN DELAY rSTAT I OR ,.....,:\ I UUN�NRL�COOLER L2 BL .®• I— F--` 0 -1 OR P 3.B i , MER-i 11 Ce F.'9674-"&""m".. OR - N sncE -°°TO ORANGE OR •Q. B til', coxxccmx LOCATED IN OCCANS000 SIAIUR BOX _ m�Rn�ixo w OR B B =i (�} 110.0 COOLING fON B -� M© G7� Y-�Y '�^ -R '� DL-o--BL-�Ay P,%j ORQ�• m4,1_2 120.1r BBT 2 o-} -� E I E ! 7� IM SOLENOIDR0IDN `) RE I 1 r - T'STAT I JUMPER pow NM. a.. R j m,®Y-�T�BL B UNIT COOLERS L2 I WHEN USED e I TERM BLOCKS °._- B �rN,��o--rX, SB B aR SR R-ado cmouse c� y ° 8—e- . B' t. R L J q� L J PUMPDOWN o vmxart dl ENURE CosmoE I5 AI DEFR v� SWITCH p q-r C•R orr oImoN NIRS ND O TERMINATION UOUIS UNE ..f snra eux ro oRp+cE 7'STAT SOLENOID VALVE I, t[IP 9s RMECOON SOLENOID N (FIELD INSTALLED SV) """ - """ .. .,._. ..,_„ „,_ .,....,_.-- M N OC N 4 4. N N M N M N POWER SUPPLY 13 O OT8-x-p--....... • _ 20 B-230 VOLT L2 O O O-.XI-a_____-S B r 3 PHASE L1 O q1` p..__._._j B _ - 80 HERTZ 1 MAIN PROTECTOR $ B B B 8 I _ • i ' B B B B B B B 8 B 8 O 0 0 Y Y V iramme w • • • UNIT o 0 o NOTE: — r • • �� DEFROST • • •• COOLER » COMPRESSOR • r • ilii PROTECTOR FAN PROTECTOR CONTROL CIRCUIT PROTECTOR PROTECTOR MONITOR „ „ „ „ „ „ NOT ALL COMPONENTS ARE USED ON A SPECIFIC %� uu= APPLICATION. DELETION OR ADDITION OF B ' ' Y ill UNIT e B B1 COMPRESSOR • " COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY DEFROST c°oLER CONTACTOR AND PHASE BALANCE. ?/I FAN CYCLING CONTACTOR FAN � " " 0 11-O B SEE DWG 1H81162001 II 0 CONTACTOR I PROTECTORS MAY BE EITHER CIRCUIT BREAKER OR FUSES. 0 1 t-0 B .111.111.11. � DDB Q o s h•-0 B #j �1 �' - KR DAG FR SUB ,Q! R tn FAN CONTACTOR „P„ n„„ „,•, 24�µ Vi,µ bEM, (SEE DWG# 3010445 FOR B L1 R ��f�el ,FWIRING OPTION BLOCKS.) �, CRANKCASE BL HEATERe—d*�•B R —B ISI L2 — 1H53054007 I H R B X -- INTI OIL SEPARATOR HEATER L2 --- v ct Ro-i e—B B ^^` '�` MC-AUX O OIL L 1 CONTACT —' SOLENOID X — ( L2 R --- 0 I° B x °R ,ai'. L2 NO FAN DELAY T'STAT I +® OR ,® B ^ sa. WI SDDOR BOX IBL OR:rU'NIT COOLER R -TIMER _ ®* „ -�-'4 -J OR P---4E).---8 L2 O Q N III OR OR B -.I X =r ,VICCOME..MF.TEO W COMM.moa �- Ct --- COME OL FM.CONTROL 1 L2 ®© T COMSEI•E 20,]O.w.BD OR-- -B , R I ode I BLS-BL �1;� %O pt jor Bl OR Hw comic FAN O Rb r X ^q" REFRISTAGPRESSURE COMO. CONTROL urrnc LOW (,> ,HlMpp:T' T I O WHEN USED • Yo--BL-d-Low Pod Eo-B B I UNIT COOLERS I TERM BLOCKS • B _. L[N, A [D SB B _F<R SR R-✓ COMM -Y B B 1 L J L J E PUMPDOWN NODULE • B _...... i--+ TER DE . I ® SWITCH wort BCW 1 N URUED CCM. T'STA7 LIQUID LINE ,�DM 911C2 MIR m SMENOID �y SOLENOID VALVE A (FIELD INSTALLED SV) NI B MUS est = 00 '=' ^� C O U '1r N -•N POWER SUPPLY 13 o c-_„ix--c—o C”JNEU7RAL 380 VOLTTERMy- ..". • B 3 PHASE L7 -0;�,{,^(}'_X�.,--o—e m---..---....---o-..-B.......--.... _......•..«.a w....,...«...a..........«..a.....m. BLOCK 60/50 HERTZ `'JLf"d"""='^ 1 B 1 MAIN PROTECTOR B B B B B B B I B B- B I B B B A OUFRt I B PROTECTOR W PHASE MOTOR Op s WSW O}s s • • • 116 0 1 1-0 B NOTE: ,ME MONITOR • • •0t., /•• • • rni 1-e-44-4- NOT ALL COMPONENTS ARE USED ON A SPECIFIC ' PRIIFCLOR —e•I I-+3 APPLICATION. DELETION OR ADDITION OF `•• o• 1 •• •• •• CONT TAC COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY Q L' 0'FAIN IA wM so NS F.dN AND PHASE BALANCE. •• B B 0 DDB �.l. A FAN CYCLING W PROTECTORS MAY BE OTHER CIRCUIT BREAKER OR FUSES. CRIFFESSOR '11 Q op{+ \\ SEE DWG 1H81163001 L 1 t �E.� • a a a v�B R--o-1I-0—R•R _ B.N B no B •B •B ... B MOTORCONTAHEAD COOUNG FAN Ct 41\ w_-__-_•-• CONTACTS DEER SUB BRKR DIAD.___-. S,yr -B O R--0-I I"0— 1 B -1-• -- R R ( CCt ONT CTORCC s°LOTDNOID 1••• RBLBL•o 'BL (SEE DRAWING NO#3010445 LI L7 Li B N CN° E°CHS rMI 2 m FOR WIRING OPTION BLOCKS) CD 'L3 ( -:!a SEPARATOR R I 8 OR NEAru ot •--TIAER._... sr,..,,,,,. R...... te�R�'' .._.B.... .{....�.(- ...._%�._...« w,..�,......... ........... ........._.. ..._..,.._...,............m.J_........___....._...,,.,,,,,,. I B cm. �O BPHASE °DR- __ FAN GOAT TSTA7 r 11-153056001 H ONO BL 40. - •/ : - - _ J ® ® OR MC .-B-, 1:d rh ( WRNOIR OL FMWRE CONTROL Ct 1.' I T+'`N ,� --_ R �E BLUE O p ,1), B_..._ ....11 3 _..................--- Ea 01ON LOGE n IN 000E STATOR 000 ......_ _...- ._ ..... [ °AFFuu FAILURE sBCOMP.. .n OR OR L CH B , % V"O�R---�v 8L-•-BL ©� CR �O� BL L M F�1 R I ' .G L M b• �ot OR i--T r5 Imo, rT L__� pRco.aURE CPflOIIMUOLE ...