SERVICE AND INSTALLATION MANUAL THE ICE
Contents
1. ud JPTIONAL FUSITE TERMINAL l 2 e Lot od L B AL RESET HOT G ATER MODELS LENOI OTENTIAL ELA 4 i H INTERNAL OVERLOA OW E ITCH I e 4 A 4 1 2s TART 4 1 TACT TIME NL ELECT ITCH LE ICE 4 A Lee one b e e 01 o 6 WASH ITCH K INITIATE TROL I o I j l K h IN FILL HEN REQUIRE THE TAT i A SS e a Z TE E FAN LENOI Page G15 ICE Series Wiring Diagram ICE0605 0606 0805 0806 1005 1006 Air and Water Wiring Schematic HC F 1 ELA IP a ATE 11 ELECT IT ICE or PURGE ELEC ENTARY 107 HARVEST HOT ELAY ptos INITIATE TIVE ITCH SONTROL 1 T TACT D RELA FAN ELA2. AUTI FUSE HACR TYPE BREAKER REQUIRE s l ai L LINE SIDE OF POWE LY Fi Rude HIGH PRE E E 120 VOLT UNIT FUSE k NTROL HIGH l ITCH e 8 us 7 ors ANUAL RESET HOT CA LE L LENOI E H INTERNAL OVERLOA TERMINAL LOCK TENTIAL 7 ELA 4 1 1 1 i 5 LE L i E SWITCH e l 4 3 7 e o e e TA T TACT TIVE HARVEST ELECT ITCH ICE f e e FF A k e l e CT p T ITCH e k HE K IN FILL 3 i ITCH e TIME FA FA INITIATE ATE LE 7 TOR TOR TROL AIR COOLE LY A OLED ONL Page G35 ICE Series Wiring Diagram ICE0520 Air and Water Wiring Schematic HO IN TIME ION FREEZE CYCLE E ELA oi i AE T ELECT ITCH BAY CTS ICE E
3. LT UNIT THI MUST Al ELS REQUIRE EAKE 1 77 ATE ELS REQUIRE FUSE OR R HIGH PRE FUSE dk TROL HICH T ANUAL RESET VIRAL l l TERMINAL p N e PROTECTOR A e e I Id e e em ph w LL WATE EL HOT CA Al L LENOI H INTERNAL K TENTIAL ELA R I E SWITCH aT k e amp e tor 4 el b Y START eje c HARVEST TIVE ELECT ITCH ur jaa LE ICE 4 1 1 24 e FF 1 WASH T e el o ITCH TIME INITIATE T e e e 1 IN FILL ITCH N N Z N e e LENOI Page G11 ICE Series Wiring Diagram ICE0500 Air and Water Wiring Schematic H IN TIME FREEZE LE ELA gt ASH T ATE E ELECT ITCH ELAY L ICE L E ELECT IT 2 PES
4. Page G27 LY EE NAMEPLATE FOR LINE 90 9 LTAGE Al OR TYPE BREAKER SIZE ros E G TC ONLY 22 CAUTI ite THIS UNIT MUST AU hooey SWITCH GROUNDE MPRE S FAN ITCH fs HICH TEM LE F 2 HARVEST T HOT HOT LENOI SWITCH LED ONLY LENOI N ae i J NO 4 i k I K B K Bk BI K BK 8k e mms e e TERMINAL V K Sen L 4 1 k l 5 F C H m E _ LLL Ne K l TACT E h mW L ESSU TROL _ TMER epe PRESSURE 4 NTROL TER COOLED ONL BIN SW 1 ICE H k y SELECT 2 ITCH ICE Series Wiring Diagram ICE1407 1807 2107 Air and Water Wiring Schematic
5. FUSE H EQUIRE L INE SIDE OF E LY Fl AUTI LT UNIT OVERIOA u a ELS REQUIRE HA FAKE ae ELS REQUIRE FUSE T E uL TI e TERMINAL RELA ENT oye cae eo o lt if HOT LENOI TART IT E ITCH ee J l e 4 e A HH l N e ELECTI ITCH TA HARVEST 7 CE v TIVE e e LE 1 e eo e 4 e La NASH INITIATE T e IN FILL ITCH o E FA LE FA HIGH TE PRESSURE I LENOI TROL ITCH TROL A L L Page G91 ICE Series Wiring Diagram ICE0400A5 400T6 Wiring Schematic E TA E N L HARVE IOT HOT CA L ELA SOIL ELA A ELA V N IL 11 N 11 INITIATE TIME L ELA f IL HI TE HI PRE E MPRE i TACT ELAY 2 li IN FILL ELECTC FA LE FA TCH ITCH 1 Ll LA
6. EE NAMEPLATE Fi ER FUSE HACR TYPE BREAKER SIZE LTAGE REQUIREMENT EMOTE CONDENSER 11 in KAGE 4 4 4 E T AUTI OPTIONAL THI IT T a E E TIONAL TERMINAL e e OA Q e LIQUID LINE HOT GA d LENOI LENOI HOV EXTERNAL ERLOA et K E ITCH TENTIAL ELA 8 J 4 e e o H TART L HARVEST TA e T LECT ITCH TIME LE ea 4 1 i e REM Pu A H ITCH TI INITIATE e k IN FILL Ld ITCH e e e eje P HICH TE ATE E HICH PRESSURE I LE Hen TROL TROL Page G97 ICE Series Wiring Diagram ICE0606R6 605R6 Wiring Schematic H TIME TION FREEZE LE E TA HARVEST T HOT GA ELA IL EL A A ELA 11 11 N 11 TI 7 INITIATE TIME TROL ELA 4 IL V1 HI TE HI PRE E ITCH TROL TROL IL EE Vi Vi Vi L IN FILL ELECT LIQUI ITCH ITCH L
7. v ICE MAKER WATER IN T 4269 3 8 1 4 Male Flare 18 1 I n d i ELECTRICAL INLET e bl HOLE UO MN BIN amp ICEMAKE I FPT g m TS Ce 1 SS a 1 EA IE IDE VIE LI LJ EDA ATE DENSER ATE 1 2 FPT 5 LED UNITS ONL E TE DENSER ATER IN 3 8 FPT TER COOLED UNITS ONL i Note The ICEU150 ICEU220 ICEU225 and ICEU226 do not have a splash soy Eos curtain These models utilize a thermostatic bin control in place of a mechanical bin switch FRONT VIE 00 0 7 ADJUSTABLE LE Page A7 ICE Series Electrical and Plumbing Requirements ICEU300 and 305 IDE VIE
8. Io 1 E 1 Ie B amp ICHT K F ELA OFF SWITCH ICE FF E LENGI B ASH L ELA le Pe Libo TIVE ELA E to f EE INUTE ELAY 4 LI i ASH I soL V K TIME INITIATE NTROL TIME ELAY I fo L l THER i ITCH 1 olL n HICH E E ITCH TROL TROL HICH TE MISES EH 9 4 Ex IL Page G77 ICE Series Wiring Diagram ICE1506R3 Wiring Schematic IRIN ICE H IN TIME TION FREEZE CYCLE lt a E L _ REMOTE IDENSE TACT TACT Vi T E ELA t IOT ELECT i ITCH ELAY 1 eT ACT E ICE L E SwITCH EL SWITCH ca HSE GAS A E SWITCH OL ENTAR J RIGHT NHARVEST T RICHT ELAY L TIME d CONTROL TIVE ELA L LIQUID LINE LENO OL du ELAY NITCH IL N HARVEST N LEFT ICE ITCH LEFT ELECT SWITCH
9. EE NAMEPLATE F E E H TYPE IZE LTAGE REQUIREMENT ALTI e MUST m _ ES ALTERNATE E e T 11 EN w 1 P o BRL 35 TIONA s Mappe l EMOTE CONDENSE TIONAL TUBE KAGE TERMINAL q I ONTROL BEA Nos e 2 L i IPRESS 2 Kal 11 ELS u J o JT LENOI E SWITCH em N e H 6 A c e el o o f LL y _ START l a Oo ELECT ITCH _ ee BK 2 ET PRI EEG 4 HARVEST e T b FFe e e e T ASH 3 LE K IS e TCH ONTR e e LI 3K TROL re e Us ATE JRGE LIQUID LINE HICH TE LENOI LENOI ITCH Page G49 ICE Series Wiring Diagram ICE0605 0606 0806 1006 Remote Wiring Schematic R3 H IN TIME FREEZE CLE ES ITCH oT EMOTE FA ELA iL ASH ATE me ELECT ITCH ELAY L ICE SOL E ELECTS i E ITC TCH emus oT HARVEST Ly ELAY L N O TIMER INITIATE TIME ONTROL l da E V SOL LIQUID LINE ELAY 2 A HI
10. F POWER SUPPLY I 7 SEE NAMEPLATE FOR LINE OLTAGE Al ER F d HACR BREAKER SIZE T L TE ENSE ACKAGE THIS UNIT MUST ATE HARVEST ITCH 5 OTC ITCH 2 SHOWN W INTERNAL OVERLOAD LIQUID LINE E LOW PRESSURE N LENOI LENOI TROL HARVEST HOTON HoT GAs v SOLENOID 2 H N id Y X 4 N n K Ek Bk K Pl K BK k L 4 TART TENTIAL ELA Bh K I une V TIMER TIMER 24 E ET igi K ICE OFF H www o 1 r ELECT E ITCH i i esce 4 ee e o TAI IN THERMOSTAT Page G41 ICE Series Wiring Diagram ICE1506 Remote HOW IN TIME TION FREEZE HE N FAN MOTC TACTOR E V T ASH
11. SN L oo cos 191 8 TIMER ELAY 2 E EN ELAY gk K colL e a 2 ICE 2 ME _ Z S WASH LIQUID LINE LENOID SOL TIME Elav r 1 1 HICH E TROL TROL Tb ITCH HIGH TEI TO EN EU eps SL IL E Page G75 ICE Series Wiring Diagram ICE1407R3 ICE1807R3 and ICE2107R3 Wiring Schematic VIRI HEMATIC REMOTE LE HOWN TIMED PORTION FREEZE CYCLE L a B _ _ _ _ REMOTE ENSE Yl TACTOR N E V TACT OT ASH 11 ELECTO WITCH Aye L meh 1A T E E SWITCH ENTARY ELECT ely E SWITCH ITCH ENTA HOT GAS MM 1 L FRONT ITCH HARVEST 1 E TIME 0 LL INITIATE T TIMER V IL Fe LIQUID LINE LENOI L LN ELA ITCH iL 7 HARVEST 34 N ITCH N HOT CAS SOL REA ICE LA LI VI VI ELECT 1 ELA TROL TCH 4 L HI PRESSURE HI TEM HI TEM TACT TROL TROL ITCH ITCH LA r re Vi IL E Page G76 ICE Series Wiring Diagram ICE1506R3 Wiring Diagram
12. E EE NAME LATE F ER FUSE HACR TYPE IZE AN LTAGE REQUIREMENT m QUE ATE OT TH IT MUST EXTERNAL FUSE HA EAKE EQUIRE BOX L LINE SIDE OF E LY F p L Saa EMOTE ENSE IT ACKAGE TIONAL FUSTE TERMINAL HIGH 2 B IROL 2 Q ais SU J H Ne AL OVERLOAD o TENTIAL ps Q Q K FLA 1 j eo HOT LENOI E ITCH 7 c 2 11 4 L y START ONTACT ee ELECT i 4 HARVEST ITCH e T ICE e 2 0 o e e TIME b FF LE d ITCH TIME INITIATE I TROL e e TROL LIQUID LINE HICH TE LENOID LENO ITCH IT Page G63 ICE Series Wiring Diagram ICE0500 Remote4 Wiring Schematic T IOT EMOTE FA ELAY B T ELECT ITCH ELAY ICE 1 OL t ELECT URGE ITCH eue jT HARVEST ot HOT GA ELAY L TIVE INITIATE TIME CONTROL j pem ES T CONTACT O L LIQUID LINE ELAY 2 A TROL ITCH LI LA VI Vi E ITCH W i E E TROL ITCH SH IN
13. H IN TIME TI FREEZE LE RT T TACT T TACT mw TACT i ATE iT ELECT ICE SWITCH ELECT A R HI TEM J 4 s NI d 2 N ELA E LI LINE L ICE Li d rt L ELECT TROL ITCH N HOT GA L TIMER HOT GA L x ENTA L HI PRESSURE CONTROL NTROL 4 OIL ri g j Page G30 ICE Series Wiring Diagram ICE1606 Remote Wiring Diagram ER SUPPLY I pw ld FoR IE i T d pee HACR BREAKER SIZE T L EMOTE ENSE ACKAGE zs T THIS UNIT MUST HARVEST AOT 4 7 TEE L due tHe TART SZ OTENTIAL THE ELA 3K BK N l I 1 l CA K TIE 4 i s na l e e WANK SELECT K y ITCH Z
14. Note The ICEU300 does not have splash curtain This model utilize a thermostatic bin control in place of a mechanical bin switch ELECTRICAL INLET POLE General Information ICE MAKER WATER IN 3 8 OR 1 4 Male Flare EA IE EA B T BIN amp ICEMAKER DRAIN 3 FPT NEN 5 mT 1 ATER CONDENSER Ex v ATE FPT LEI IT L ATER DENSER ATER IN 3 8 LE LE Page A8 ICE Series General Information Electrical and Plumbing Requirements ICE0250 ICE0400 ICE0500 ICE0606 ICE0806 and ICE1006 30 Inch Wide Cubers INI ALL CLEARANCE m i ir 7 ICE CUBE DISPENSE AREA TO BIN INI ALL CLEARA OF MACHINE EQUIRED F E ERATI 1 IE DIA HOLE F REMOTE CONNECTI L 1 8 DI HOLE F ELECTRICAL CONNECTI ELECTRICAL CONNECTI vM V ENSER WATER OUT 17 FE et ICEMAKER POTABLE ENS
15. H TIME TION FREEZE CYCLE WE L ENSE TACTOR 1 E V TACT Vi D Vi ELA IL TIMER ELA 4 iL ASH ATE T ELECT Aer TAT NITCH ji E ICE VA L Vi V ELECT Vi ITCH E SWITCH ENTA 1 am FRONT HARVEST IGHT ELAY 4 IL 4 M US HARVEST LEFT HOT GAS L SOL EA THE TAT IME LA INITIATE Vi Vi Vi T TIVER 14 4 ELA TROL TROL po IL LINE ICE OLENOI or d ll UL 2 ELECT ITCH HI PRESSURE TROL TROL ITCH ITCH 4r 4r L Page G84 ICE Series Wiring Diagram ICEU300A W Wiring Diagram From Serial Number 10041280011405 VE L EPLATE El HACR TYPE BREAKE LTAGE REQUIREMENT FUSE REQUREI L LINE FUSE REQUIRE TH SIDE IDE OF LY F F LY FF ITCH LT IT gt 24 IT L si WER ERLOA HARVEST 14 v ON k E AUTI THI IT M
16. 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICEU150 A1 115 60 1 117 53 3148 3 15 9 6 6 8 R404A 13 369 ICEU150 W1 115 60 1 166 75 3392 3 15 7 9 5 9 R404A 10 284 ICEU150 A2 115 6071 117 53 3148 3 15 9 6 6 8 R404A 13 369 ICEU150 W2 115 60 1 166 75 3392 3 15 7 9 5 9 R404A 10 284 ICEU150 A3 115 60 1 112 51 3572 3 15 9 7 6 9 R404A 12 340 ICEU150 w3 115 60 1 155 70 3732 3 15 7 9 5 9 R404A 9 255 ICEU150 A4 115 60 1 112 51 3572 3 15 9 7 6 9 R404A 12 340 ICEU150 W4 115 60 1 155 70 3732 3 15 7 9 5 9 R404A 9 255 ICEU150 A5 115 60 1 130 59 3572 3 15 9 7 6 8 R404A 12 340 ICEU150 W5 115 60 1 140 64 3569 3 15 7 9 5 9 R404A 9 255 ICEU200 A1 115 60 1 157 71 4435 3 15 11 6 8 2 R404A 13 369 ICEU200 W1 115 60 1 183 83 4199 3 15 8 9 6 7 R404A 9 255 ICEU200 A2 115 60 1 157 71 4435 3 15 11 6 8 2 R404A 13 369 ICEU200 W2 115 60 1 183 83 4199 3 15 8 9 6 7 R404A 9 255 ICEU220 A1 115 60 1 175 80 4609 3 15 11 9 8 5 R404A 12 340 ICEU220 W1 115 60 1 220 100 4642 3 15 8 9 6 7 R404A 9 255 ICEU220 A2 115 6071 175 80 4609 3 15 11 9 8 5 R404A 12 340 ICEU220 W2 115 60 1 220 100 4642 3 15 8 9 6 7 R404A 9 255 ICEU220 A3 115 60 1 175 79 4609 3 15 11 9 8 5 R404A 12 340 0220 3 115 60 1 193 88 4288 3 15 8 9 6 7 R404A 9 255 ICEU206 A1 230 60 1 162 74 4115 3 15 4 8 3 2 R 134a 14 397 ICEU206 W1 230 6
17. TROL L__ BN ESSURE TROL L HIGH PRESSURE TROL TROL Page G31 ICE Series Wiring Diagram ICE1606 Remote Wiring Schematic IRI HEMATIC REMOTE SHOWN FREEZE CYCLE N FA T OT TACTOR Vi ASH T7 ATE ELECT ICE ITCH SELECTOR A ITCH T TIME oD Y L E JIL TROL a n 4 N A N lt on aM N LIQUID LINE OL ICE 4 P 14 ELECTO TROL ITCH N HOT CA L TIVER HOT GA L ENTA L 5 OL GE lt ENTA HI PRESSURE SONTROL TROL L LJ TACT TN Page G32 ICE Series Wiring Diagram ICE0320 Air and Water Wiring Diagram EE NAMEPLATE OPER FUSE OR HAC