__ 240 B u PR69° 01NI WM�M xMM Lt o >--Y-�-s-BL--o-s+8 t>Ar G LE 0 R'wEr'TS'!AT Ao ( DEwND B B � B O o I UNIT COOLERS I T LIOCCLE - cn I TERM BLOCKS F R WRAF 96RFLiEcnN LLTJ o-LXJ SB BR SR R�r SOLENOID 72 '0TERMINATION MOD Q T'STAT SOLENOID WERE (FIELD INSTALLED S/) A I N M N CA O N O Z_: CI' N trl N Ln N f POWER SUPPLY L3 j 575/460 VOLT L2 a0_,x"Q"""'-"`3—B 360 PHASE L7 O 0 OO-,X,,0..-----E-- '-B' E HERR '_.`_-o-o o.-x.-o----..--..-a_811 �..° NOTE: AWN PROTECTOR 1"---- S B B B : B B : B B B NOT ALL COMPONENTS ARE USED ON A SPECIFIC B APPLICATION. DELETION OR ADDITION OF O � • " " " " " " " " COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY a „,,a1,..„,,, o ifil DEFROST . . . CpOITLFR ; ; COMPRESSOR . . . AND PHASE BALANCE. FUSESPROTECTOR FPA1 PROTECTOR CONTROL CIRCUIT PHASE PROTECTOR PROTECTORS MAY BE EITHER CIRCUIT BREAKER OR FUSES. PRIMARY PROTECTOR MONITOR am 575V/460V/ n w n w w w w w w .`��L2 0 �� uu: vu ECONDARY \I DEFROST " " UNIT ° " ° COMPRESSOR 0 0 0 208-230V FAN CYCLING cbNTAcroR � LER TT T coNrncroR (SEE DWG# 3010445 FOR TRANSFORMER B SEE DWG 1H81162001 �OB 0 0 6 ODB WIRING OPTION BLOCKS.) L. c�_ fl fl CONTACTOR FAN w w n FUSES = DEFR.SUBI � ...'�'' BRM2 DV.G. (J FAN CONTACTOR ii I FAN it FM N,nw M 00 N FAN N nw \©` 0705042 I// R B �. N '' C s BL CRANKCASE BL-I-f 6 R HEATER F CH 4 L2 ------'------8 �Oj B } {.. . R—F�"I�--Bl4sa:lJ�.OIL SEPARATOR HEATER �' ""'" -"""^".- B_ L 1 CON ACTOR 4 SOLENOID or -r OR Dm #0 ` — R m E - l OIL MUM ca . I RELAY I 0 HMO OM B FH15E �C R L _3�Fe.J�Y �Or .Y L '77-,14 .GR!"'.B A IA, ..i 120BV I **MN AM) Frx uonrgt I %�% ' OR mi mxr. SSO�UpD��ESTATE N7{ p 12C,/4_1 {.M 7�Q• -B �[ NO (WHIEI7 REF 'TS PTH''''aRC 240z B 113 OR •®• B O R i #01 _ To-NC' OR P •e• B L2 Ct B `OR CH B R012 I BR 7 e ¢, TO HVAC CONTROL �U� O PANEL 120V 1 BL— I _ - _ - - - -'-E1-s L _. R Y-�o--Bt. g B '0 radeB 'r" OR Cr- 0 Y �O� m......... 120VY • '".__'_Y- B B SEWINGRS ...._z4@Y._... L#02 J '©` B KW carters O PRIMARY (WHEN REG) � L7101! .,..e..,....... PRIMARY ..�._.A.�.._,._..R...�6..__._s_ SOLD/On .�R SECONDARY #0 #01 #02 #03_ - CABLE _ Ez1 Q C2. B ice+ "_.,""""._....'..----' ... RELAY BOARD N .-_-..r.._ ri B H AI M oo C4 el ev O_ v O Z O 00 U N POWER SUPPLY L3 PO1rx,{j 57$/460/360 VOLT -- © B—..../--------4 3 PHASE Li o-C1---... O © B 60 HERTZ o0oxo B B B j "`� NOTE: AWN PROTECTOR B 616161 NOT ALL COMPONENTS ARE USED ON A SPECIFIC B APPLICATION. DELETION OR ADDITION OF DEFROST • ,�• UNIT O tEB — COMPRESSOR . ; 11 N N. N SMALL MEDIUM X—LARGE UNITS POWER SUPPLY: LARGE UNITS VV • . B 1 N-2Y 0-i w 1N-2Y-3Y-4Y-5Y-6N 0-1 w 1 N-23Y-45Y-6Y 2 0 8 V/1 P H B • B B 0 ,I O B 1 1 l B a I B O B FAN FAN CONTACTOR -"" CON AACTOR �Fµ.... °° "°T°R ( ( CONDENSER FAN ARRANGEMENTS FANS 1 '2 FANS 1 2 3 4 5 #6 FANS #1 #2 #3 #4 #5 /6 11, 8 1N-2Y-3N-4N 0-11-0' 1N-2Y-3Y-4N-5N-6N 1N-234Y-5N-6N O Cr i 1 o a P O0BB SMALL�� 801 1 a a Ora1FAN AN CONTACTOR CONTACTOR FAN FANS 1 #3 #4 FANS 1 6 CONTACTOR i2F1r- 44- 114- FANS #1 #2 #3 #4 #5 /6 O • B 1N-2Y-3Y-4N * : B 1N-2N-3N-4Y-5N-6N 0-i w 1N-23Y-4N-SN-6N 1 • I It II PI FAr • + EINININ MN e �� B B a 11 o B O MEDIUM B 0 ! 0 B CONTACTOR CONTACTOR FAN FAN .••-� ': CONTACTOR ,�pp ,p ,p CC1 FANS 1 #4 FANS 1 2 5 A 44. 1 z d'— FANS /1 /2 #3 #4 #5 #6 .._ __...... ... .., ... ....= Ct O O 1 B 1N-2Y-3Y-4Y 0-11-0 1 N-2Y-3Y-4Y-5N-6N 0-I w 1 N-23Y-45Y-6N LARGE o a i i-o-- FAH ... R B l '� CONTACTOR - CONTACTOR FAN �'''`] �_'`'1 FAN 3-4CONTACTOR Q. FANS 1 2 :3 :4 FANS 1 2 3 4 5 6 FANS #1 #2 #3 /4 #5 /6 O O O . B 1N-2Y-34Y 0-i-0 1N-2Y-3Y-4Y-5Y-6Y 1N-23Y-456Y •-....—,0 7 \-......../0 X—LARGE -� 0-11-0 D R : B 1 1 1 1 1 • 1 0 • 0 fi O I FANI a B bbb�� CONTACTOR = CONDOR F'w � SMALL UNITS = 1 FAN ' '� CONTACTOR r cd FANS #1 #2 #3 /4 FANS 2 3 4 5 6 I MED UNITS = 1 OR 2 FANS 4-4 FANS #1 #2 #3 #4 #5 #6 LARGE UNITS = 4 FANS 0-1 NOTE: X—LARGE UNITS = 6 FANS NOT ALL COMPONENTS ARE USED ON A SPECIFIC 1H81161001 1 H APPLICATION. DELETION OR ADDITION OF = COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY bq AND PHASE BALANCE. PROTECTORS MAY BE EITHER CIRCUIT BREAKER OR FUSES. M G N N 00 '7 O- N 0 U 4 0o N SMALL MEDIUM X—LARGE UNITS LARGE UNITS POWER SUPPLY: 1N-2Y e 0 i,,vR 1N-2Y-3Y-4Y-5Y-6N mr :'� e 011006 6 Q i ,N-23mom Y 208V-575V /3PH • FAN d •-O-i I OIIIIIIIIIIIIIIII 'C� FAN CONTACTOR FAN CONDENSER FAN ARRANGEMENTS CONTACTOR FANS 111 ,",`�jg - CONTACTOR ;ajl �,�•1 A2 FANS 1 i+ ir �6 �r i7 IAr &. )� - M FANS #1 #2 #3 #4 #5 #6 1 N-2Y-3N-4N 1N-2Y-3Y-4N-5N-6N 1N-234Y-5N-6N O SMALL : . .M1111111111, : . 