18. As system pumps down the pressure the low side of the system drops When the suction pressure drops to 10 psi 68 bar the pump down control opens and shuts the machine off See page F9 for pump down control operation Liquid refrigerant is stored in the condenser and receiver while the machine is off It is normal for the machine to pump down once or twice an hour as the pressures equalize When the machine comes back on the bin switch closes or the selector switch placed to the ICE position the liquid line solenoid valve opens and the refrigerant is released from the receiver When the suction pressure rises to 35 psi 2 38 bar the pump down control closes and the machine comes back on If the machine will not pump down the valve may not be closing all the way A weak compressor will also prevent the machine from pumping down Check for signs of a weak compressor before replacing the liquid line solenoid Prior to replacing the valve disassemble and check for obstructions that may not allow the valve to seat Receiver If the system has a remote condenser the refrigerant will enter a receiver before passing through the filter drier The receiver holds reserve liquid refrigerant during the freeze cycle The receiver also stores liquid refrigerant during the off cycle LIQUID LINE SOLENOID EVAPORATOR
19. EE EPLATE F ER FUSE HACR TYPE BREAKER SIZE A LTAGE REQUIREMENT 4 ERL CAUTIC FUSE HACR TYPE BREAKE E 4 1 IE m LY ON LINE SIDE OF POWE HIGH PRE E E E OLT L CON Ss e ELAY ENT e o HOT GA LENOI TART CAPACIT TERMINAL LOCI E SWIT HI RES e K e m e ELECT ICE TIVE HARVEST MODULE T e r e m ut e o ITCH e IN FILL ITCH e e e e e d TIME FA FA FA INITIATE ATE LE TROL T AOT ONTROL LENO AIR COOLE LY A LE L LE L Page G55 ICE Series Wiring Diagram ICE0320 Air4 and Water4 ICE0520 Air3 and Water3 Wiring Schematic AS E T ELAY 2 y 5 1 ELECT ITCH ELAY ICE f f ELECT ITCH etary 7 HARVEST SOL ELAY L TIME INITIATE TIME L COMPRE i L 4 T IL F TROL z IN FILL ITCH SWITCH 14 pi V j Vi i y HI PRE E ICE HI TE mt TROL ITCH A RELAY 2 A E L H IN TIME FREEZE E Page G56 ICE Series Wiring Diagram ICE0406 405 Air3 and Water3 ICE0305 Air3 and Water3 Wiring Diagram A
20. THIS UNIT MUST EST ITCH R LIQUID LINE HICH TE HARVEST B LENOI MOT HOT HOT 2 tla K 8k K 8i E 1 K k 21 K iub K Bl LLL PIN ART TENTIAL OF wel e Wide ELA N w K Bk k N i p i 3 ES e 1 k boa L Bk 3k iE u u I m Lo ESSURE E is r TIMER TIME 4 4 HICH PRESSURE 1 ITROL ITROL l ETE a OFF WASH Lat N SELECT TCH Page G25 ICE Series Wiring Diagram ICE1405 1406 1806 2005 2106 Remote Wiring Schematic N FAN MOT a TACTOR 4 ES a 1 ASH T ATE ELECT ICE ITCH S SELECT A gt TIVE G us c i x LA 4 N V N T IL LI LINE SOL ICE LA LA L li Yt ELECT L ITCH N HOT GA OL TIMER N HOT GA L GE iB MENTA us CE ENTA HI PRESSURE NTROL TROL 4 LA HIST IL Yi r1 Page G26 ICE Series Wiring Diagram ICE1407 1807 2107 Air and Water Wiring Diagram
21. LARGE CUBER Al ATE LE m EE NAMEPLATE T ELAY d TART s APACIT 6 IE l L T L E 1 I HARVEST L ELAY 3 COIL HOT CAS SOLENOID FRONTY L HOT LENOID L HARVEST AOT RIGHT FA L TROL ELA 232514 LED ONL LL Lo TT NN m OFF SWITCH Cs i ITCH ITCH F a E LENO H _ N pf L ELA NE E 1 TROL ae EL iL 4 ICE HICH ESSURE TCH Fo gt X TROL HICH TE HCH E HIGH TE ASH I y Gol pi 5 IL ATE LED ONL TIME ELAY 1 IL Page G69 ICE Series Wiring Diagram ICE1405 6A3 W3 ICE1806W3 and ICE2106W3 Wiring Schematic IRING SCHEMATIC AIR amp WATE LE H IN TIME TION FREEZE CYCLE E L Ee TACTOR ESS TAG T ASH us ELECT _ ITCH AM 2 L mpi 1A T ICE L 2 E SWITCH VI ENTARY ELECT be PURGE SWITCH ITCH ENTA Bm FRONT TCH HARVEST RIGHT TIVE ELA 4 IL F eqs ok OT amp RELA ITCH SIL T HARVEST M LEFT ITCH HOT CAS 4 EA ICE TIME INITIATE P vi TROL ELECT ELA TROL WITCH IL E HI PRESSURE HI TE HI TE TACT TROL ITCH ITCH N N ATE LED ONL E Page G70 ICE Series Wiring Diagram IC
22. m ERAT COIL ee T ELECT ITCH ELAY ICE L ELECT ITCH 2 ae d ENTA dL N HA T T B OL FLAY L TIME INITIATE TIME RES JNTROL NTACT 4 L ELAY FA l s FAN TROL IN FILE ELECT SWITCH ITCH LA LA L4 Col VI d V COIL A HI PRE E ICE HI TE Mes As ITCH neal a ELAY 2 WE L H N TIME FREEZE E Page G60 ICE Series Wiring Diagram ICE0500 Air3 and Water3 Wiring Diagram EE NAMEPLATE F FUSE HACR TYPE BREAKER SIZE LTAGE REQUIREMENT J FUSE HACR TYPE BREAKER REQUIRE L LINE SIDE OF E PLY F 1 120 VOLT UNIT s IT 55 Al ELS REQUIRE EAKE ELS REQUIRE FUSE HA HIGH PRESSURE CONTROL JPTIONAL TE INAL n re HOW EXTERNAL OVERLOAD HOT GA LENOI FJSITE TENTIAL PROTECTOR ELA j w E SWITCH 4 k A ec Li 4 e H
23. Page 12 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Ref Charge Press Press Initiate Minutes Weight Volt Cycle Model Type Ounces Approx Approx Setting 70 50 90 70 Pounds Phase ICE0606 A1 R 404a 36 60 35 175 400 35 11 19 5 5 208 230 60 1 ICE0606 A T1 R 404a 36 60 35 175 400 35 11 19 5 5 208 230 60 1 ICE0606 W1 R 404a 18 60 35 250 35 12 17 5 5 208 230 60 1 ICE0606 R1 R 404a 160 60 33 240 400 33 11 18 5 5 208 230 60 1 ICE0606 A2 R 404a 24 60 35 175 400 35 11 19 5 5 208 230 60 1 ICE0606 A T2 R 404a 24 60 35 175 400 35 11 19 5 5 208 230 60 1 ICE0606 W2 R 404a 18 60 35 250 35 12 17 5 5 208 230 60 1 ICE0606 R2 R 404a 160 60 33 240 400 33 11 18 5 5 208 230 60 1 ICE0606 R3 R 404a 132 60 33 240 400 33 11 18 5 5 208 230 60 1 ICE0606 A3 R 404a 24 60 46 200 400 35 11 15 5 5 208 230 60 1 ICE0606 A T3 R 404a 24 60 46 200 400 35 11 15 5 5 208 230 60 1 ICE0606 W3 R 404a 17 45 40 250 34 11 13 5 5 208 230 60 1 ICE0606 R4 R 404a 132 44 42 240 400 38 11 13 5 5 208 230 60 1 ICE0606 A4 R 404a 24 60 46 200 400 35 11 15 5 5 208 230 60 1 ICE0606 A T4 R 404a 24 60 46 200 400 35 11 15 5 5 208 230 60 1 ICE0606 W4 R 404a 47 45 40 250 34 11 13 5 5 208 230 60 1 ICE0606 R5 R 404a 132 44 42 240 400 38 11 13 5 5 2
24. SHC IN TIME TIC FREEZE CYCLE ES IOT EMOTE FA ITCH N T EMOTE FA ELA OIL ASH ion ELECT ITCH ICE L ELECT p ot i is B TACT TACT E T HARVEST D HOT GA A ue cs V TIME HI TE INITIATE TIME ITCH TROL 1 len L LIQUID LINE ELAY 2 A HI PRE E ELECT TROL IT 14 4 V V ICE ITCH TACT IL E E TROL SESS abe TACT L Page G22 ICE Series Wiring Diagram ICE1405 1406 1806 2005 2106 Air and Water Wiring Diagram E LY pate eum EE NAMEPLATE FOR LINE 2 k B8k K Bl V KB K BK x i4 K I al zoo i TART gt 9 TENTIAL 1 S ELA N Lic K x r TACTOR e e f sh K T 0 3 3K 1 Li r P s a
25. FLAY A TIME INITIATE ELA TROL a 4 OIL i E Tu TAT SELECT LI 5 TROL E F F FREEZ E Page G4 ICE Series Wiring Diagram ICE0250 Air and Water Wiring Diagram Ie owes suppi EE NAMEPLATE F ZE LTAGE REQUIREMENT FUSE OR HACR TYPE BREAKER REQUIRE 5 LY ON LINE SIDE OF POWE LY Fi E T 20 VOLT UNIT DESEE THI IT T Al ELS REQUIRE HA EAKE 1 E EXORDUNEE ATE ELS REQUIRE FUSE OR 7 HIGH E E TROL Em HICH TE 47 7 ANUAL HOT A ITCH JLENOI TERMINAL ELA ENT i e T T pe M 12 TART CAPACIT E SWITCH iK e K e A k 1 e el s hd hd TIME HARVEST ELECT ITCH LE T ICE 4 5 FF 1 A k ITCH INITIATE K e CONTROL e 3K IN FILL ITCH e L L ev FA ATE E
26. ELECT ICE ITCH SELECT ITCH h I RELAY L ES TIMER B IL CONTROL 11 14 4 Vi A y lt ELAS IL z A N LIQUID LINE SOL HOT GA r E ELECT HOT CA ITCH ELA OIL 1 i 4 E SWITCH oL ENTARY E 4 V W v Vi Vi VI IL JRTAI IN TAI ITCH THERMOSTAT ITCH TACT Y N N N IL HI PRE E HI TE TROL TROL ITCH Page G42 ICE Series Wiring Diagram ICEU300 Air and Water LY EE NAMEPLATE F E FUSE OR HACR TYPE SREAKE A LTAGE REQUIREMENT FUSE REQUIREI UAE amp amp FUSE REQUIRE TH SIDE jp i IDE OF POWE LY F POWE AM SWITCH LT UNIT t 240 VOLT UNIT L L ER TE HARVEST A 2 e L 3K 1 V e yw hd ELA ENT ete m x HIGH TEM HOT GA PURGE LENOI LENOI AUTI THIS UNIT MUST TART CAPACIT rte e m K k ELECT ITCH IN FILL THERMOSTAT kt 24 FF K
27. H IN TIME TI FREEZE CYCLE TACT lt ES TACTOR ASH gt OT ELECT ICE IT gt SELECT IT TIME ji Sees L E F DONTRSE d d HI TE p 4 2 i N V RELAY HI PRE E TROL TACT Vi IL Y FA i E L L E T S FA A LJ d v r1 AG ONLY ELECT u TROL ITCH N HOT L TIVER HOT L LL E ENTA URGE SOL E MENT Page G28 C E Series Wiring Diagram ICE1407 1807 2107 Remote Wiring Diagram E L G 1 9 6 NAMEPLATE FOR LINE n LTACE ER FUSE d pw HACR TYPE BREAKER SIZE USE T D EMOTE AUTION THIS UNIT ST E E HARVEST 7 3 e k LENOI LENOI HIGH TCH J Em LL t i t i Page G29 ICE Series Wiring Diagram ICE1407 1807 2107 Remote Wiring Schematic
28. 44 654 w mE ALTERNATE E THIS UNIT T E GROUNDE j ppt 5 Z 3 HIGH PRE E B0X HIGH TE If Gs ITROL JPTIONA ITCH FUSTE TERMINAL Ni T7 7 T e Cage anes E Lic JANUAL RESET HOT GA ATE LE LENOI 7 IODEL L a SHOWN W INTERNAL OVERLOAI r 44 K BK E Le ENT L ELA E SwITCH l Y I k TART E Wo 8 e l 6 N L o TIME pond ELECTO ITCH 1 LE 4 M j f d FF 5 WASH ITCH gt K TIME INITIATE e ONTROL K k e 1 K IN FILL E ITCH e e ATE E nal LENOI Al LE EL L Page G9 ICE Series Wiring Diagram ICE0405 0406 Air and Water Wiring Schematic H IN TIME JRTI FREEZE LE ELA JIL H ATE ELECT ITCH ELAY ICE L ELECTO ITCH ENTA L HARVEST HOT GA ELA TIME HI TE INITIATE TIME SWITCH CONTROL Em SOMPRES T CONTACT d RELA ELA NLS Is FILL ELECT ITCH SWITCH E TACT IL HI PRE E ICE ONTROL 2 L Page G10 ICE Series Wiring Diagram 0500 Air and Water Wiring Diagram w AL 5 3 FUSE OR HACR TYPE BREAKER REQUIRE ALTERNATE COMPRES ONLY ON LINE SIDE OF POWE LY FC AUTION b
29. e HARVEST TACT eo T ELECT ITCH TIME 5 2 LL LE ICE n e 4 FF e_ I eo A A ITCH Te TIVE INITIATE T amp e IN FILL ITCH ES j zu ud E E FA FAN CYCLE LENOI TROL TCH A L A L Page G61 ICE Series Wiring Diagram ICE0500 Air3 and Water3 Wiring Schematic T IL v ATE OT ELECT ITCH ELAN ICE i ELECTO E 1 E lt HARVEST Ls ELAY L TIME INITIATE TIME ITROL T TACTO U RELA FA YCLE ELA i L x NL RO ELECT HI TEM SWITC ITCH SWITCH SES TACTO i 14 ia IL HI PRESSURE ICE NTROL ELAY 2 H N TIME FREEZE 662 CE Series ICE0500 Remote4 Wiring Diagram Wiring Diagram
30. OFF SWITCH 2 5 m ITCH ITCH FF L TIME INITIATE ELAY L ELA IL ICE HICH am E ITCH FF TROL HIGH TEM T HICH TE TACT 94 nu 5e 3K COIL TE LED ONL TIME ELA f IL Page G89 ICE Series Wiring Diagram ICEU305 A W Wiring Schematic From Serial Number 10041280011405 RI HEVATIC Al NATE LE HOWN IN TIME TION FREEZE CYCLE l E E 11 T ASH TYWATE ELECT ITCH AM 2 d A T ICE PURGE E SWITCH MOMENTA ELECT E SWITCH WITCH TT ENTA HOT CAS d M FRONT ITCH HARVEST IOT ICHT M cx TIME ELA DE FA LE FAN fuor TROL FA TCH Bus HARVEST 54 wi T LEFT ITCH HOT CAS d EA ICE IME i 7 iy INITIATE Vi Vi TROL ELECT ELA TROL ITCH e IL HI PRESSURE HI TEM HI TEJ TACT L ITCH ITCH NI NI N N IL ATE LED ONL Page G90 ICE Series Wiring Diagram ICE0400A5 400T6 Wiring Diagram E LY EE NAMEPLATE Fi ER FUSE HACR TYPE BREAKER SIZE A LTAGE REQUIREMENT
31. ITC A L Page G5 ICE0250 Air Water Wiring Schematic ICE Series Wiring Diagram Page G6 TIME FREEZE LE E k ELAY WASH SIS oT ELECT Z ITCH ICE T ELECT d ITCH E E TA jor HARVEST GA ELAY LA VI TIMER HI TE INITIATE ITCH INTROL i 14 a UT RELA EAN j E NLY IN FILL ELECT ITCH ITCH L L E TACT Vi Vi OIL HI RE ICE T ELAY 2 E L ICE Series Wiring Diagram ICE0400 Air and Water Wiring Diagram suem 3 EE NAMEPLATE FO ae A imami ALTERNATE AUTI gt FUSE OR HACR TYPE BREAKER REQUIRE ae L LINE SIDE E d LY F 00 a P N E E ROU I tt FUSITE HIGH PRESSURE HICH TE TROL 7I g TERMINAL pkd E e e E m ANUAL RESET HOT GA LY OLE
32. 1 ELA A ICE n I Vi T ELECT ITCH ATE ASH ELECT ITCH T TACT i VE L Page G92 ICE Series Wiring Diagram ICE0500A5 500T6 Wiring Diagram EE NAMEPLATE ER FUSE HACR BREAKER SIZE LTACE REQUIREMENT 4 FUSE HACR TYPE BREAKER REQUIRE 4 L LINE SIDE OF LY F ATI LT UNIT ine Ea Al ELS REQUIRE HA ATER MODELS REQUIRE FUSE HA TIONAL ANAL Q Q Q 422 HOWN W EXTERNAL HOT L Z LENOI FUSITE 4 TENTIAL TECT ELA 1 E switcH 3 4 7 2 2 Nes Hoe Ho e amp L E e HARVEST TACT I LE ICE L 4 1 e e e 6 WA TCH ITCH TIER INITIATE 2 T e IN FILL L J ITCH K
33. ELECT 6 ITCH AE E TA L y HARVEST o HOT GA ELAY L N LA EE TIVE HI TE INITIAT TIME WITCH 12 i OL 1 FA T AR ONLY ELA FA 4 LY ITCH ITCH i V A A n YI VI Vi ub ICE LY ITROL ELAY 2 ATE L L Page G36 ICE Series Wiring Diagram 0325 0525 Air and Water Wiring Diagram EE EPLATE F ER FUSE HACR KER SIZE LTAGE REQUIREMENT EXTERNAL ALTI T HIGH PRE E FUSE d TROL HIGH TEN ze SWITCH als 5212 e e 2 N et E i v L HOT GAS 3K OLENOID H INTERNAL OVERL TERMINAL LOCI TENTIAL ELA J 1 lt LE L ce K BI N E SWITCH e NS Z N Sad 1 A t e e H L 2 al TACT TIME Con ELECT WIT H i Mis ICE 81 4 d lage
34. EGER _ 4 A Jj T Cau OPTIONAL THI IT m E E TI AL TERMINAL e e e LIQUID LINE HOT GA 1 n LENOI E H EXTERNAL OVERL K BI FUSITE 1 J EN OTENTIAL e k __ Br WT ar od L LI LT ete 4 rr gt EN ob I HARVEST P T ELECT ITCH TIME LE E A 4 4 931 e 24 e et 5 ITCH TIMER INITIATE TROL gk eo IN FILL ITCH ATE E HIGH TE HIGH ITCH TROL TROL Page G101 ICE Series Wiring Diagram ICE726R ICE926R Wiring Schematic HOWN IN TIME TI FREEZE LE E TA L HARVEST T HOT GA L ELA IL ELA A A ELA va IL 11 11 11 TI INITIATE TIME TROL ELA IL t HI TE ITCH TROL TROL A A IL FLAY 2 t t t E IN FILL ELECT LIQUI ITCH ITCH LINE ELA ICE ELECT ITCH ASH 11 ELECT ITCH T EMOTE FA P TACT E Page G102 ICE Series Notes ICE Series Cuber Performance Data
35. INL IN FILL ELECTO SWITCH ITCH NTACT HI PRE E ICE NTROL ELA NLY Page G16 ICE Series Wirinq Diaqram ICE0605 0606 0805 0806 1005 1006 Remote Wiring Diagram TE HE AL CIRCUITED REMOTE CONDENSE LY THE REMOTE FAN MOTOR MUST BE WIRED TO IT LY AS THE CIRCUITRY IN THE EE NAMEPLATE FO ER FUSE ICE MACHINES WILL NOT ALLOW FOR INDIVIDUAL HACR BRFAKER SIZE TROL OF THE FAN MOTO LTACE REQUIREMENT _ AUTI THI IT T w i FA E GRC ALTERNATE CO 4 ee H EXTERNAL LOA Z BAT NFA 5 FUSITE gp l x HIGH PRESSURE s HIGH ITROL d C ITCH BK 4 xe eo TECTC 25 ANUAL RESET MPRE H INTERNAL OVERL TENTIAL 2 2 AY bs b Z e N HOT SOLEN E SWITCH 2 S lt
36. ASH 9 TIVER INITIATE TIMEI ITROL ie ELA HIGH PRESSURE TROL E SWITCH e FAN MOTORS NL K K 43 ICE Series Wiring Diagram ICEU300 Air and Water WAT OT H ELECTC LA 1 L LECTC N C HARVEST HOT G an TI LLA INITIAT TI ELAY JNTROL I f OIL FA A FA IN FILL THERMOSTAT y ELECT 4 L L m TROLS SH TIME F FREEZE Page G44 ICE Series Wiring Diagram ICEU305 Air and Water WEI L EE NAMEPLATE F THIS UNIT MUST BE FUSE OR HACR TYPE BREAKE IZE LTAGE REQUIREMENTS TCH L par ER TE HARVEST OT on 7 t RE Ayo k ATER PUN a HICH TE 5 WITCH LENOI LENOI e e e m C K SELECTO IN FILL THERMOSTAT
37. BK xL b L d E e veal tet OTENTIAL 2 r T ELA 2 f K o HOT GA LENOI E SWITCH 2 Ho bd e et o START ELECT ONTACT ITCH GET 4 HARVEST FF e T 9 1 e Z TIME ASH LE J 2 INITIATE NT E L e TROL K e e e e c ATE LIQUID LINE HIGH LENOI LENOI ITCH ITCH Page G47 ICE Series Wiring Diagram ICE0500 Remote Wiring Schematic R3 H IN TIME FREEZE LE ESS EMOTE FAN SWITCH N EMOTE ELAY iL ATE 11 p ELECT I ITCH ELAY L ICE I ELECT i E ITCH L E TA 2 34 HARVEST oO HOT GA ELA L TIVE INITIATE TINE CONTROL 4 d E A col T CONTACT RELA L LIQUID LINE N ELAY 7 HI PRESSURE Nn ELECT ONTROL ITCH ICE ITCH MPRESS TACTOR i 20i HI TE E E CONTROL ITCH Page G48 ICE Series Wiring Diagram ICE0605 0606 0806 1006 Remote Wiring Diagram R3
38. E TA cL A T op HARVE LY HOT GA l HI TE INITIATE TIME ITCH TROL He E LA IL PREDA Euer ELA IN FILL ELECT ITCH SWITC V V E TACT Vi VI IL HI RE E ICE TROL ELAY 2 2 ONS 12 ICE Series Wiring Diagram ICE0500 Remote Wiring Diagram EE NAMEPLATE F ER FUSE HACR TYPE BREAKER SIZE LTAGE REQUIREMENT Be TE WHEN USI AL CIRCUITED REMOTE ENSE ti FA CAUTION THE REMOTE FAN T BE WIRED TO IT uw me LY AS THE CIRCUITRY IN THE A 019 V 1 hr EE ICE MACHINES WILL NOT ALLOW FOR INDIVIDUAL H EXTERNAL OVERLOA TROL OF THE FAN gt ITCH r FUSE OR HACR TYPE BREAKER REQUIRE 1 BU ag l m ERE L LINE SIDE OF POWE LY F at Ass TIONAL 2
39. WER TE RED WIRE USE HARVEST e e n 24 LT UNIT ALTERNATE ESSC T j AUTI THIS UNIT MUST BE 4 a yy A SP START i o EL 97 w WATE HICH TE HOT GA EC TCH LENO k ee W i TART N E gis t 1 3K p k ELECTI TCH IN FILL THERMOSTAT Li n or ASH c3 TIMER INITIATE TIME TROL 9 0 ate prem ELA 22 HIGH E E TROL AL RESET E SWITCH Eon L K e E Page G1 ICE Series Wiring Diagram ICEU150 200 205 206 Air and Water Wiring Schematic THERI FILL AT ATE ELA ELA ELEC Page G2 TIO OF FREEZE CYCLE ICE Series Wiring Diagram ICEU150 220 225 226 Air and Water Wiring Diagram lt NAMEPLATE F OPE FUSE OR HACR TYPE BREAKF TACE IREMENT FUSE IRED ONL we d ruse RE sl F L E TCH OLT UNIT 40 VOLT UNIT 2 NER TE EST TIT e m T SS THI UST BE ELA ji k gt 3 T HIGH T HOT E TCH LENOI TA P e ce E SELECI WITCH ILL THERMOSTAT E el l JF f ASH N 2 TIMER INITIATE V TROL O HET Ix ELA HIGH PRESSURE NRO E SWITCH Page G3 ICE Series Wiring Diagram ICEU150 220 225 226 Air and Water Wiring Schematic ELE V SOL ELECT IENTA mer
40. ee 6 t e e et o i START 14 B ELECTOR ONTACT TROL SWITCH ICE e i HARVEST le TIME e e LE k WITCH ME INITIATE ONT La e ITCH N e e MK P 4 LIQUID LIN ATE CE SALES JLENOI LENOID Page G17 ICE Series Wiring Diagram ICE0605 0606 0805 0806 1005 1006 Remote Wiring Schematic HOWN IN TIME T FREEZE CYCLE E s EMOTE F ITCH T EMOTE FA mE IL ATE 1 T ELECT IT ELAY L L 1 ELECT iT E idus E TA le HARVEST 7 TIVE HI TE INITIATE TIME ITCH TROL L COMPRESS Ll T CONTACTO ri ELAY L LIQUID LINE RELAY 2 A HI PRESSURE GING ELECTOR NTROL SWITCH LA ICE ITCH m E 1 IL ESSURE CONTROL WE L Page G18 C E Series ICE1007 Air and Water Wiring Diagram Wiring Diagram
41. crimps etc Check Evaporator coil separation see page E4 TXV possibly defective see page E3 and page E4 Page C7 NO NOT OK NOT OK Correct deficiency in installation Go to Troubleshooting Tree on page C12 Low charge locate and repair leak evacuate and recharge system Correct restricted tubing Replace defective Evaporator ICE Series Troubleshooting Trees High Suction Pressure Have you checked the Slow Production Tree YES Is the head pressure also high Is the machine installed to specifications YES Is the Condenser dirty Check for leaking Purge valve NO Go to Slow Production Troubleshooting Tree NO Check Hot Gas Valve see page E5 NOT OK Hot Gas Valve is possibility defective NO Correct installation defects Repair or replace defective part Clean the Condenser NOT OK Check Condenser Fan Motor and Blade for proper OK operation and or Water Valve or Mixing Valve Page C8 Replace Compressor NOT OK OK Check Compressor see page E1 TXV could be defective see Expansion Valve see page and E4 TVX Thermal bulb loose or TXV could be defective STILL TOO HIGH OK Evacuate and recharge system ICE Series Troubleshooting Trees
42. less 1 NASH 252 9 TIMER INITIATE TIME T 2 TART u 4 oe E ELA HICH PRESSURE NTROL AL RESET E SWTCH k MOTC NL Page G45 ICE Series Wiring Diagram ICEU305 Air and Water INITIATE TIVE T IN FILL A THE TAT ICE Page G46 ICE Series Wiring Diagram ICE0500 Remote Wiring Diagram R3 EE NAMEPLATE Fi ER FUSE HACR BREAKER SIZE LTAGE REQUIREMENT _ AUTI e T as mU F E E ALTERNATE COMPRE 4 T ad H EXTERNAL OVERL TEPER lS TIONAL I ENSE NAL FUSTE ACKAGE TERMINAL HIGH PRE TROL Trt 4
43. or j l e ut si e o o o ITCH 2 e x IN FILL P k ITCH e e e TIME FAN FAN INITIATE ATE m 1 LE L AIR COOLE L ICE A L Page G37 ICE Series Wiring Diagram 0325 0525 Air and Water Wiring Schematic HO FRE E LE E I ELA DIL ASH ELECT ITCH ELAY L ICE L ELECT ITCH ENTARY Ty HARVEST op HOT ELA HI TE INITIATE TIME ITCH L ai TACT 4 oll EAN MOT AIR ONL ELAY EAN MOT IN FILL e ICE 525A ONLY AIR ONL ITCH WITCH u LA TACT VI Yi V1 IL HI PRESSURE ICE TROL T ATE D cA E L G38 ICE Series Wiring Diagram ICE0305 Air and Water Wiring Diagram Power EE NAMEPLATE F ER FUSE HACR TYPE IZE A L
44. 11357 3 20 18 7 12 3 R404A 132 3742 ICE0500 R4 115 60 1 455 207 10278 3 20 14 9 9 3 R404A 132 3742 ICE0500 A4 115 60 1 458 208 9990 3 20 19 1 13 3 R404A 25 709 ICE0500 A T4 115 60 1 470 214 9982 3 20 19 1 13 3 R404A 25 709 ICE0500 A T5 115 607 470 214 9982 3 20 19 1 13 3 R404A 25 709 ICE0500 A5 115 601 448 203 9835 3 20 19 0 13 3 R404A 25 709 ICE0500 T6 115 60 1 448 203 9790 3 20 19 0 13 3 R404A 25 709 ICE0500 W4 115 60 1 513 233 9777 3 20 14 3 11 0 R404A 15 425 ICE0500 R5 115 60 1 455 207 10278 3 20 14 9 9 3 R404A 132 3742 ICE0520 A1 115 60 1 353 160 8441 3 20 18 3 12 3 R404A 32 907 ICE0520 W1 115 6071 442 201 8356 3 15 13 5 10 4 R404A 14 397 ICE0520 A2 115 60 1 353 160 8441 3 20 15 4 10 6 R404A 20 567 ICE0520 W2 115 60 1 442 201 8356 3 15 13 5 10 4 R404A 14 397 ICE0520 A3 115 60 1 370 168 7753 3 20 16 0 11 1 R404A 21 595 ICE0520 W3 115 6071 442 201 7852 3 15 11 8 9 0 R404A 12 340 ICE0520 A4 115 60 1 370 168 7753 3 20 16 0 11 1 R404A 21 595 ICE0520 W4 115 60 1 442 201 7852 3 15 11 8 9 0 R404A 12 340 Page H2 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICE0606 A1 208 230 60 1 525 239 11538 3 15
45. 175 400 35 13 20 3 220 240 50 1 ICE0325 A3 R 404a 33 60 35 175 400 35 13 20 3 220 240 50 1 ICE0325 A4 R 404a 33 60 32 175 400 32 13 20 3 220 240 50 1 ICE0405 A1 R 404a 32 60 35 175 400 35 15 26 55 220 240 50 1 ICE0405 W1 R 404a 16 60 35 250 35 14 20 5 5 220 240 50 1 ICE0405 A2 R 404a 23 60 35 175 400 35 15 26 5 5 220 240 50 1 ICE0405 W2 R 404a 16 60 35 250 35 14 20 5 5 220 240 50 1 ICE0405 A2 R 404a 23 56 31 200 400 38 17 23 5 5 220 240 50 1 ICE0405 W2 R 404a 13 54 34 250 41 15 17 5 5 220 240 50 1 ICE0405 A3 R 404a 23 56 31 207 400 38 16 22 5 5 220 240 50 1 ICE0405 W3 R 404a 13 57 34 250 41 14 17 5 5 220 240 50 1 ICE0405 A4 R 404a 23 56 37 207 400 37 16 22 5 5 220 240 50 1 ICE0405 W4 R 404a 13 57 37 250 37 14 17 5 5 220 240 50 1 ICE0525 A1 R 404a 21 60 35 175 400 35 15 26 5 5 220 240 50 1 ICE0525 A2 R 404a 21 60 35 175 400 35 15 26 5 5 220 240 50 1 ICE0525 A3 R 404a 21 55 38 200 400 46 13 18 5 5 220 240 50 1 ICE0525 A4 R 404a 21 55 35 200 400 35 13 18 5 5 220 240 50 1 ICE0605 A1 R 404a 32 60 35 175 400 35 13 21 5 5 220 240 50 1 ICE0605 W1 R 404a 14 60 35 250 35 14 21 5 5 220 240 50 1 ICE0605 R1 R 404a 160 60 35 192 400 35 14 22 5 5 220 240 50 1 ICE0605 A2 R 404a 22 60 35 175 400 35 13 21 5 5 220 240 50 1 0605 2 R 404a 14 60 35 250 35 14 21 5 5 220 240 50 1 ICE0605 R2 R 404a 160 60 35 240 400 35 14 22 5 5 220 240 50 1 ICE0605 R3 R 404a 132 60 35 240 400 35 14 22 5 5 22
46. 180 days 6 months or less eProgram is available with all IFQ and IFI filter systems eReplacement filter must be model number IOMQ or IOMWFRC eAvailable in the USA and Canada only Warranty If during the warranty period customer uses a part for this Ice O Matic equipment other than an unmodified new part purchased directly from Ice O Matic Ice O Matic Distributors or any of its authorized service agents and or the part being used is modified from its original configuration this warranty will be void Further Ice O Matic and its affiliates will not be liable for any claims damages or expenses incurred by customer which arises directly or indirectly in whole or in part due to the installation of any modified part and or part received from an unauthorized service center Adjustments are not covered under warranty Warranty Procedure If the customer is using a part that results a voided warranty and an Matic authorized representative travels to the installation address to perform warranty service the service representative will advise customer the warranty is void Such service call will be billed to the customer at the authorized service center s then applicable time and material rates Ice O Matic Warranty Every Ice O Matic ice maker is backed by a warranty that provides both parts and labor coverage To view the warranty details register products or check your warranty status visit the Warranty and Water Filter Regi