4, : IIIINIIIIIIIIIIIIIIIIIII : . FAN FANli. ' ' II nFAN CONTACTOR CONTACTOR CONTACTOR Ct l`ii,FANS 1 2 '3 '4 FANS '1 '2 �3 4 '5 6 1 N-2Y-3Y 4N FANS #2 3 #., #5 #6 10 1N-2N 3N-4Y-5N-6N • -_ H. oof o g 1 N 23Y 4N 5N-6N MEDIUM b � ...i., oa P . : a B as e o ii o B . . �� FAN a FAN a CONTACTOR •� FAN CONTACTOR _•� •� •� CONTACTOR ,{�+� �* 1 2 '3 '4 FANS s �' .Et`` tY,._. .,...,.,___ _, FANS 1 2 �3 4 5 #6 FANS #1 #2 13 #4 #5 #6 `� . 1N-2Y-3Y-4Y 1N-2Y-3Y-4Y-5N-6N R o i • : 1N-23Y-45Y-6N aj 7:1 FAN - 6 o i o R 0 LARGE FM CONTACTOR • CONTACTOR• ' FAN i - CONTACTOR FANS '1 :4 FANS 1 '2 3 '4 5 :6 � IAF A FANS #1 #2 #3 #4 #5 #6 1N-2Y-34Y 8 0 1 F-0-3 1N-2Y-3Y-4Y-5Y-6Y ��I 0 6 1N-23Y-456Y OO CD X—LARGE by �� B B. 9 O I I O B (�('1�7 .-r �.. eo�oB 1 FAN A� CONTACTOR CONTACTOR "tiff' FAN FAN CD CONTACTOR Al FANS I; r I� iZ �I�• SMALL UNITS = 1 FAN o FANS #1 #2 #3 4 FANS #1 #2 #3 #4 #5 #6 MED UNITS = 1 OR 2 FANS U LARGE UNITS = 4 FANS NOTE: X—LARGE UNITS = 6 FANS NOT ALL COMPONENTS ARE USED ON A SPECIFIC 1H81162001 I H APPLICATION. DELETION OR ADDITION OF A COMPONENTS MUST MAINTAIN CIRCUIT INTEGRITY AND PHASE BALANCE. PROTECTORS MAY BE EITHER CIRCUIT BREAKER OR FUSES. N M CI 00 O N O 7- A. CO N : vim '> CT N C) N INSIX COPELAND DISCUS,SEMI HERMITIC(COPELAMETIC).SCROLL BITZER ECOLINE COMPRESSOR 'U/ REFER TO TERMINAL BOX & TERMINAL PLATE FOR MOTOR CONNECTION BLOCK DESCRIPTION cTH NE O SCROLL zF/ZB••K5E BASED ON MOTOR VOLTAGE. A-COMPRESSOR TERMINAL WIRING WITH NEW CORESLNSE DIAGNOSTICS m..__...._.._.....-.....,..._.._.._......__._._.... -._,.._-_ WIRING■ _ ........_.-.........,_, .,,...,_ C-SOLID STATEMODULE WIRING C-TRAX-OIL P wR°sONn Rat mFa mlL IODMPR D—UNIT COOLER FAN CONNECTION I aid E-SCROLL LIQUID INJECTION 2 Ewa pm?, w• w�1I MIS M1 TO pR�---°..,-1� SE-B3 HUNIT ENSERR FAN FAN DELAYAT'STATCIP : mir.;: BR 1 M2 R " F-HEAT TAPE WIRING 11"iilf"77 ��REI� IM OR COOLE N 12 TO °I -K1 J-UNIT COOLER - HEATER SAFETY ` .__tril To SE-c3 K-PHASE MONITOR TIME DELAY RELAY 'SST.. L-COPELAND SCROLL ZL/ZB**KSE WITH MNO VOLTAGE MUST COME IN CONTEFAN/OIL P D pNEW CORESENSE DIAGNOSTICS _WITH TERMINALS 1,z,2,4,BI.BzRELAY 2060 N-CONDENSER FAN WIRING m �vawMw awnua P-ECM MOTOR WIRING -.„ • w1°I r —B B 1N0ali .0.,, p? R O 9 r, '1� Liquid Injection Shut-OR 220088-23J0o/2ER#J 111H ` `;� • REFERANCE—EATON ADJUSTABLE TIME DELAY (WHEN USED) SCROLL ORrWGE WIRE CONNECT TO BLUE TARE � I CMCOIMPRESSOR FROM HIGH PRESSURE CONTROL NOTES: IIIIIA OR MORE cora DAM TO L2 UNE ON Q , (IF USED)B OR IF OIL FNUJRE CONTROL IS USED EA QD-„TIMER .AU)KUARY 1.Remove demand signal wire from terminal"0'when i �_I' AR ,-- ---N 1 R -^/IC -- CUT PIP3 ORNWE WIRE R��1 CONNEC CONNECT TO BLROM le UE A1(L1 AZ L2 PROTECTOR COMPRESSORS E2 Controller a applied(Dement Thru RSJ85, R'0O1 DTS .. , j • SO.Cat FAN _ 6 NON SCROLL ED PORE w r R mu Dg ig ...ORIRD A IGE RE TOIOR CONDENSER FAN WIRING (IF USED) FROM HIGH PRESS.CIL FROM III /I/ •®• Weir Lai -. w �coM)o—�.... TIME DELAY ............_.«ssPc�aioa�coNrCON"Ac CONNECT WA FAN DENSER ,71 ____ -______- _ _ ..1 ADJUSTABLE SCROLL COMPRESSORS CONTACTOR 2 4 UNIT COOLER FAN CONNECTION STANDARD TIMER SPPCI— FAN FAN FAN FAN FAN FAN XPRTI AND CPC IPC JR • FOR THIS APPLICATION SINGLE CONDENSER FAN li �I — �O� - RED WIRE TO USpuRGE T-STAT REQUIRES CONTACTOR ALSO. Ju own,_ / OR IF NO T-STAT RUN RED WIRE �'� - _ ■—� H - , BI CONNECT FROM NOTE:FOR FAN CYCLE CONTROL SEE FAN CYCLING DRAWINGS Ct � T BIM WIRE FROLI Twxoa #1H81161001,#iH81182001,#11181163001 BL Helve 4NTr - REFERENCE HEAT RECLAIM WIRING TO TR . ...room ° NC. LEGEND: 0 TERMINAL BLOCK IN awa WIp H u row Rom _" 1 -.—{�-�—.