47. 30 13 5 10 1 R404A 44 1247 ICE2107 R5 208 230 60 3 1525 693 29342 4 25 21 2 13 5 R404A 272 7711 Page H5 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICEU205 A1 230 50 1 145 66 3842 3 15 6 0 4 1 R 134a 14 397 ICEU205 W1 230 50 1 175 80 3768 3 15 5 6 4 2 R 134a 11 312 ICEU205 A2 230 50 1 145 66 3842 3 15 6 0 4 1 R 134a 14 397 ICEU205 W2 230 50 1 175 80 3768 3 15 5 6 4 2 R 134a 11 312 ICEU225 A1 230 50 1 143 65 3774 3 15 4 9 3 3 R404A 12 340 ICEU225 W1 230 50 1 174 79 3780 3 15 4 1 3 0 R404A 9 256 ICEU225 A2 230 50 1 143 65 3774 3 15 4 9 3 3 R404A 12 340 ICEU225 W2 230 50 1 174 79 3780 3 15 4 1 3 0 R404A 9 256 ICEU225 A3 230 50 1 143 65 3774 3 16 4 9 3 3 R404A 12 340 ICEU225 W3 230 50 1 174 79 3780 3 16 4 1 3 0 R404A 9 256 ICEU305A1 230 50 1 223 101 5392 3 15 6 4 4 2 R404A 14 397 ICEU305W1 230 50 1 267 121 5080 3 15 4 7 3 5 R404A 13 369 ICEU305A2 230 50 1 223 101 5392 3 16 6 6 4 2 R404A 14 397 ICEU305W2 230 50 1 267 121 5353 3 16 8 3 3 5 R404A 13 369 ICE0305 A2 230 50 1 266 121 7079 3 15 12 4 8 2 R404A 26 737 ICE0305 w2 230 50 1 291 132 6590 3 15 8 5 82 R404A 14 397 ICE0305 A3 230 50 1 266 121 7079 3
48. CONDENSER RECEIVER u a HIGH PRESSURE GAS MN HIGH PRESSURE LIQUID W LOW PRESSURE GAS LOW PRESSURE LIQUID Page E7 ICE Series Refrigeration System Refrigerant Refrigerant in a high pressure liquid form is fed to an expansion valve where the refrigerant is reduced to a low pressure liquid Under this low pressure the liquid will absorb heat from the evaporator causing the liquid to change to a vapor This vapor is the drawn into the compressor where the temperature and pressure of the vapor are increased The high temperature high pressure vapor flows to the condenser where the heat is removed causing the vapor to return to the liquid form making the refrigerant ready to flow back to the evaporator to pick up more heat Most Ice O Matic ice machine use R134a or R404a refrigerant Always check the serial number data plate for the proper type of refrigerant and the amount used in the machine you are servicing R404a and R134a are both HFC refrigerants which result in no ozone depletion factor R404a cylinders are orange in color R134a cylinders are light blue in color Important When discharging refrigerant from an icemaker recover as much of the refrigerant as possible with a recovery device or some other means to prevent the refrigerant from entering the atmosphere Method of Charging In order to achieve a properly charged refrigeration system the system must be completely evacuated
49. Cubes Are Hollow Purge Valve has an obstruction or could be defective Is water leaking from the Purge Drain Is there good water flow over the Evaporator Is the water temperature above 100 F 38 C Water Go to the Poor Timer Module temperature too Water Distribution Check Timer for requires high correct Over Evaporator proper setting see adjustment or water Troubleshooting page F4 could be temperature Tree page C13 defective Timer Initiate Control out of adjustment of defective Page C9 ICE Series Troubleshooting Trees Uneven Bridge Thickness Make sure supply water temperature is below 100 F 38 C Check for water leaking out of Purge Drain Dirty or defective Purge Valve OK YES Is water running into the bin NO Are the Evaporator s flooded See page E4 and E5 NO YES NO Check the suction HIGH pressure is it high or low See pageE1 LOW Make sure the system is charged properly recover the charge and weigh in the correct amount OK Refer to page E3 and E4 for TXV diagnosis Page C10 Problem in water system see pages D1 and D2 Serpentine coil on back of evaporator could be separated see page E4 Hot Gas Valve could be leaking see page E5 Ice bridge Thickness Varies Cycle To Cy
50. I b d T NA ERE i HUND L T TACT TACT ATE LK 1 HARVEST LEFT NN _ 4 COIL we ees RELAY 3 COIL HOT GAS SOLENOID Km FRONT N Ly HOT GAS SOLENOID Z L 7 HARVEST IGHT AM SW ji 34 9 SWITCH ITCH Ms IE 2224 pu FF ASH 3 NO2 EN N S RELAY 2 z LO gl 1 27 N 3 9 1 7 ELAY_3pk TIMER ELAY MV egi ASH LIQUID LINE SOLENOI 8K TIVE TIMER ELAY kr 2 1 IL HIGH E TROL TROL m ST aT IL Page G81 ICE Series Wiring Diagram ICE1407R ICE1807R ICE2107R Wiring Schematic From Serial Number 09041280010342 L _ REMOTE _ ENSE 4 TACT TACTOR 4 VI T yl TIMER ELA 4 iL ASH TYWATE ELECT va I ITCH E ICE B V L VI J4 ELECT ITCH E SWITCH AM L MENT ITCH HOT GAS L FRONT H EST IGHT ELA IL HARVEST ITCH T LEFT HOT CAS L SOL EA TIME INITIATE TROL 3 1 4 ELA L LIQUID LINE ICE L 14 4 Mp Vi Vi Vi L ELECT ITROL ITCH HI 2RESSURE HI TEM HI TE TACT TROL TR
51. IME i 4 iL RELA LI J R 1 4 TROL THERMOSTAT TROL HI PRESSURE TROL TROL HI TE HI TE TACT NI NI N N IL EC Page G78 ICE Series Wiring Diagram ICE1406 5R ICE1806R ICE2106R Wiring Diagram From Serial Number 09041280010342 LARGE ER REMOTE LE L FE EPLATE m lt cul r gt tL r REMOTE E l 1 1 1 1 TART k G pt ELA bok T TACT K F TACT T i T K HARVEST LEFT MOT 4 COIL ELAY IL mA cel HOT LENOID FRONT LY HOT LENOID k _ A HARVEST IGHT oA 1 eee ail OFF SWITCH ITCH e mE cde EE LENGI 5 L Pi 2 L ELA z a 3 pr 2 ut i ELA TIMER ELAY ICE L 1 k ee NM e ASH 9 J LIQUID LINE L TIVE INITIATE ELAY T TIVER IL HICH E ITCH IN HI LTE TACT m T i IL E Page G79 ICE Seri
52. ITRY IN THE ICE MACHINES WILL NOT ALLOW FOR INDIVIDUAL x TROL OF THE EE NAMEPLATE F ER FUSE HA IZE TYPE BRE AN LTAGE REQUIREMENT ENSEI e ACKACE TIONAL 1 pur e gl pu ANUAL RESET B TERMINAL k BLOCI Ill ll J 4 K HOT GA Mt LENOI E SwITCH e APRE N eL es Lekt ee e el o c 3k K ELECTO K ICE e 7 1 HARVEST Fre T De 2 6 k 20 J TIVE u LE Y ITCH TIME INITIATE TROL TCH p 4 N LU LIQUID LINE TE LENCI LENOID Page G21 ICE Series Wiring Diagram ICE1007 Remote Wiring Schematic
53. KAGE TERMINAL HIGH PRE E mE n TROL LI Q E H INTERNAL OVERLOA K Bl Q E e o HOT LENO HCH 5 N 4 61 Ho ele w 2 e e ELECT TACT ITCH _ m 4 HARVEST T FF o e e e m TIME ASH LE TCH TIME INITIATE e _ TROL e e e e LIQUID LINE HICH TE LENOI LENOI ITCH ITCH Page G67 ICE Series Wiring Diagram ICE0606 Remote4 amp 5 and ICE0605 Remote4 amp 5 Wiring Schematic ICE0806 Remote4 and ICE0805 Remote4 Wiring Schematic ICE1006 Remote4 and ICE1005 Remote4 Wiring Schematic b ELA n ATE 11 i ELECT ITCH ELAY ICE 1 L i ELECT IT E Ty HARVEST Ly HOT GA ELAY L TIME INITIATE TIME gt E LA m TACT 4 L LIQUID LINE _ ELAY 2 HI PRE E ELECTI NTROL ITCH P Vi Vi ICE ITCH L E TACT V li IL E TROL ITCH H IN TIME TION FREEZE LE Page G68 ICE Series Wiring Diagram ICE1405 6A3 W3 ICE1806W3 and ICE2106W3 Wiring Diagram
54. PRE ELECT TROL ITCH LA P Fi Vi ICE ITCH L VI Vt OIL 20 ESSURE CONTROL SWITCH L G50 ICE Series Wiring Diagram ICE1007 Remote Wiring Diagram R3 ITCH EMOTE FUSE HIGH E E amp TROL 1 I l 1 1 o Q Q e e ITCH e A L U 4 e e s et ELECTOR ed ITCH 4 bg PX OFFe A e 1 o ASH TIVE I LE ITCH TIME INITIATE ITROL i i pBK e K K TROL m N N m LIQUID LINE HIGH TE A E TE LE SOLENOI WITCH ITCH Page G51 ICE Series Wiring Diagram IC
55. TIMED TK FREEZE CYCLE Page G64 ICE Series Wiring Diagram ICE0606 Air3 and Water3 ICE0605 Air3 and Water3 Wiring Diagram ICE0806 Air3 and Water3 ICE0805 Air3 and Water3 Wiring Diagram ICE1006 Air3 and Water3 ICE1005 Air3 and Water3 Wiring Diagram AUTI THI IT T a E nam HIGH PRE E 7 T L INAL e e 1 1 2 N HOT L LENOI TENTIAL ELA EL H INTERNAL OVERLOA E SWITCH A _ jM m 2 44 Hoe e H 1 e e TACT TIVE HARVEST LE T ELECT ITCH 4 D e e 1 5 4 FF HI e ASH A ITCH TIME INITIATE T e e FAN IN FILL HEN REQUIRE THE TAT e e 1 d F HIGH TE FA LE FAN LENOI ITCH NTROL 4 Page G65 ICE Series Wiring Diagram ICE0606 Air3 and Water3 ICE0605 Air3 and Water3 ICE0806 Air3 and Water3 ICE0805 Air3 and Water3 ICE1006 Ai
56. To achieve a complete evacuation you will need a service gauge manifold with properly maintained hoses and a vacuum pump capable of pulling a 50 micron vacuum This will require a two stage pump Connect the service gauge manifold to the high and low side service ports and vacuum pump Make sure the valves on the gauge manifold are closed then start the pump Note Do not use a refrigeration compressor as a vacuum pump Compressors are able to pull only a 50 000 micron vacuum After the vacuum pump has been started open the valves on the gauge manifold This will allow the refrigeration system to start being evacuated If there has not been an excessive amount of moisture in the system allow the vacuum pump to pull the system down to about 200 microns or 29 9 inches or less Once this has been achieved allow the vacuum pump to operate for another 30 minutes Then close the valves on the gauge manifold and stop the vacuum pump Then watch your gauges A rise to 500 microns in three 3 minutes or less indicates a dry system under a good vacuum If your gauge registers a more rapid rise the system either has moisture remaining or there is a leak in the system requiring a check for the leak and repair and another complete evacuation Note Seal the ends of the gauge manifold hose and pull them into a deep vacuum to determine if the leak is not in the hoses The gauge manifold should be able to hold the vacuum for three 3 minutes Pag
57. Wiring Schematic IRI HEMATI EMOTE LE HOWN TIME TION FREEZE CYCLE E _ _ _ REMOTE ENSE TACTOR E V1 ASH i ELECT ITCH TP L TcH 1A T E ICE L I E SWITCH u E SWITCH ITCH R Ei HOT GAS ITCH FRONT HARVEST T WE RIGHT _ INITIATE TROL TMER ep 4 col LIQUID LINE SOLENOI L TCH p EN _ T HARVEST 54 AN T LEFT ITCH 2 N HOT CAS SOL EA ICE LI VI Vi Vi TIMER s ELECT ELA Ah ROT e J 4 L HI PRESSURE HI TE HI TE TACT TROL NTROL ITCH ITCH 1 E P g VI L E Page G74 ICE Series Wiring Diagram ICE1407R3 ICE1807R3 and ICE2107R3 Wiring Diagram L EE NAMEPLATE t l FAN 1 A Ste ser olor eS ee Le ieee EE Ei 1 pod NE REMOTE Rod NE CONDENSER Pg d ESSO J 15 1 PN T N cl 4 TIN TACT 422 E T T MT CONTACTO ATE LI T HT HARVEST Ki _ L COIL N ELAY 3 COIL PETERE HOT DLENOID L HOT SOLENOID EAR 501 m ICHT i 1 4 W E T 18 21 OFF SWITCH 2 B
58. and Relay 4 ICE1506 Applications Relay 3 and Relay 4 bypass the bin switches to allow the curtains to open and close during the freeze cycle on an ice dispenser application This will prevent the ice machine from shutting off during dispenser agitation Page F3 ICE Series Electrical System Timed Freeze Sample Timer When the freeze timer is energized the machine is in the timed portion of the freeze cycle The freeze timer will time out the remainder of the freeze cycle Once the time has passed the machine will enter the harvest cycle dons Freeze Timer D The freeze time is an adjustable timer used to control the ice bridge thickness The freeze timer is factory set but may need to be adjusted upon initial start up of the machine When time is added to the freeze timer the length of the freeze cycle is increased therefore the ice bridge D thickness is increased When time is removed from the timer the freeze cycle is decreased and 1 4 dN oj E3 jo 3 4 Jo e fo e i the ice bridge thickness is decreased The freeze timer can be adjusted by sliding one or more switches to either the ON or OFF position to obtain the setting which will produce the proper bridge thickness A timer setting of 128 and 256 Combine main esconde switched ON will provide an initial t
59. c Make sure of the correct MFD and voltage rating of the capacitor d Check for correct voltage Check for excessive head pressure Check start relay a Check incoming voltage to make sure it is no more than 5 lower or 10 higher than machine rated voltage b Make sure of the correct MFD and voltage rating of the capacitor Compressor Troubleshooting Guide 3 Compressor starts but trips on overload Continued 4 Compressor short cycles 5 Contacts sticking on start relay e Excessive suction or discharge pressure f Internal mechanical damage g defective overload h Shorted or grounded motor windings a Control defective or improperly adjusted b Shortage of refrigerant c Discharge pressure too high d Discharge valves leaking a Short cycling b No bleed resistor on start capacitor e Check expansion valve for proper superheat Check hot gas valve for leakage System may be overcharged Condenser may be restricted Damaged compressor valves f Check compressor amp draw g Make sure compressor has cooled then check for open overload h Ohm out the windings a Check bin control pressure controls or contactor b make sure system is fully charged c make sure condenser is clean d Check compressor amp draw a Check for reason in compressor short cycles above b Replace start capacitor Compressor Troubleshooting Guide 1 Compressor hums but
60. charge per nameplate Page C18 ICE Series Water System tribution Tube Water Distribution and Components Water enters the machine through the float valve located in the water trough The water trough holds water used for ice making The float valve is used to maintain the proper water level in the water trough During the freeze cycle water is continuously circulated over the evaporator by the water pump When the machine enters harvest the purge valve not shown opens and mineral laden water is pumped out of the water trough to the drain After water is purged from the trough the water pump and purge valve are de energized and the trough refills Float Valve The water level can be adjusted by carefully bending the arm of the float The water level should inch 13mm above the top of the water pump impeller housing during the freeze cycle If the float valve does not allow water into the trough or water flow is slow the float valve may be restricted Remove and disassemble the float valve and clean the orifice If the water flow is still slow check the water pressure to be sure it is at least 20 PSI 1 4 bar If the float valve does not stop the water flow make sure the water pressure to the machine does not exceed 60 PSI 4 1 Bar Install a water pressure regulator if the pressure is too high If the water pressure is not the prob
61. following installation guidelines must be followed Failure to do so may result in loss of production capacity premature part failure and may void all warranties Installation Guidelines e Ambient operating temperatures 20 F 28 9 C to 120 F 48 9 C e Maximum refrigerant line length 60 ft 18 29 Meters e Maximum vertical rise 16 ft 4 88 Meters e Minimum condenser height ICE Series ice machine remote condensers must not be installed more than 6 feet 1 3 meters below the refrigerant line quick connects at the rear of the ice machine No part of the refrigerant lines between the ice machine and the remote condenser should fall below this point Condensers must have a vertical airflow When installing the condenser above the machine When installing condenser below the ice machine DO Ada 3 lbs 1361 grams of refrigerant to DO Slope refrigerant lines downward toward comptessor system DO Slope refrigerant lines downward toward condenser Air Flow DO NOT Install any part of the refrigerant lines below the DO NOT Install the condenser lower than 6 1 83 meters quick connect fittings at rear of machine below the quick connect fittings at rear of machine DO NOT Create oil traps in refrigerant lines by sloping lines downward then rising upward Connecting Precharged Line Sets Before connecting line set fittings to the machine and condenser lubricate threads and o rings with refrigerant oil Leak check con nec
62. refrigerant charge data on page A5 A8 Condenser maa High Pressure Gas MME High Pressure Liquid Low Pressure Gas EZEZZNE Low Pressure Liquid Refrigerant Pressures Filter Drier The suction pressure at the beginning of the freeze cycle can vary 10 psi 7 bar depending on operating conditions Reference Chart on page 11 16 Pressures less than this may indicate an undercharge The discharge pressure on water cooled units should be 250 psi 17 01 bar for R404a units and 150 psi 10 21 bar for R134a units The discharge pressure on air cooled units will vary with ambient conditions but will typically run higher than water cooled units Remote condensers located in ambient temperatures below 70 F 21 C will typically run a lower discharge pressure See Mixing Valve later in this section Refrigerant in a gas state is pumped throughout the refrigeration system by a hermetic compressor to the condenser Heat is removed from the refrigerant either by forced air movement through an air cooled condenser or transferring heat from the refrigerant to water through a water cooled condenser The refrigerant changes to a liquid when cooled The refrigerant in a liquid state passes through a filter drier The filter drier traps small amounts of moisture and foreign particles from the system The filter drier must be replaced whenever the refrigeration system is opened or if the refrigerant charge has been comp
63. until the timer initiate control closes at which point the voltmeter should read zero volts Note the suction pressure at this point Adjust the timer initiate if necessary Turning the adjustment screw counter clockwise will lower the cut in pressure turning the adjustment screw _ clockwise will raise the cut pressure The differential is preset and s does not require adjustment If the control cannot be adjusted to the s L correct pressure setting or if the cut in point is erratic the control must be d d replaced If the suction pressure is not dropping properly see the l Troubleshooting Tree Machine Does Not Enter Harvest in Section C Adjustment Screw Relay 1 Relay 1 is used to energize the fan motor on air cooled units The fan is energized through the common and normally closed contacts Relay 2 Note Relay 2 is not used on Undercounter models On single evaporator machines relay 2 is used only to bypass the bin control during the freeze cycle and the first part of the harvest cycle Relay 2 is energized through the normally closed contacts of the cam switch at the beginning of the freeze cycle When energized Relay 2 will prevent the machine from shutting off if the bin switch opens The relay will remain energized until the cam switch is lifted onto the high part of the cam during harvest At this time the machine will shut off if the bin switch is open Relay 3
64. valve for contaminants if found replace the hot gas valve and expansion valve Purge the system with nitrogen Note Do Not Use Refrigerant to Purge the System Install the new compressor and start components Install a new liquid line filter drier Note always cut filter out with refrigerant tubing cutter do not unsweat filter with a torch Install a suction line filter drier The suction line filter should be purchased through local ACR wholesale house will reimburse for cost of suction line cleanout filter if warranty so please supply copy of invoice for suction cleanout filter Now pull a deep vacuum 200 to 500 microns static on system Charge system with virgin refrigerant according to the amount indicated on ice machine data plate After 24 hours of actual run time recover refrigerant and remove suction cleanout filter and replace liquid line filter Again do not unsweat filters with torch Use a refrigerant tubing cutter to remove filters Pull deep vacuum 200 to 500 microns static on system once filter is changed Charge system with virgin refrigerant according to the amount indicated on ice machine data plate At this point the refrigeration system should be clean Leak check as required ICE O MATIC COMPRESSOR SPECIFICATIONS COMPRESSOR amp COMPONENT PART USAGE START RUN COMPRESSOR SUPPLIER MODELNUMBER capacitor CAPACITOR RELAY OVERLOAD INTERNAL 9181005 22
65. will be placed on the back of the unit Small data plate will be placed by the service valves Page A4 ICE Series General Information Installation Guidelines Note Installation should be performed by an Ice O Matic trained Service Technician For proper operation of the Ice O Matic ice machine the following installation guidelines must be followed Failure to do so may result in loss of production capacity premature part failures and may void all warranties Ambient Operating Temperatures Minimum Operating Temperature 50 F 10 C Maximum Operating Temperature 100 F 38 C 110 F 43 C 50 Hz Models Note Ice O Matic products are not designed for outdoor installation Incoming Water Supply See Plumbing Diagram for line sizing Page A6 A13 Minimum incoming water temperature 40 F 4 5 C Maximum incoming water temperature 100 F 38 C Minimum incoming water pressure 20 psi 1 4 bar Maximum incoming water pressure 60 psi 4 1 bar Note If water pressure exceeds 60 psi 4 1 bar a water pressure regulator must be installed Drains All drain lines must be installed per local codes Flexible tubing is not recommended Route bin drain purge drain and water condenser drain individually to a floor drain The use of condensate pumps for draining water is not recommended by Ice O Matic Ice O Matic assumes no responsibility for improperly installed equipment Water Filtration A water filter s
66. will cycle on at 250 psi 17 01 and cycle off at 200 psi 13 61 bar 9 ICE Series Electrical System Electrical Sequence for the ICE1400 Series Version 3 amp 4 ICE1800 Series Version 3 amp 4 and the ICE2100 Series Version 3 amp 4 Cubers Manufactured from January 2008 ICE1400A W3 amp 4 1800W3 amp 4 and 2100W3 amp 4 Electrical Sequence Includes 50 hz And 3 Phase 1 Suction Pressure starts out at approx 60 psi and slowly drops to close the LP Control 2 The LP Control energizes Relay Number 2 Coil 3 Relay Number 2A contacts C and NO close to bypass the bin switches Relay Number 2B contacts close and energize the timer 4 The Timer times out and energizes Relay Number 1 Coil 5 Relay Number 1A contacts C and NO close to send power to Cam Switch Number 2 contacts C and NC which energizes Harvest Motor 2 Hot Gas 2 and Relay Number 3 Coil 6 Relay Number 1B contacts C and NO close to energize Harvest Motor 1 and Hot Gas 1 7 Relay Number 1B contacts C and NC open to de energize the fan motors 8 When the LP Control opens during hot gas the circuit is latched through the Purge Switch contacts C and NC 9 Relay Number 3A contacts C and NO close to send power to the Selector Switch and Hot Gas Valves when the curtain is open 10 Once Cam Switch 2 contacts C and NO close High Side of the Cam it will remain energized from the Selector Switch until contacts C and NC close Rotates 360 degrees 11 Onc