-B ® 2 • HSZ 4 MAT OR CONR call RRMKau NOR.,CLOSED 4U� R, (M[i f ® / COL IDENTIFICATION BM ❑ CoxFiCts ° ^ Ct COPELAN 50X05 3-0 NP LOAD ILIEMM SOLENOID fO to r W.N= e 2 NO 14V SHOWN H //' Mc OBHN50050 FUSE NORMALLY000lO OPEN ly , P PUMP OUT©440 MELLOW FC CORD r aXnLO EI a TIME OF1AV RELAY SOLENOID 208/2300 RED HEAT RECLAIM CII CRANKCASE NEMER TxF1UVA p�,p PO. Wo — 3-d SOLENOID RCF NEAT RECLAIM UAW COOLER FANS OVERLOADN OC DEFROST /jy/ CURRENT SENSING RE1AY r^" (NHEN REG'D) wcmr AUXILIARY CONDENSER m 4FTRo4T T11BWo4w 4PUCE • CONTROL YnRNo LLAVON - U EBREAKER FAN VOLTAGE PHASE TAPE OR B RawLOCKOUT °R COP e w cDPB.wD SCROLL 7 I/2 w AND UP MOD IwmwN SOLENOID PROTECTOR / N. CONDUCTOR COLOR wRort MNMM RHAr CONTACTS P B moo INJECTOR - NW 0 • 1 r0 BiF/rifit fIK 40f NORMALLY CLA4E0 ' � ^( • 4 ° SOLENOID - B . I o L1 L2 �— L3 Ha UI pwc, PRESSURE o� �0��_ B •.m• 1r)Ts �,Axi 1Fi.�Aj 208V= BLACK RED BLUE I ° " o�re.""ri ON R¢ C�y ,11 H /l #2 #3 #4r Cq IACIORR NaloX YC MAY cat d .... - �// 8 #5 AB ' CAMACIOR COIL i=I W/o rr OIECTO a CONTROL t o NN—F q 4600 = BROWN ORANGE YELLOW O Q. © a =. ti BREAKER E I B 0g-8-•-� CawPRI54oR CoourO �/ / �� xFARA j f SINGLE OR(I I MamR (yl TERMINAL HACK ©/NSim N "um, f 4 CONDENSER FAN 1.866.1811188.8.11.186FN1 cJi=J yf NHIE MRE —�� --0-.------,� ., �r l�I = G HUD COOLING FAN 5750 RED BLACK BLUE '' -----------" Ptl `4Loc R( ,"11.111.21L31 "�+ L �,y ,1� WIRE COLOow _ n.n,u 4 LIJ {�LRiT•'ei�yy (WHEN REQ.()) R RFA Y COOEM MAL h I� NOTES: (" IMMOBL.BLUE ,E„,,:.W LLjIE FIELD WIRING ;„> USE ONLY WHEN USING 4 OR MORE ECM FANS. , OR=ORANGE BROWN FACTORY WIRRG— (/j ONLY USE. ON INGLE POINT 208V POWER SUPPLY OR 380V WITH 1200 CONTROL -- �� - .- P=PURPLE B=BLACK HOUSE WIPoNC—NW erI ._.-. _2/0 PK=PINK CR-GRAY HELD OR HOUSE WRING F==e1 9 (*SIM n 0 v 0 z U 30 STARTUP WARNING Know whether a circuit is open at the power supply or not. Remove all power before opening control panels. Note: Some equipment has more than one power supply. Always use a pressure regulator with a nitrogen tank. Do not exceed 2 pounds of pressure and vent lines when brazing. Do not exceed 350 pounds of pressure for leak testing high side. Do not exceed 150 pounds of pressure for leak testing low side. Always follow current EPA regulations and guidelines. STARTUP WARNING Leak Testing-Visually inspect all lines and joints Always recapture test charge in approved for proper piping practices. recovery vessel for recycling. Isolate- Compressors—Front Seat Service Valves on Suction and Discharge Oil Levels Check oil levels for the compressor: Compressor Pressure Transducers=Close Angle Valves. sight glass '/8 to '/2 full. Open - Valves—to condenser, heat reclaim and Note: Check the oil sticker on the condensing unit receiver. before adding oil. Liquid Line Solenoid Valve=Solenoid should be Test Charge energized. Using properly regulated dry nitrogen and R22 pressurize the system with vapor only. Add dry Disconnect- Defrost Time Clock—Disconnect nitrogen to bring the system pressure up to 150 power to the clock. psig. Using an electronic leak detector inspect all connections. If a leak is found, isolate, repair, and Verify- Refrigerant requirements for System, retest. Be sure system is at 150 psig and all valves Compressors, and TEV's in merchandisers and closed to isolate the leak are opened. After the coolers. last leak is repaired and retested, the system must stand unaltered for 12 hours with no pressure Electrical supply and component requirements. drop from 150 psig. Compressors with Pre-Charged Oil as Standard Compressors Shipped Dry H-Series Condensing Units *H-Series Condensing Units with Bitzer Krack C Series Condensing Units Compressors *Any II-Series Condensing Units selected with Bitzer Compressors will not have oil pre-charged or included as standard, but can be ordered as an option (ship loose). PN 0708232_D Condensing Unit Installation and Operation Manual 30 i ,PN 0708232_D 31 Evac_ Nitrogen and moisture will remain in the system Repeat first two steps. unless proper evacuation procedures are followed. Nitrogen left in the system may cause head pressure Install the suction and liquid drier cores, if problems. Moisture causes TEV ice blockage, wax applicable. build up, acid oil, and sludge formation. Pull a vacuum to 500 microns. Close vacuum 4. I: ' Do not simply purge the system – this procedure header valves and allow system to stand for a is expensive,harmful to the environment,and may minimum of 12 hours. If the 500-micron vacuum holds, charging may begin. If not the cause must leave moisture and nitrogen behind. ned an Re Do not run the