67. will not start 2 Compressor will not run does not try to start 3 Compressor starts but trips on overload a Improperly wired b Low line voltage c Defective start or run capacitor e Extreme head pressure f Shorted or grounded motor windings g Internal compressor mechanical damage a power supply open b Compressor motor compressor open c Open control d Burned motor windings a Low line voltage b Improperly wired c Defective run or start capacitor d Defective start relay a Make sure wires are connected to the correct terminals b Make sure supply voltage is no less than 5 below machines rated voltage c Check capacitors e Let pressures equalize check for reason for excessive head pressure f Ohm out the motor windings g Check compressor amp draw a Check to make sure there is a power supply to the machine b Make sure the compressor has cooled c Check bin control high and low pressure controls d Ohm out the windings a Check power supply supply must not be more than 5 below rated voltage b Make sure wires are on the correct compressor terminals c Check capacitors d Check start relay Compressor Burnout Procedure Once a compressor burnout is has been determined the following procedure should be followed OU m oz Recover the refrigerant charge from the machine Remove the compressor Inspect the hot gas
68. 0 1 190 86 4009 3 15 4 0 2 9 R 134a 41 312 ICEU226 A1 230 60 1 168 76 4321 3 15 6 0 4 2 R404A 12 340 ICEU226 W1 230 60 1 192 87 4263 3 15 4 4 3 2 R404A 9 255 ICEU226 A2 230 60 1 168 76 4321 3 15 6 0 4 2 R404A 12 340 ICEU226 W2 230 60 1 192 87 4263 3 15 4 4 3 2 R404A 9 255 ICEU226 A3 230 60 1 168 76 4321 3 15 6 0 4 2 R404A 12 340 ICEU226 W3 230 60 1 192 87 4263 3 15 4 4 3 2 R404A 9 255 ICEU300A1 115 60 1 228 104 5928 3 15 13 1 8 8 R404A 16 454 ICEU300W1 115 60 1 296 135 6097 3 15 11 1 8 5 R404A 13 369 ICEU300A2 115 60 1 228 103 5928 3 15 13 1 8 8 R404A 16 454 ICEU300W2 115 60 1 296 135 6097 3 15 11 4 8 5 R404A 13 369 ICE0250 A2 115 6071 244 111 6221 3 15 13 3 8 6 R404A 16 454 ICE0250 A T2 115 60 1 244 111 6221 3 15 13 3 8 6 R404A 16 454 ICE0250 W2 115 60 1 284 129 6030 3 15 10 8 8 2 R404A 13 369 ICE0250 A3 115 6071 244 111 6221 3 15 13 3 8 6 R404A 16 454 ICE0250 A T3 115 60 1 244 111 6221 3 15 13 3 8 6 R404A 16 454 ICE0250 W3 115 60 1 284 129 6030 3 15 10 8 8 2 R404A 13 369 ICE0250 A4 115 60 1 253 115 6248 3 15 13 3 8 6 R404A 25 709 ICE0250 A T4 115 60 1 244 111 6248 3 15 13 3 8 6 R404A 25 709 ICE0250 WA 115 60 1 275 125 5855 3 15 10 8 8 2 R404A 13 369 ICE0250 A5 115 60 1 253 115 6248 3 15 13 3 8 6 R404A 25 709 ICE0250 T5 115 6071 244 111 6248 3 15 13 3 8 6 R404A 25 709 ICE0250 W5 115 6071 275 125 5855 3 15 10 8 8 2 R404A 13 369 ICE0250 T6 115 60 1 244 111 5855 3 15 13 3 8 6 R404A 25 709 ICE0320 A1 115 6071 214 97 5910 3 15 13 8 9 0 R404A 18 510 ICE032
69. 0 240 50 1 ICE0605 A3 R 404a 22 50 46 200 400 35 13 18 5 5 220 240 50 1 ICE0605 W3 R 404a 14 47 45 250 32 14 16 5 5 220 240 50 1 16 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Charge Press Press Initiate Minutes Weight Volt Phase Model Ref Type Ounces Approx Approx Setting 70 50 90 80 Pounds Cycle ICE0605 R4 R 404a 132 45 43 240 400 35 15 18 5 5 220 240 50 1 ICE0605 A4 R 404a 22 50 46 200 400 35 13 18 5 5 220 240 50 1 0605 4 R 404a 14 47 45 250 32 14 16 5 5 220 240 50 1 ICE0605 R5 R 404a 132 45 43 240 400 35 15 18 5 5 220 240 50 1 ICE0605 A5 R 404a 22 50 32 200 400 32 13 18 5 5 220 240 50 1 ICE0605 W5 R 404a 14 47 35 250 35 14 16 5 5 220 240 50 1 ICE0605 R6 R 404a 132 45 37 240 400 37 15 18 5 5 220 240 50 1 ICE0805 A1 R 404a 41 60 35 175 400 35 11 20 7 220 240 50 1 ICE0805 W1 R 404a 29 60 35 250 35 10 14 T 220 240 50 1 ICE0805 R1 R 404a 240 60 35 192 400 35 10 17 7 220 240 50 1 ICE0805 A2 R 404a 27 60 35 175 400 35 11 20 7 220 240 50 1 ICE0805 W2 R 404a 24 60 35 250 35 10 14 7 220 240 50 1 ICE0805 R2 R 404a 240 60 35 240 400 35 10 17 7 220 240 50 1 ICE0805 R3 R 404a 176 60 35 240 400 35 10 17 7 220 240 50 1 ICE0805 A3 R 404a 31 76 66 240 400 41 12 17 7 220 240 50 1 ICE08
70. 0 50 1 901 410 19348 3 25 20 8 15 4 R404A 104 2950 ICE1405 W2 230 50 1 1107 503 20269 3 20 15 4 15 4 R404A 25 710 ICE1405 R2 230 50 1 1002 455 21330 3 25 18 1 15 4 R404A 240 6804 ICE1405 A3 230 50 1 1070 486 21185 3 30 21 7 15 5 R404A 60 1701 ICE1405 W3 230 50 1 1185 539 21035 3 20 15 1 11 5 R404A 25 710 ICE1405 R3 230 50 1 1139 518 22239 3 30 21 9 15 6 R404A 240 6804 ICE1405 A4 230 50 1 1070 486 21185 3 30 21 7 15 5 R404A 60 1701 ICE1405 W4 230 50 1 1185 539 21035 3 20 15 1 11 5 R404A 25 710 ICE1405 R4 230 50 1 1139 518 22239 3 30 21 9 15 6 R404A 240 6804 ICE1405 A5 230 50 1 1070 486 21185 3 30 21 7 15 5 R404A 60 1701 ICE1405 W5 230 50 1 1185 539 21035 3 20 15 1 11 5 R404A 25 710 ICE1405 R5 230 50 1 1139 518 22339 3 30 21 9 15 6 R404A 240 6804 Page H7 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Ref Charge Press Press Initiate Minutes Weight Volt Cycle Model Type Ounces Approx Approx Setting 70 50 90 70 Pounds Phase ICEU150 A1 R 404a 43 65 44 175 400 44 25 45 3 115 60 1 ICEU150 W1 R 404a 10 65 50 250 50 25 45 3 115 60 1 ICEU150 A2 R 404a 13 65 44 175 400 44 25 45 3 115 60 1 ICEU150 W2 R 404a 10 65 50 250 50 25 45 3 115 60 1 ICEU150A3 R 404a 12 60 47 205 400 47 24 38 3 115 60 1 ICEU150W3 R 404a 9 60 47 250 47 2
71. 0 W1 115 60 1 312 142 6195 3 15 10 9 8 3 R404A 15 425 ICE0320 A2 115 6071 214 97 5910 3 15 13 8 9 0 R404A 18 510 ICE0320 W2 115 60 1 312 142 6195 3 15 13 1 10 1 R404A 11 312 ICE0320 A3 115 60 1 214 97 5910 3 15 13 2 9 0 R404A 18 510 ICE0320 W3 115 607 312 142 6195 3 15 13 1 10 1 R404A 11 312 ICE0320 A4 115 6071 249 113 6228 3 15 132 9 0 R404A 18 510 ICE0320 WA 115 60 1 308 140 6115 3 15 13 1 10 1 R404A 11 312 Page H1 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICE0400 A1 115 6071 366 166 8064 3 15 14 4 9 5 R404A 32 907 ICE0400 A T1 115 60 1 368 167 8101 3 15 14 1 9 3 R404A 32 907 ICE0400 W1 115 6071 449 204 8388 3 15 13 4 10 3 R404A 14 397 ICE0400 A2 115 60 1 366 166 8064 3 15 14 4 9 5 R404A 29 822 ICE0400 A T2 115 60 1 368 167 8101 3 15 14 1 9 3 R404A 29 822 ICE0400 W2 115 60 1 449 204 8388 3 15 13 4 10 3 R404A 14 397 ICE0400 A3 115 607 368 167 7835 3 20 17 1 11 7 R404A 30 850 ICE0400 A T3 115 60 1 357 162 7757 3 20 17 1 11 7 R404A 30 850 ICE0400 W3 115 60 1 407 185 7563 3 15 12 9 9 9 R404A 14 397 ICE0400 A4 115 60 1 368 167 7835 3 20 17 1 11 7 R404A 30 850 ICE0400 A T4 115 60 1 357 162 7757 3 20 17 1 11 7 R
72. 05 W3 R 404a 28 61 59 250 40 12 13 7 220 240 50 1 ICE0805 R4 R 404a 176 68 60 240 400 39 12 15 7 220 240 50 1 ICE0805 A4 R 404a 31 76 37 240 400 37 12 17 7 220 240 50 1 ICE0805 W4 R 404a 28 61 37 250 37 12 13 T 220 240 50 1 ICE0805 R5 R 404a 176 68 37 240 400 37 12 15 7 220 240 50 1 1 1005 1 404 50 60 35 175 400 35 10 17 7 220 240 50 1 ICE1005 W1 R 404a 32 60 36 250 36 9 14 7 220 240 50 1 1 1005 1 404 240 60 35 192 400 35 9 15 7 220 240 50 1 ICE1005 A2 R 404a 33 60 35 175 400 35 10 17 7 220 240 50 1 ICE1005 W2 R 404a 24 60 36 250 36 9 14 7 220 240 50 1 ICE1005 R2 R 404a 240 60 35 240 400 35 9 15 7 220 240 50 1 ICE1005 R3 R 404a 176 60 35 240 400 35 9 15 7 220 240 50 1 ICE1005 A3 R 404a 34 60 52 240 400 39 10 14 7 220 240 50 1 ICE1005 W3 R 404a 29 52 51 250 39 11 12 7 220 240 50 1 ICE1005 R4 R 404a 176 69 61 240 400 38 11 14 7 220 240 50 1 ICE1005 A4 R 404a 34 60 35 240 400 35 10 14 7 220 240 50 1 ICE1005 W4 R 404a 29 52 35 250 35 11 12 7 220 240 50 1 ICE1005 R5 R 404a 176 69 35 240 400 35 11 14 7 220 240 50 1 ICE1405 A1 R 404a 108 60 35 175 400 35 13 21 11 220 240 50 1 ICE1405 W1 R 404a 28 60 35 250 35 12 18 11 220 240 50 1 ICE1405 R1 R 404a 240 60 35 192 400 35 14 19 11 220 240 50 1 ICE1405 A2 R 404a 104 60 35 175 400 35 13 21 11 220 240 50 1 ICE1405 W2 R 404a 25 60 35 250 35 12 18 11 220 240 50 1 ICE1405 R2 R 404a 240 60 35 192 400 35 14 19 11 220 240 50 1 ICE1405 A
73. 07 R4 208 230 60 3 1444 656 27514 4 20 17 1 11 6 R404A 272 7711 ICE1807 W5 208 230 60 3 1603 729 27560 4 15 12 3 9 1 R404A 37 1049 ICE1807 R5 208 230 60 3 1444 656 27514 4 20 17 1 11 6 R404A 272 7711 ICE2106 W1 208 230 60 1 1855 843 33333 3 30 28 5 22 1 R404A 50 1418 ICE2106 R1 208 230 60 1 1723 783 35369 3 50 43 1 31 0 R404A 400 11340 ICE2106 W2 208 230 60 1 1855 843 33333 3 30 25 3 19 5 R404A 37 1049 ICE2106 R2 208 230 60 1 1723 783 35369 3 50 33 7 23 5 R404A 400 11340 ICE2106 W3 208 230 60 1 1692 769 29406 3 30 22 3 17 1 R404A 44 1247 ICE2106 R3 208 230 60 1 1561 710 30325 3 30 26 9 18 1 R404A 272 7711 ICE2106 W4 208 230 60 1 1692 769 29406 3 30 22 3 1 4 R404A 44 1247 ICE2106 R4 208 230 60 1 1561 710 30325 3 30 26 9 18 1 R404A 272 7711 ICE2106 W5 208 230 60 1 1650 750 29091 3 30 22 3 17 4 R404A 44 1274 ICE2106 R5 208 230 60 1 1561 710 30034 3 30 26 9 18 1 R404A 272 7711 ICE2107 W1 208 230 60 3 1853 842 32928 4 20 13 9 10 4 R404A 50 1418 ICE2107 R1 208 230 60 3 1737 790 34714 4 25 22 3 14 4 R404A 400 11340 ICE2107 W2 208 230 60 3 1853 842 32928 4 20 16 6 12 6 R404A 37 1049 ICE2107 R2 208 230 60 3 1737 790 34714 4 25 23 2 15 1 R404A 400 11340 ICE2107 W3 208 230 60 3 1650 750 28676 4 30 13 5 10 1 R404A 44 1247 ICE2107 R3 208 230 60 3 1525 693 29342 4 25 21 2 13 5 R404A 272 7711 ICE2107 W4 208 230 60 3 1650 750 28676 4 30 13 5 10 1 R404A 44 1247 ICE2107 R4 208 230 60 3 1525 693 29342 4 25 21 2 13 5 R404A 272 7711 ICE2107 W5 208 230 60 3 1650 750 28369 4
74. 08 230 60 1 ICE0606 A T5 R 404a 24 60 46 200 400 35 11 15 5 5 208 230 60 1 ICE0606 W5 R 404a 17 45 32 250 32 11 13 5 5 208 230 60 1 ICE0606 A5 R 404a 24 60 32 200 400 32 11 15 5 5 208 230 60 1 ICE0606 T6 R 404a 24 60 32 200 400 32 11 15 5 5 208 230 60 1 0606 6 R 404a 132 44 32 240 400 32 11 13 5 5 208 230 60 1 ICE0726R R 404a 156 44 32 240 400 35 11 18 5 5 208 230 60 1 ICE0806 A1 R 404a 41 60 35 175 400 35 11 18 7 208 230 60 1 ICE0806 W1 R 404a 29 60 35 250 35 10 15 7 208 230 60 1 ICE0806 R1 R 404a 240 60 35 192 400 35 9 16 7 208 230 60 1 ICE0806 A2 R 404a 27 60 35 175 400 35 11 18 7 208 230 60 1 ICE0806 W2 R 404a 24 60 35 250 35 10 15 7 208 230 60 1 ICE0806 R2 R 404a 240 60 35 240 400 35 9 16 7 208 230 60 1 ICE0806 R3 R 404a 176 60 35 240 400 35 9 16 7 208 230 60 1 ICE0806 A3 R 404a 31 61 53 240 400 41 12 16 7 208 230 60 1 ICE0806 W3 R 404a 28 60 59 250 39 11 13 7 208 230 60 1 ICE0806 R4 R 404a 176 61 54 240 400 40 11 14 7 208 230 60 1 ICE0806 A4 R 404a 31 61 53 240 400 41 12 16 7 208 230 60 1 0806 4 R 404a 28 60 59 250 39 11 13 7 208 230 60 1 ICE0806 A5 R 404a 31 61 37 240 400 37 12 16 7 208 230 60 1 ICE0806 W5 R 404a 28 60 37 250 37 11 13 7 208 230 60 1 ICE0806 R5 R 404a 176 61 37 240 400 37 11 14 7 208 230 60 1 ICE0926R R 404a 156 44 32 240 400 35 11 18 5 5 208 230 60 1 ICE1006 A1 R 404a 50 60 37 175 400 37 9 15 7 208 230 60 1 ICE1006 W1 R 404a 32 60 37 250 37 9 13
75. 08 230 60 1 1150 523 22126 3 30 22 2 15 7 R404A 240 6804 ICE1407 A1 208 230 60 3 989 450 19765 4 25 15 1 9 7 R404A 108 3062 ICE1407 W1 208 230 60 3 1093 497 19809 4 20 9 8 7 1 R404A 28 794 ICE1407 R1 208 230 60 3 956 435 20173 4 25 14 0 9 1 R404A 240 6804 ICE1407 A2 208 230 60 3 989 450 19765 4 25 15 1 9 7 R404A 104 2948 ICE1407 W2 208 230 60 3 1093 497 19809 4 20 9 8 7 1 R404A 25 709 ICE1407 R2 208 230 60 3 956 435 20173 4 25 14 0 9 1 R404A 240 6804 ICE1407 A3 208 230 60 3 1131 514 21761 4 20 16 0 9 8 R404A 60 1701 ICE1407 W3 208 230 60 3 1270 577 22308 4 20 10 7 7 8 R404A 30 851 ICE1407 R3 208 230 60 3 1195 543 22547 4 20 14 7 9 8 R404A 240 6804 ICE1407 A4 208 230 60 3 1131 514 21761 4 20 16 0 9 8 R404A 60 1701 ICE1407 W4 208 230 60 3 1270 577 22308 4 20 10 7 7 8 R404A 30 851 ICE1407 R4 208 230 60 3 1195 543 22547 4 20 14 7 9 8 R404A 240 6804 ICE1407 A5 208 230 60 3 1131 514 21761 4 20 16 0 9 8 R404A 60 1701 ICE1407 W5 208 230 60 3 1270 577 22308 4 20 10 7 7 8 R404A 30 850 ICE1407 R5 208 230 60 3 1195 543 22547 4 20 14 7 9 7 R404A 240 6804 Page H4 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICE1506 R 208 230 60 1 1202 559 24