compressors to evacuate – ebvacduationiprocedure fromted.the first step. t the entire this procedure introduces moisture into the ep. compressor's crankcase oil and does not produce WARNING adequate vacuum to remove moisture from theNe "er trap liquid refrigerant rest of the system at normal temperatures. between closed valves. Setu A hydraulic explosion may result. —I Usingall copper Aper lines and packless valves,connect an 8 CFM or larger vacuum pump to suction or Pre-Charge Check List liquid line. Connect one-micron vacuum gauge While the system is being evacuated preparation at the pump. Plan procedures so breaking the for charging can begin. During any of the pull vacuum with refrigerant will not introduce downs check: contaminates into the system. The vacuum pump must be in good condition filled with fresh oil to Check controller achieve desired results. Program if applicable. Procedure Merchandisers Pull a vacuum to 1500 microns. If the vacuum Electrical requirements and power supply fails to hold, determine the cause and correct. Electrical connections tight and clean Begin again with the first of the three required Proper fan operation evacuations. Thermostat setting. Break the vacuum with refrigerant vapor to Walk-in coolers and freezers a pressure of about 2psig. Do not exceed the Electrical requirements and power supply micron gauge transducer's maximum pressure Electrical connections tight and clean limit. Liquid refrigerant may cause damage to Proper fan operation components through thermal shock or a pressure Thermostat setting. 11 ' surge to the transducer of the micron gauge. Condensing Unit 41. Electrical requirements and power supply Electrical connections tight and clean Proper fan operation Pressure settings " Defrost settings Adjust head pressure valve 1 Condensing Unit Installation and Operation Manual 31 32 ' Shut down the unit at first indication of unusual Air Cooled Condenser operation, locate and correct cause. Electrical requirements and power supply Electrical connections tight and clean Leak testing, evacuation and initial charging are Proper fan operation now completed. Thermostat or pressure settings Damper operation, if equipped. Note: With non-azeotropic refrigerants, it is best to charge the entire contents of the cylinder to Water Cooled Condenser prevent fractionalization of the refrigerant when Flush water lines before connecting them to charging vapor. water-cooled condenser. Winter Charge Heat Reclaim and other systems When charging the condensing unit equipped Electrical requirements and power supply with winter head pressure control valve, - - Electrical connections tight and clean additional refrigerant is required for winter Component operation. operation. [See Table Below] Note: Remember to reinstate control to unit Compressor Motor Rotation(Scroll) components jumpered to make test. To check compressor rotation, use the following procedure: Set all mechanical pressure controls. Compressor should still be isolated from the rest of the Install gauges on suction and discharge side system. of compressor. A momentary compressor run should cause a drop in suction header and a rise During the last evacuation look up and make in discharge header pressure. a list of the required control settings for the system. High and low pressure, heat reclaim With main disconnect OFF, switch OFF all lockout, winter control settings, and other breakers or fuses in the control panel. controls on the system should be noted. Turn ON main disconnect. Charging Use standard procedures for charging while watching for possible problems. Check: Suction and discharge pressure Oil level Voltage differential and balance Ampere draw and balance Coil Kit Summer Char:e e(.ounds) Winter Char:e e(.ounds) A 1 6 B 3 13 C 3 13 D 4 17 E 6 26 F 8 34 J 13 56 K 7 30 *Charges Based on R407a PN 0708232_D Condensing Unit Installation and Operation Manual 32 PN 0708232_D 33 Look for the light on the single phase protector. Defrost scheduling and timing If it is not lit, turn OFF the main disconnect. Condenser controls Have the field connections to the main breaker Winter controls of the unit corrected so the phase protector TEV superheat adjustment indicates phase alignment (The light is lit). High and low pressure controls Thermostat settings Turn ON the main disconnect. Adjustments to electronic controls Inlet/Outlet water temperature Momentarily turn ON the compressor and verify (water cooled units only) correct pumping direction. If the compressor is rotating backwards, change two legs on the load Thoroughly inspect all field piping while side of the compressor contactor. the equipment is running and add supports where line vibration occurs. Be sure additional Note: DO NOT run compressors for more than 10 supports do not conflict with pipe expansion and seconds during test. contraction. i Final Checks When condition space is completely stocked, Once the system is up and running it is the check the operation of the system again. responsibility of the installer to see that all the fine adjustments are made so the At 48 hours of operation replace the liquid drier Condensing Unit delivers maximum temperature and suction filter cores (if applicable). 4 performance and efficiency for the customer. These include: At 90 days recheck the entire system, including all field wiring. 44 4'}� 4 Condensing Unit Installation and Operation Manual 33 34 ' This Procedure is not designed to cover system Remove bolts from suction and discharge service changeover to a different refrigerant. valves. COMPRESSOR REPLACEMENT Remove mounting bolts. Since each machine room tends to be unique,plan When moving the compressor, use a come-along, carefully as to how you will move the compressor hoist or hydraulic lift to carry the weight. without harming personnel, equipment or the building. Before beginning removal of old Do not use the piping or panel to support a hoist compressor make replacement unit ready to or come-along. install: Do not use ceiling trusses to support a hoist or Verify: come-along. .< Replacement compressor Electrical requirements q The rear support channel on the rack or a properly Refrigerant application constructed ceiling rail may be used to support a Capacity hoist or come-along. Piping hookup location and design Suction and discharge gaskets To make hookup and lifting easier, an eyebolt Mounting requirements may be installed in the rear top of the compressor head. Have compressor in an easily accessible position, uncrated and unbolted from shipping pallets. If a compressor removal table is used, slide the compressor fully on to the table, then roll table to Disconnect Electrical Supply: overhead hoist or hydraulic lift area. Turn off motor and control panel power supplies to the Condensing Unit. When the old compressor has been removed, clean the suction and discharge service valve Turn off control circuit and open all compressor P p gasket surfaces to shiny metal. Clean the gasket circuit breakers or fuses. surfaces on the new compressor to shiny metal. Be careful not to groove or round the surfaces. Tag and remove electrical wires and conduit from Gasket surfaces must be clean to prevent leaking. the compressor. Install the new compressor in reverse order of Isolate Compressor: removal. Do not open the new compressor to the Front seat Suction and Discharge Service Valves. system until after it has been leak tested and triple Close oil supply and equalizing lines. evacuated. Bleed compressor pressure through both discharge REPLACING DRIER AND FILTER CORES and suction access ports into an approved recovery vessel. Shut down the system. Isolate the core to be replaced and bleed off pressure into an approved Remove externally mounted components which recovery vessel. Open housing, replace core and will be re-used on the replacement compressor. close up. Pressurize, leak test and bring back into line. Plug holes to compressor manufacturer's specifications. PN 0708232_D Condensing Unit Installation and Operation Manual 34 PN,0708232_D 35 APPENDIX A - DIMENSION DRAWINGS Condensing Unit Installation and Operation Manual 35 M 1 • . • P SMALL SIZE Li INDOOR UNITCONDENSER CONTROL PANEL 00 00 28.000 f.� 00 0 0° °Oo° 20000MOUNTING 0 0 0 0 DIMENSIONS / �.