76. 1 R 404a 400 60 37 192 400 37 9 14 14 208 230 60 1 ICE2106 W2 R 404a 37 60 35 250 35 9 14 14 208 230 60 1 ICE2106 R2 R 404a 400 60 37 240 400 37 9 14 14 208 230 60 1 ICE2106 W3 R 404a 44 48 46 250 34 11 12 14 208 230 60 1 ICE2106 R3 R 404a 272 62 56 240 400 37 12 13 14 208 230 60 1 ICE2106 W4 R 404a 44 48 46 250 34 11 12 14 208 230 60 1 ICE2106 R4 R 404a 272 62 56 240 400 37 12 13 14 208 230 60 1 ICE2106 W5 R 404a 44 48 35 250 35 11 12 14 208 230 60 1 ICE2106 R5 R 404a 272 62 37 240 400 37 12 13 14 208 230 60 1 2107 1 R 404a 50 60 35 250 35 9 13 14 208 230 60 3 ICE2107 R1 R 404a 400 60 35 192 400 35 9 14 14 208 230 60 3 ICE2107 W2 R 404a 37 60 35 250 35 9 13 14 208 230 60 3 ICE2107 R2 R 404a 400 60 35 240 400 35 9 14 14 208 230 60 3 ICE2107 W3 R 404a 44 49 47 250 34 12 13 14 208 230 60 3 ICE2107 R3 R 404a 272 64 58 240 400 37 12 14 14 208 230 60 3 ICE2107 W4 R 404a 44 49 47 250 34 12 13 14 208 230 60 3 ICE2107 R4 R 404a 272 64 58 240 400 37 12 14 14 208 230 60 3 ICE2107 W5 R 404a 44 49 35 250 35 12 13 14 208 230 60 3 ICE2107 R5 R 404a 272 64 35 240 400 35 12 14 14 208 230 60 3 Page 15 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Charge Press Press Initiate Minutes Weight Volt Phase Mod
77. 10 ICE Series General Information Electrical and Plumbing Requirements ICE0320 and ICE0520 22 Inch Wide Cubers IDE amp REA ICE DISPENSE AREA TO a a S9 a Ron Tg 1 8 HOLE FOR ELECTRICAL ECTIC ICEMAKE TABLE WATER 8 FPT ICEMAKER POTABLE WATER IN 2 8 ICE MAKER WATER OUT 3 4 HOLE FOR ELECTRICAL ECTI ICE MAKER WATER OUT 3 4 ENSER WATER OUT FPT Page A11 ICE Series General Information Electrical and Plumbing Requirements ICE1400 ICE1800 and ICE2100 Revision 3 From January 2008 i l ICE CUBE DISPENSE i IN WALL AREA TO BI LEARANCE 00 MINI ALL Als FLO T LEARANCE REQUIREI FOR PROPER DPERATID AIR FLOW DUT EAR UF MACHINE 1 TU IE amp JSHILE FO ELECTRICAL ECTIONS 8 1 AIR IN DENSER SIDE ICEMAKER j ATER FPT 4 AT
78. 11 What can cause high suction pressure 12 What can cause low suction pressure 13 What is the Warranty on the ICE Series cubers 14 How do you determine if a machine is still in warranty 15 How do you determine a defective evaporator 16 What adjustments are covered under warranty 17 15 cleaning of the ice machine covered under warranty 18 What is the purpose of the curtain switch 19 How you adjust the curtain switch 20 What is the purpose of the thermostatic bin control 21 What is a top air discharge machine 22 How much clearance should a top air discharge require 23 Define Half cube and Full cube 24 How do you adjust the bridge thickness 25 What is the purpose of the High Temperature Safety Control 26 What is the purpose of the Fan Cycle Control 27 True or False If the Low Pressure Control is closed and you have no defrost you have an electrical issue 28 Can you make colored cubes by adding food coloring to the water trough 29 True or False The ICE Series machine are a continual water fill system 30 How do you perform a production check on an ICE Series machine Oi P Du dcn Ice O Matic Ice Pure and Simple Zip Code Thank You for attending the Ice O Matic Service Seminar We hope that you found it valuable We would appreciate it very much if you would take a few minutes to complete the survey below Thanks for your participation How would you rate the seminar in
79. 124 8 8 R404A 36 1021 ICE0606 A T1 208 230 60 1 510 232 11293 3 15 13 3 9 5 R404A 36 1021 ICE0606 W1 208 230 60 1 590 268 11473 3 15 9 5 7 8 R404A 18 510 ICE0606 R1 208 230 60 1 544 247 12269 3 15 13 0 8 7 R404A 160 4536 ICE0606 A2 208 230 60 1 525 239 11538 3 15 12 0 8 5 R404A 24 1021 ICE0606 A T2 208 230 60 1 510 232 11293 3 15 11 7 8 2 R404A 24 1021 ICE0606 w2 208 230 60 1 590 268 11473 3 15 9 5 7 8 R404A 18 510 ICE0606 R2 208 230 60 1 544 247 12269 3 15 13 0 8 7 R404A 160 4536 ICE0606 R3 208 230 60 1 543 247 12132 3 15 13 0 8 7 R404A 132 3742 ICE0606 A3 208 230 60 1 506 230 10566 3 15 11 5 7 9 R404A 24 680 ICE0606 A T3 208 230 60 1 505 230 10566 3 15 10 4 7 0 R404A 26 737 ICE0606 W3 208 230 60 1 502 228 10767 3 15 8 7 6 6 R404A 17 482 0606 4 208 230 60 1 576 262 10850 3 19 12 9 8 6 R404A 132 3742 ICE0606 A4 208 230 60 1 506 230 10566 3 15 11 5 7 9 R404A 24 680 ICE0606 A T4 208 230 60 1 505 230 10566 3 15 10 4 7 0 R404A 26 737 ICE0606 w4 208 230 60 1 502 228 10767 3 15 8 7 6 6 R404A 17 482 ICE0606 R5 208 230 60 1 576 262 10850 3 15 12 9 8 6 R404A 132 3742 ICE0606 W5 208 230 60 1 550 249 10767 3 15 10 0 6 6 R404A 17 482 ICE0606 A5 208 230 60 1 530 240 10556 3 15 10 7 7 9 R404A 24 680 ICEO606 T6 208 230 60 1 530 240 10884 3 15 10 7 T R404A 26 737 ICE0606 R6 208 230 60 1 550 249 10767 3 15 11 1 8 6 R404A 132 3742 0726 208 230 60 1 700 318 15250 3 20 14 0 9 8 404 176 4990 ICE0806 A1 208 230 60 1 698 317 15003 3 20 13 0 9 2 R404A 41 1
80. 16 12 4 8 2 R404A 23 652 ICE0305 W3 230 50 1 291 132 6590 3 16 8 5 82 R404A 14 400 ICE0305 A4 230 50 1 279 127 6689 3 16 8 4 5 8 R404A 23 652 ICE0305 W4 230 50 1 296 135 6265 3 16 6 6 5 0 R404A 12 340 ICE0305 A5 230 50 1 279 127 6689 3 16 8 4 5 8 R404A 23 652 ICE0305 W5 230 50 1 296 135 6265 3 16 6 6 5 0 R404A 12 340 ICE0325 A1 230 50 1 214 97 4990 3 15 6 2 4 4 R404A 22 624 ICE0325 A2 230 50 1 214 97 4990 3 15 6 2 4 4 R404A 22 624 ICE0325 A3 230 50 1 214 97 4990 3 16 6 6 4 4 R404A 22 624 ICE0325 A4 230 50 1 214 97 4990 3 16 6 6 4 4 R404A 22 624 ICE0405 A1 230 50 1 370 168 9371 3 15 13 3 8 2 R404A 32 907 ICE0405 W1 230 50 1 470 214 8562 3 45 10 1 8 2 R404A 16 454 ICE0405 A2 230 50 1 370 168 9371 3 15 13 3 8 2 R404A 23 652 ICE0405 w2 230 50 1 470 214 8562 3 15 10 1 8 2 R404A 16 454 ICE0405 A3 230 50 1 366 166 7735 3 16 8 2 5 4 R404A 23 652 ICE0405 W3 230 50 1 440 200 8213 3 16 6 2 4 4 R404A 13 369 ICE0405 A4 230 50 1 366 166 7735 3 16 8 2 5 4 R404A 23 652 ICE0405 W4 230 50 1 440 200 8213 3 16 6 2 4 4 R404A 13 369 ICE0525 A1 230 50 1 478 217 8061 3 15 7 8 5 1 R404A 21 595 ICE0525 A2 230 50 1 478 217 8061 3 15 7 8 5 1 R404A 21 595 ICE0525 A3 230 50 1 404 184 8617 3 16 9 2 5 5 R404A 21 595 ICE0525 A4 230 50 1 404 184 8617 3 16 9 2 5 5 R404A 21 595 ICE0605 A1 230 50 1 466 212 10284 3 15 8 8 8 4 R404A 32 907 ICE0605 W1 230 50 1 470 214 9909 3 15 6 8 8 4 R404A 14 397 ICE0605 R1 230 50 1 425 193 10708 3 15 9 9 8 4 R404A 160 4536 ICE0605 A2 230 50 1 466 212 102
81. 163 ICE0806 W1 208 230 60 1 840 382 14458 3 20 9 8 7 4 R404A 29 823 ICE0806 R1 208 230 60 1 762 346 15168 3 20 12 3 8 1 R404A 240 6804 ICE0806 A2 208 230 60 1 698 317 15003 3 20 13 0 9 2 R404A 27 765 ICE0806 w2 208 230 60 1 840 382 14458 3 20 9 8 7 4 R404A 24 680 ICE0806 R2 208 230 60 1 762 346 15168 3 20 12 3 8 1 R404A 240 6804 ICE0806 A2 208 230 60 1 698 317 15003 3 20 13 0 9 2 R404A 27 765 ICEO806 W2 208 230 60 1 840 382 14458 3 20 9 8 7 4 R404A 24 680 ICE0806 R3 208 230 60 1 826 375 16371 3 20 12 3 8 1 R404A 176 4990 ICE0806 A3 208 230 60 1 698 317 13806 3 20 13 2 9 2 R404A 31 879 ICE0806 W3 208 230 60 1 840 382 14355 3 20 9 8 7 4 R404A 28 794 ICE0806 R4 208 230 60 1 826 375 15205 3 20 14 7 8 1 R404A 176 4990 ICE0806 A4 208 230 60 1 698 317 13806 3 20 132 9 2 R404A 31 879 ICEO806 W4 208 230 60 1 840 382 14355 3 20 9 8 7 4 R404A 28 794 ICE0806 A5 208 230 60 1 650 295 13806 3 20 13 2 7 2 R404A 31 879 ICE0806 W5 208 230 60 1 784 356 14355 3 20 9 8 7 4 R404A 28 794 ICE0806 R5 208 230 60 1 768 348 15205 3 20 14 7 10 8 R404A 176 4990 0926 208 230 60 1 780 354 17200 3 20 16 2 11 6 R404A 176 4990 ICE1006 A1 208 230 60 1 811 369 16239 3 20 13 8 9 0 R404A 50 1418 ICE1006 W1 208 230 60 1 941 428 15986 3 20 9 0 6 8 R404A 32 908 ICE1006 R1 208 230 60 1 905 411 18149 3 20 13 8 9 3 R404A 240 6804 ICE1006 A2 208 230 60 1 811 369 16239 3 20 13 8 9 0 R404A 34 964 ICE1006 W2 208 230 60 1 941 428 15986 3 20 9 0 6 8 R404A 24 680 ICE1006 R2 208 230 60 1 905 411 1
82. 18100327 DANFOSS 11705017 2 330 918100331 COPELAND 1649 250 9181003 40 9181003 41 9181003 42 9181003 43 9181003 44 9181003 45 ICE O MATIC CURRENT RELAY SPECIFICATIONS PART PART AMPS AMPS TEXAS INT 6409 26 935 9181004406 COPELAND 040 0090 05 104 86 918100409 DANFOSS 117U6003 918100440 TECUMSEH 8943 9181004411 TECUMSEH 82927 918100412 TECUMSEH 820RR12B74 918100413 TECUMSEH 82476 2 2 918100474 DANFOSS 7117900 91810045 DANFOSS 1179005 918100476 DANFOSS 717 734 918100417 COPELAND 040 41166 C 91810048 DANFOSS 117460272 4 918100479 DANFOSS 117619 24 918100420 COPELAND 40541449 2 918100421 COPELAND 040 41147 918100422 TECUMSEH 820RR122E7Z2 2 918100423 TECUMSEH 820054849 2 pee reas TEXAS INT 9660 041 182 918100425 TECUMSEH 820RR122bE2 918100426 DANFOSS 11790000 918100427 TECUMSEH 82484 9181004 28 COPELAND 040 41145 ICE O MATIC OVERLOAD SPECIFICATIONS PART PART ICE O MATIC RUN CAPACITOR SPECIFICATIONS CAPACITOR PN SUPPLIER SUPPLIER P N MIN VOLTS C S C 325P256H37C25N4X C S C 325P206H37C25N4X GE 97F5050 9181009 08 GE 97F8061 15 X386S 15 10 S C I 325P156H37M25N3X 97F9037 9181009 09 97F9626 15 X386S 15 10 S C I
83. 2 28 3 115 60 1 ICEU150A4 R 404a 12 60 47 205 400 47 24 38 3 115 60 1 ICEU150W4 R 404a 9 60 47 250 47 22 28 3 115 60 1 ICEU150A5 R 404a 12 60 44 205 400 44 24 38 3 115 60 1 ICEU150W5 R 404a 9 60 44 250 44 22 28 3 115 60 1 ICEU200 A1 R 404a 13 65 42 175 400 42 19 36 3 115 60 1 ICEU200 W1 R 404a 9 65 42 250 42 19 36 3 115 60 1 ICEU200 A2 R 404a 13 65 42 175 400 42 19 36 3 115 60 1 ICEU200 w2 R 404a 9 65 42 250 42 19 36 3 115 60 1 ICEU220A1 R 404a 12 60 42 218 400 42 17 24 3 115 60 1 ICEU220W1 R 404a 9 60 41 250 41 17 20 3 115 60 1 ICEU220A2 R 404a 12 60 42 218 400 42 17 24 3 115 60 1 ICEU220W2 R 404a 9 60 41 250 41 17 20 3 115 60 1 ICEU220A3 R 404a 42 60 41 218 400 41 17 24 3 115 60 1 ICEU220W3 R 404a 9 60 41 250 41 17 20 3 115 60 1 ICEU206 A1 R 134a 14 30 13 120 170 13 19 36 3 230 60 1 ICEU206 W1 R 134a 11 30 13 125 13 19 36 3 230 60 1 ICEU226A1 R 404a 12 60 41 218 400 41 18 28 3 230 60 1 ICEU226W1 R 404a 9 60 41 250 41 19 23 3 230 60 1 ICEU226A2 R 404a 12 60 41 218 400 41 18 28 3 230 60 1 ICEU226W2 R 404a 9 60 41 250 41 19 23 3 230 60 1 ICEU226A3 R 404a 12 60 41 218 400 41 18 28 3 230 60 1 ICEU226W3 R 404a 9 60 41 250 41 19 23 3 230 60 1 ICEU300A R 404a 16 51 30 218 400 39 15 20 3 115 60 1 ICEU300W R 404a 13 60 27 250 33 12 15 3 115 60 1 ICEU300A2 R 404a 16 51 35 218 400 35 15 20 3 115 60 1 ICEU300W2 R 404a 13 60 35 250 35 12 15 3 115 60 1 ICE0250 A2 R 404a 16 60 35 175 400 35 12 22 3 115 60 1 I