� STANDARD LEGS W °°O O W 00 O° ii . I A 11 ' "HNSx-moon X-xx-A C 40250 O . U MOUNTING r O t DIMENSIONS 4,2, t'• a A Ss 614 p TOP VIEW I , „ a O SO VIEW ct C.? O WBASE ASSEMBLY C!4 DRAWING-SMALL ID A •• • D 0 o STD LEGS W ilill 24424 O O `.4O 0712528 B b O O Q • - a) E-.4I I i / O Q b I- 32000 y I 41750 32057 LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW A 1 N M N 00 O N O 4 P. iC M PN 0708232_0 37 0 - • = O C,) n - -i n En T 0000000000000000-I I CD I— I 9 °000000000000. (/) rn 2 I 7 rn fl-I O I ''.il I n I L I III CD - o 11-1 BDDDODDDDDDDO DDDDDDDDDDDD =a 0000000000110 MA 0000000 R DDDDDDDDDDDD EMI 14. BDDDDDDDDDD 1 Milli.1 n i--N - - . i. =„N N 3 c 3§ ,=E7,,-, °'000000000000 0000 0000000000000000. (-7) _, 000000000000000 0 ,,., ,„) .-if,-, OD00000000000000 1 .i-1 o 1 1 0000000000000 80000000000000000-1 rZ / A - 0 iii7///aiia 0 aci iiiiiiiriiiri ''' N DODDBDBDDDDDDBDi c� rr, ' DDDDB®DDBDDDODDi� " OD n ODBBD51e 7151e DODBi\ DD0000000DBDDDBi DD®0080080®Di D®DDiiDDBDDODDDi a 3 * \ o Condensing Unit Installation and Operation Manual 37 00 M -I I.' CONTROL PANEL CONDENSER MEDIUM SIZE r.,0- 28.248 vo 00 , • °°P8 ° o0o ' MOUNTING 0 INDOOR UNIT a7 °'MENSI°NS . ' slIll'' P.. ' TA �o�.' . 1..,... . • .• • ••1 z STANDARD KEGS manimmom ISO VIEW 45,770 z MOUNTING 'O _ 0 ' HNSx—xxxxxxx—xx—A DIMENSIONS TOP VIEW o: -d c' �I — T,_ BASE O . .. .. . .: o 1s ` I • DRAWING-MEDIUM ID STD LEGS 0712530 B E' • e, 41,924 O e 6 : o O Q � og GA o s VI I • 1.. 34 750 O'e o o o 0 U 8.000 I LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW A N 1 M N 00 O Is-- CZ `O Z CO L CO PN'0708232D 39 i._ i ! 1 m _ a I . ,i rn , ,....eoee0 „,„„e�ee ,....4 h 0 0 00000ee000000eoee0000000e000 .e0000eoeeoe000%\eoeoee\. Cm o0eeeeeoeeoee0000eeeooeooeI Lo i0 00m • Goo !-.- 1 ° --1o e E. S I- III101B1116B I BDD dDDDB IDID II D I < _101 11111 D DD/ ID BD )IDB,D DID ,U rn = nrn 'DDDDIDDDDDIIDID 101111110111111 DI I I I 1 DI 111 r 010111111111011111011111101111011111111110111 010011101011 111 001001 DDDI DDDI D 11,1111111111110 rt._ i ,,, ,., li r „ 0 3 N 0 _ ° 00/DD00//000/D//D///DD/D//// v, -' '/////////8////e///OD/////” o o ° //D/DDODDD0D0/////DDD/DO m A ///p0/DDD//O//DDD//000/0- /? m cl /e/0031////0//0/00///D/D b o -1 o� N Y m 1co ‘..,..,.7 R/ N m - 0 K 1 Condensing Unit Installation and Operation Manual 39 0 '�I:I• • •IiimI I•J • 'I- I1'al •I��' LARGE SIZE ° 8°°° : : °o��° • 28 48 I °° •° • °'° 8° pan ° ... a NG INDOOR UNIT DIMENSIONS CONTROL PAN CONDENSER STANDARD LEGS � \''� . DIMENSIONSMOUN •8 01/ 11 �' f8 . $ HNSx-x;xxxxx-xx-A • ° ISO VIEW A.:, _ TOP VIEW . - _ a :ti O 'i. II -- BASE ASM c 1-40. . II );..,:::...., DRAWING-LARGE IDoSTD LEGS41924 oO0} ° O C _ •aoe •o b € al 1) b4o o - 0712532 B o ®Q 34 750 1-•--- a4.000 U LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW A N I in N 00 0 O Z o C PN 0708232_D 41 .(/) Is i1:' ' I— c __i o r ' \\\\\\\\\\\\\\\\\\\\\\\\\\\\ .I n (/) `T' \\\\\\\\\\\\\\\\\\\\\\\\\\\\ \\\\\\\\\\\\\\\\\\\\\\\\\\\\ ► Fc-i ► 0 000 I— Lp .000 . m it I (/) i- 1i.,, o 1 1 _ • 1 ° IE 'BBIIiI{{IB{I{I IiiJIIIIIiIIIiIIIIiIIIiIIii B111111III111111110. II{{1111 11111IBI, 30 o010111rn iiiioiiiiii 11111111111111111 E. IIIIIIIIIIIIi IIIIII1IIIIIiII IIIIIIIIIIIiIII I{IIIIII 01 {01 I {IIIII{II1111III L r r 3 o 3 m � 73 c'eeeeeeeeee/e/eee/ee//eeeee - ee eeeeeeeeeeee07,eeeese v) A eieeeiaeaiiiiiaaaei G 4 eeeeeee/eeee/eeeeeee/ee/. FT, eeeeeeee%Afeeeeeeee, F6 AIM! ' r: i'cl Ar7 ANY I v .i,,,, o 0 P //,, , / .� ..., N r� ,/,. 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IllO r ME z-=- am likIlk BASE ASM - ct FOOS = MIE MEM MEM ��!FPO- •.MML. -- ••MMME: ME ME ` g� klkIkk 411kkk DRAWING-EXTRA �� •• LARGE OD STD LEGS MEMM .......,. -...„. __� aMINss 54.448 ' kk4OkkIIIIS0 a , -_ ass: � � • �� ' IkkkIl 0712535 B u O ct 34.750 -i L 99000 c) 173 RIGHT SIDE VIEW LEFT SIDE VIEW FRONT VIEW b-; A1 M o O toO .- U 0. SMALL SIZE 5 -IiA„MI! INDOOR UNIT "' CONDENSER HEAVY DUTY �r�� 8�� 26223 LEGS °e MOUNTING O e o 0.88 a oo DIMENSIONS 4 ,_..i .. "H N Hx- - —A'' • 8 8 oCONTROL PANEL0 35 748 MOUNTING a O DIMENSIONS a n•. ` •p ISO VIEW li: ` a -'co TOP VIEW . I b :t _ , . .. , ,,..____ :71, II_ a .. . . . �� .0 BASE ASSEMBLY .7,7'J O o .. i O / OO / 3211 O DRAWING-SMALL ID 00 HD LEGS N B T i° ° n° • °( 111111111111 J 0712536 B v RECEIVER ° o ° o ° ° 70 —29.502 - 38.877 G U LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW a N M N 00 O r _ O z Co Cr x:: PN 0708232_D 45 , Ill rri C rn n mC___ 1 = CO h - ‹ ! r i446meniumumil -„ I II 11 70 i IO / - - o I = � I ''DDDD DDDDDD ,_ J 11 DDDDDDDDDDD DDDDDDDDDDD F, iI-rn11 DDDDDDDDDDDD DDDDDDDDDDDD 1 I1 II I _DDDDDDDDDDDD DDDDDDDDDDDD.I ��_HI ,, 3 3 cp ci �DS--1 i "a,. �OD1O M ,,,, c.,., .iseeeedgey ,,,, , _u isms, .eeeeee0131,174 I ` , o iiiioiiiiiiiioioiiri IIm s®eae®®a®o®R ®®®®®WAVO, , Condensing Unit Installation and Operation Manual 45 MEDIUM SIZE INDOOR UNIT - =Pl T nI 'i�_ I CONTROL PANEL 11'7 CONDENSER HEAVY DUTY LEGS - 1� O °�8° '� 33.975 ° ° ° ' ° II MOUNTING � '•"' �� DIMENSIONS I 11 (11) HNHx-xx - ° ° X;�CXX-XX-A,� ;�� ,�°°°°° o ilijilL.........i'• s8:® • °° o 43748 $�!ap d •� MOUNTING °° • • ,.i� DIMENSIONS I� ° ••+ �•• .� Q) TOP VIEW • *sA� •x , o ISO VIEW ..•61",� -L:; -___r- _ BASE 0 7 a —.--- - • C DRAWING-MEDIUM iCt ID HD LEGS Y RrTh .00 . •,-., oO/ig =0 n 49634 o a 0712538 B to •00 0 0 p ., y •O o . i . 1:1 ( I . TI 1 ' •• •• • l i / C RECEIVER " 37.252 — 46877 LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW A1 evM N 00 O h p Z CG Fa ' PN 0708232_D 47 NNNNNNNNNNNNNNNN\NNNN\NNNNI. - 0 - ' NNNNNNNNNNNNN\%%\NNNN%N. - \\N\NNNNNNNNNNNNNNNNNNN%\ o m C Cn 0 000 , • JI m Goo 1� 1 I GlC/)C I it Ai , I 3 ❑ - :� II o"l T Z , I I j'II o / ' IIIIIIIIIIIIII II i{iBi{{BiBi{BBB � 11 'IDIIIIDBDIIDIVD 0100101011 IIIIBIIIIIIIDII. m11 I 11 , IIIBIIIIIIIIIIIIBDBIIDIBIIHIIIDIIBIIIIDIIIII11 11111111111111 1111111111111 HIIBIBBIVIDD111 = SII 1 i 1 0 3 w 3, --1 ,„ o .., .„ 4,41..; �, , .,„eeae�ii�iai�aii Z o , 1/10103101,0ld,' / 0 o o /k/z/r�o�iiiiiiior////aoiiiiiiirr N oioaoiiiiiaiaiaiiiaiiiaioaooi m ///////////��/�/�////�////////////�/////� CO G-) ////%///////��///�///////////////////////// W N o /////////////////////////// \//////////////////////////G c ///////////////////////////i /////////M"/////////� m ///////////////////////' ///////////////////////i - Condensing Unit Installation and Operation Manual 47 00 .r LARGE SIZE r o __,,.,. RN INDOOR UNIT ' 1A*. ' , 33.975 D. MOUNTING e'y j..r DIMENSIONS HEAVY DUTY LEGS CONDENSER 43.748 "H N Hx MOUNTING risolio DIMENSIONS - A TOP VIEW UPPER BASE ASSEMBLY 1() / ,.t CONTROL PANEL I1 1 0 o s.. I �' x� 1• O i .9:. .r.. . n. i .li kip16 •` , CONDENSER Ct W , , , 90742 Ii . 1 P e8 I OVIEW�,' - o o .,... . . . Y P � _�RECEIVER N 46.877 DRAWING-LARGE ID LOWER BASE ASSEMBLY 'C) 37252 48.633 HD LEGS O DIMENSION U LEFTSIDE VIEW WITH UPRIGHTS FRONT VIEW RIGHT SIDE VIEW 0712540 B A N M N 00 © [•-• O Z 0o ar , , i t;i:,,1,;_ , ,rottolowt .i..", -41 o, ,r rn d. . i n ; of HINGED TOP FRONT PANEL 1 1 31.503 FIXED TOP REAR PANEL LARGE SIZE MOUNTING HOLES CONTROL PANEL OUTDOOR UNIT HEAVY DUTY LEGS MOUNTING HOLES -y < �RIGHT ENO PANEL 40871 35.999 E MOUNTING HOLES Iii* :�`- - ' kil*'''4 "HTHx-xxxxxxx-xx-A" TOP vlEw4 A ISO VIEW 771 L c.' 0/0/ -------------,=__..,._. 1 `kk m FRONT PANEL r doaa a_ --� r \ 1Nk� BASE ASM ei, g000- rr ,//yo kkk1N§k1DRAWING-LA RGE OD 0000e _ 49.611 ,4 LEGS O 0_ o s yi � ,,,1_ - ° �- 0712541 B Ciffi _ a� - 34.750 RECEIVER 80.000 A LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW a N M N O_ Z- a+, U 0 EXTRA LARGE SIZE gid INDOOR UNIT " �° ••• : � " �--=� �� °Or°° e°u�°8e '- '.j °;urge �µ 31503 CONTROL PANEL CONDENSER HEAVY DUTY LEGS ` .° MOUNTING � DIMENSIONS I '11141%416 TA H N Hx-k0000 x-xx-A 0 47.401 44.470 O cd MOUNTING MOUNTING DIMENSIONS DIMENSIONSI. $$ , O; = TOP VIEW 0 0 ° \�Y O ISO VIEW p,; 'C� le Z0 0 . 0 - I 7___ 4 . . . :::::::: .:: : :. 11„ I4J r • • 0 . . . ! o s 0 :,:::::::,. .::ii 6210hI DRA RGE ID HD LEGS BASE ASSEMBLY ti i. imam . E v 2542 B ul Immo L simmommewm 071 34.745 RECEIVER = 0 95.000 U LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW A I N M N 00 O h cz 27 O' sum¢ ' '-'t 4.. T.''a4.'" r EXTRA LARGE SIZE 31503HINGED TOP FRONT PANEL MOUNTING FILET TOP REAR PANEL OUTDOOR UNIT TIMENSIONS CONTROL PANEL HEAVY DUTY LEGS 47.401 MOUNTING 44500 MOUNTING DIMENSIONS DIMENSIONS RIGHT ENO PANEL 11 11 HTHx-xx xxxx-xx-A 011A4N*410oho: TOP VIEW (, . 'RRR €� 00 I v. FRONT PANELS00000000, SOOS_ % ... „ ...= __ 0000_ „ ISO VIEW z 'SOO- __-..NUM. BASE ASM ��EIM� �� DRAWING EXTRA - 8 0 0 �� ME 62.143141414 Q LARGE OD HD LEGS a _ a 2_ r 0712543 B A., _ 1 -RECEIVER �+ 34.750---y 95000 O 0 •t LEFT SIDE VIEW FRONT VIEW RIGHT SIDE VIEW E A i NN GO a9 O 4 . U a, s