84. 230 60 1 ICE1406 W5 R 404a 30 60 35 250 32 11 14 12 4 208 230 60 1 ICE1406 R5 R 404a 240 60 35 240 400 35 11 15 12 4 208 230 60 1 ICE1407 A1 R 404a 108 60 35 175 400 35 12 20 11 208 230 60 3 ICE1407 W1 R 404a 28 60 35 250 35 12 18 11 208 230 60 3 ICE1407 R1 R 404a 240 60 35 192 400 35 12 20 11 208 230 60 3 ICE1407 A2 R 404a 104 60 35 175 400 35 12 20 11 208 230 60 3 ICE1407 W2 R 404a 25 60 35 250 35 12 18 11 208 230 60 3 ICE1407 R2 R 404a 240 60 35 240 400 35 12 20 11 208 230 60 3 ICE1407 A3 R 404a 60 60 35 200 400 KTA 11 15 12 4 208 230 60 3 ICE1407 W3 R 404a 30 60 35 250 34 11 13 12 4 208 230 60 3 ICE1407 R3 R 404a 240 60 35 240 400 38 12 14 12 4 208 230 60 3 ICE1407 A4 R 404a 60 60 35 200 400 37 11 15 12 4 208 230 60 3 ICE1407 W4 R 404a 30 60 35 250 34 11 13 12 4 208 230 60 3 ICE1407 R4 R 404a 240 60 35 240 400 38 12 14 12 4 208 230 60 3 ICE1407 A5 R 404a 60 60 35 200 400 35 11 15 124 208 230 60 3 ICE1407 W5 R 404a 30 60 32 250 32 11 13 12 4 208 230 60 3 ICE1407 R5 R 404a 240 60 35 240 400 35 12 14 12 4 208 230 60 3 1 1506 R 404a 240 60 35 240 400 35 11 16 11 208 230 60 1 ICE1506 R2 R 404a 240 60 35 240 400 35 11 16 11 208 230 60 1 ICE1506 R3 R 404a 240 60 35 240 400 35 11 14 12 4 208 230 60 1 ICE1506 R4 R 404a 240 60 35 240 400 35 11 14 12 4 208 230 60 1 ICE1606 R1 R 404a 240 60 35 192 400 35 11 16 11 208 230 60 1 Page 14 ICE Series
85. 240 60 35 240 400 35 11 15 7 208 230 60 3 ICE1007 R3 R 404a 176 60 35 240 400 35 11 15 7 208 230 60 3 ICE1007 A3 R 404a 34 55 47 240 400 37 11 14 7 208 230 60 3 ICE1007 W3 R 404a 29 56 49 250 35 11 13 7 208 230 60 3 ICE1007 R4 R 404a 176 57 52 240 400 39 11 13 7 208 230 60 3 ICE1007 A4 R 404a 34 55 47 240 400 37 11 14 7 208 230 60 3 ICE1007 W4 R 404a 29 56 35 250 35 11 13 7 208 230 60 3 ICE1007 A5 R 404a 34 55 47 240 400 37 11 14 7 208 230 60 3 ICE1007 A6 R 404a 34 55 35 240 400 35 11 14 7 208 230 60 3 ICE1007 R5 R 404a 176 57 35 240 400 35 11 13 7 208 230 60 3 ICE1406 A1 R 404a 108 60 35 175 400 35 11 17 11 208 230 60 1 ICE1406 W1 R 404a 28 60 35 250 35 11 16 11 208 230 60 1 ICE1406 R1 R 404a 240 60 35 192 400 35 11 17 11 208 230 60 1 ICE1406 A2 R 404a 104 60 35 175 400 35 11 17 11 208 230 60 1 ICE1406 W2 R 404a 25 60 35 250 35 11 16 11 208 230 60 1 ICE1406 R2 R 404a 240 60 35 192 400 35 11 17 11 208 230 60 1 ICE1406 A3 R 404a 60 60 35 200 400 37 11 15 12 4 208 230 60 1 ICE1406 W3 R 404a 30 60 35 250 32 11 14 12 4 208 230 60 1 ICE1406 R3 R 404a 240 60 35 240 400 38 11 15 124 208 230 60 1 ICE1406 A4 R 404a 60 60 35 200 400 37 11 15 12 4 208 230 60 1 ICE1406 W4 R 404a 30 60 35 250 32 11 14 12 4 208 230 60 1 ICE1406 R4 R 404a 240 60 35 240 400 38 11 15 12 4 208 230 60 1 ICE1406 A5 R 404a 60 60 35 200 400 37 11 15 12 4 208 230 60 1 ICE1406 A6 R 404a 60 60 35 200 400 35 11 15 12 4 208
86. 3 0 10 9 R404A 240 6804 ICE0805 R3 230 50 1 738 335 14474 3 16 13 0 10 9 R404A 176 4990 ICE0805 A3 230 50 1 615 280 11865 3 16 11 7 82 R404A 31 879 ICE0805 W3 230 50 1 855 389 14354 3 16 9 2 6 9 R404A 28 794 ICE0805 R4 230 50 1 738 335 14729 3 16 14 6 9 8 R404A 176 4990 0805 4 230 50 1 648 295 11865 3 16 11 7 8 2 R404A 31 879 ICEO805 W4 230 50 1 792 360 14354 3 16 9 2 6 9 R404A 28 794 ICE0805 R5 230 50 1 737 335 14729 3 16 14 6 9 8 R404A 176 4990 ICE1005 A1 230 50 1 742 337 15699 3 15 13 3 12 5 R404A 50 1417 ICE1005 W1 230 50 1 917 417 16005 3 15 9 5 12 5 R404A 32 907 ICE1005 R1 230 50 1 801 364 16127 3 15 15 1 12 5 R404A 240 6804 ICE1005 A2 230 50 1 742 337 15699 3 15 13 3 12 5 R404A 33 936 ICE1005 W2 230 50 1 917 417 16005 3 16 9 5 12 5 R404A 24 680 ICE1005 R2 230 50 1 801 364 16127 3 16 15 1 12 5 R404A 240 6804 ICE1005 R3 230 50 1 801 364 16127 3 16 15 1 12 5 R404A 176 4990 ICE1005 A3 230 50 1 742 337 15887 3 16 12 6 8 3 R404A 34 964 ICE1005 W3 230 50 1 917 417 16325 3 16 12 0 9 1 R404A 29 822 ICE1005 R4 230 50 1 801 364 16610 3 16 15 2 10 3 R404A 176 4990 ICE1005 A4 230 50 1 766 348 15594 3 16 12 6 8 3 R404A 34 964 ICE1005 W4 230 50 1 871 396 15624 3 16 12 0 7 1 R404A 29 822 ICE1005 R5 230 50 1 778 354 15838 3 16 15 2 10 3 R404A 16 4990 ICE1405 A1 230 50 1 901 410 19348 3 25 20 8 15 4 R404A 108 3062 ICE1405 W1 230 50 1 1107 503 20269 3 20 15 4 15 4 R404A 28 794 ICE1405 R1 230 50 1 1002 455 21330 3 25 18 1 15 4 R404A 240 6804 ICE1405 A2 23
87. 3 208 230 60 3 906 412 14996 4 15 7 1 5 3 R404A 29 822 ICE1007 R4 208 230 60 3 844 384 15317 4 15 10 8 6 9 R404A 176 4990 ICE1007 A4 208 230 60 3 767 349 15490 4 15 122 7 4 R404A 34 964 ICE1007 W4 208 230 60 3 935 425 14996 4 15 7 4 5 8 R404A 29 822 ICE1007 A5 208 230 60 3 767 349 15490 4 15 122 7 4 R404A 34 964 ICE1007 R4 208 230 60 3 781 354 15317 4 15 10 8 6 9 R404A 176 4990 ICE1007 A6 208 230 60 3 800 363 15490 4 15 122 7 4 R404A 34 964 ICE1406 A1 208 230 60 1 1122 510 22590 3 30 20 2 13 8 R404A 108 3062 ICE1406 W1 208 230 60 1 1187 540 22529 3 20 15 6 11 7 R404A 28 794 ICE1406 R1 208 230 60 1 1134 515 23085 3 25 23 3 16 5 R404A 240 6804 ICE1406 A2 208 230 60 1 1122 510 22590 3 30 20 2 13 8 R404A 104 2948 ICE1406 W2 208 230 60 1 1187 540 22529 3 20 15 6 11 7 R404A 25 709 ICE1406 R2 208 230 60 1 1134 515 23085 3 25 23 3 16 5 R404A 240 6804 ICE1406 A3 208 230 60 1 1109 504 21957 3 30 26 1 17 9 R404A 60 1701 ICE1406 W3 208 230 60 1 1239 563 21994 3 20 17 8 13 5 R404A 30 851 ICE1406 R3 208 230 60 1 1150 523 22126 3 30 22 2 15 7 R404A 240 6804 ICE1406 A4 208 230 60 1 1109 504 21957 3 30 26 1 17 9 R404A 60 1701 ICE1406 W4 208 230 60 1 1239 563 21994 3 20 17 8 13 5 R404A 30 851 ICE1406 R4 208 230 60 1 1150 523 22126 3 30 22 2 15 7 R404A 240 6804 ICE1406 A5 208 230 60 1 1109 504 21957 3 30 26 1 17 9 R404A 60 1701 ICE1406 A6 208 230 60 1 1136 515 22069 3 30 26 1 17 9 R404A 60 1701 ICE1406 W5 208 230 60 1 1239 563 21994 3 20 17 8 13 5 R404A 30 850 ICE1406 R5 2
88. 3 R 404a 60 60 35 200 400 36 12 16 12 4 220 240 50 1 ICE1405 W3 R 404a 25 60 35 250 36 12 14 12 4 220 240 50 1 ICE1405 R3 R 404a 240 60 35 240 400 39 12 15 12 4 220 240 50 1 ICE1405 A4 R 404a 60 60 35 200 400 36 12 16 12 4 220 240 50 1 ICE1405 W4 R 404a 25 60 35 250 36 12 14 12 4 220 240 50 1 ICE1405 R4 R 404a 240 60 35 240 400 39 12 15 12 4 220 240 50 1 ICE1405 A5 R 404a 60 60 35 200 400 35 12 16 12 4 220 240 50 1 ICE1405 W5 R 404a 25 60 35 250 35 12 14 12 4 220 240 50 1 ICE1405 R5 R 404a 240 60 35 240 400 35 12 15 12 4 220 240 50 1 Page 17 Compressor Troubleshooting Guide 9 Head pressure too high 10 Head pressure too low 11 Evaporator temperature too high a Refrigerant overcharge b Air in the refrigeration system c Dirty condenser d Defective or dirty condenser fan e Insufficient or restricted water flow water cooled f Excessive air temperature entering condenser g Restriction in discharge line a Low ambient temperature b Low refrigerant charge c Internal damage to compressor d Head pressure control may be bypassing a Low refrigerant charge b Defective expansion valve c Restricted liquid line d Inefficient compressor e Hot gas valve open or leaking a Weigh in the correct charge b Make sure refrigeration system does not have any leaks and that you are able to achieve a good evacuation c Clean the condens
89. 325P156H44M25N3X 97F9006 9181009 11 97F9606 25 X386S 25 10 S C 325P256H37M30N3X 97F9007 97F9611 35 9181009 12 X386S 35 10 S C I 325P356H37M36N3X 014 0037 28 97F5116 9181009 13 97F9642 40 3865 40 10 S C I 325P406H44N36N4X 97F9041 9181009 14 97F9639 35 3865 35 10 S C 325P356H44N36N4X COPELAND 014 0037 10 9181009 16 GE 97F8065 30 ASC X386S 30 10 C S C 325P306H37M30N3X COPELAND 014 0037 16 9181009 17 AEROVOX Z24P443M 30 ASC X386S 30 10 C S C 325P306H44M36N3X 60 9181009 18 COPELAND 014 0037 36 370 C S C I 325P456A37N36N4X 9181009 19 C S C 325P256H44M36N4X ICE O MATIC START CAPACITOR SPECIFICATIONS CAPACITOR PN SUPPLIER PART MIN VOLTS ee S S G eee O 918100322 DANFOSS 117 500 _ 918100324 DANFOSS 117053 918100327 DANFOSS 11705017 2 330 918100331 COPELAND 1649 250 9181003 40 9181003 41 9181003 42 9181003 43 9181003 44 9181003 45 ICE Series AJB Common Questions What initiates defrost on Ice O Matic ICE Series cubers What terminates defrost on Ice O Matic ICE Series cubers What is bridge thickness What is the purpose of the Head Master Mixing Valve Why do ice machines purge in defrost Why do you have to use Nickel Safe ice machine cleaner How do you set the low pressure control How do you determine the low pressure control set point What is a cause of high head pressure 10 What is a cause of low head pressure
90. 337 3 30 27 4 19 8 R404A 240 6804 ICE1506 R2 208 230 60 1 1207 549 22999 3 30 24 5 17 5 R404A 240 6804 ICE1506 R3 208 230 60 1 1207 549 22999 3 30 24 5 17 5 R404A 240 6804 ICE1506 R4 208 230 60 1 1216 553 22491 3 30 24 5 17 5 R404A 240 6804 ICE1606 R1 208 230 60 1 1240 564 24343 3 30 25 8 18 6 R404A 240 6804 ICE1806 W1 208 230 60 1 1461 664 25663 3 30 17 0 12 9 R404A 42 1191 ICE1806 R1 208 230 60 1 1468 667 27152 3 30 22 3 15 7 R404A 400 11340 ICE1806 W2 208 230 60 1 1461 664 25663 3 30 17 0 12 9 R404A 35 992 ICE1806 R2 208 230 60 1 1468 667 27152 3 30 22 3 15 7 R404A 400 11340 ICE1806 W3 208 230 60 1 1628 740 27687 3 30 22 0 16 9 R404A 37 1049 ICE1806 R3 208 230 60 1 1461 664 28110 3 30 27 7 20 1 R404A 272 7711 ICE1806 W4 208 230 60 1 1628 740 27687 3 30 22 0 16 9 R404A 37 1049 ICE1806 R4 208 230 60 1 1461 664 28110 3 30 27 7 20 1 R404A 272 7711 ICE1806 W5 208 230 60 1 1628 740 27687 3 30 22 0 16 9 R404A 44 1247 ICE1806 R5 208 230 60 1 1461 664 28110 3 30 27 7 20 1 R404A 272 7711 ICE1807 W1 208 230 60 3 1556 707 27146 4 15 10 7 7 8 R404A 42 1191 ICE1807 R1 208 230 60 3 1491 678 27966 4 15 15 5 10 3 R404A 400 11340 ICE1807 W2 208 230 60 3 1556 707 27146 4 15 10 7 7 8 R404A 42 1191 ICE1807 R2 208 230 60 3 1491 678 27966 4 15 15 5 10 3 R404A 400 11340 ICE1807 W3 208 230 60 3 1603 729 27560 4 15 12 3 9 1 R404A 37 1049 ICE1807 R3 208 230 60 3 1444 656 27514 4 20 17 1 11 6 R404A 272 7711 ICE1807 W4 208 230 60 3 1603 729 27560 4 15 12 3 9 1 R404A 37 1049 ICE18
91. 4 rT p D TACT TIME HARVEST L MOTC ELECT ITCH LE 4 f NN gt FF l 1 6 A H A o ITCH TIME INITIATE CONTR K 8l K ATE E FAN FA CLE LENOI TC ONTROL A A NEY FILL ITCH HICH Page G53 ICE Series Wiring Diagram ICE0250 Air4 and Water4 ICE0400 Air3 and Water3 Wiring Schematic T OIL vd ATE 1 ELECT ITCH ELAY ICE o PURE ELECTC ITCH a d EN TA oL HARVEST L pu mus ll qs TIME INITIATE TIME TROL 1 E A IL I TACT J RELA FA LE FAN ELA a A L A NLY IN FILL ELECT HI TE ITCH SWITCH SWITCH E vi V IL V V V VI 0 HIFPRE E ICE yp ONTROL ELAY 2 A E L H IN TIME FREEZE E Page G54 ICE Series Wiring Diagram ICE0320 Air3 and Water3 ICE0520 Air3 and Water3 Wiring Diagram
92. 404A 30 850 ICE0400 W4 115 60 1 407 185 7563 3 15 12 9 9 9 R404A 14 397 ICE0400 A5 115 60 1 368 167 7835 3 20 17 1 11 7 R404A 30 850 ICE0400 T5 115 60 1 357 162 7757 3 20 17 1 11 7 R404A 30 850 ICE0400 T6 115 60 1 357 162 7757 3 20 17 1 11 7 R404A 30 850 ICE0406 A1 208 230 60 1 323 147 7712 3 15 8 8 5 9 R404A 32 907 ICE0406 W1 208 230 60 1 381 173 7664 3 15 7 5 5 7 R404A 16 454 ICE0406 A2 208 230 60 1 323 147 7712 3 15 8 8 5 9 R404A 32 907 ICE0406 W2 208 230 60 1 381 173 7664 3 15 7 5 5 7 R404A 16 454 ICE0406 A3 208 230 60 1 385 175 7832 3 15 8 0 5 8 R404A 30 850 ICE0406 W3 208 230 60 1 439 200 7770 3 15 6 4 4 8 R404A 14 397 ICE0406 A4 208 230 60 1 358 162 7523 3 15 8 0 5 3 R404A 30 850 ICE0406 W4 208 230 60 1 439 200 7770 3 15 6 4 4 8 R404A 14 397 ICE0500 A1 115 60 1 461 210 10843 3 20 24 8 18 5 R404A 37 1049 ICE0500 A T1 115 607 455 207 10736 3 20 24 8 18 5 R404A 37 1049 ICE0500 W1 115 60 1 499 227 10242 3 20 13 6 10 5 R404A 15 425 ICE0500 R1 115 60 1 407 199 10881 3 20 18 7 12 3 R404A 160 4536 ICE0500 A2 115 60 1 461 210 10843 3 20 19 9 13 9 R404A 22 624 ICE0500 A T2 115 60 1 455 207 10736 3 20 19 9 13 9 R404A 22 624 ICE0500 w2 115 60 1 499 227 10242 3 20 13 6 10 5 R404A 15 425 ICE0500 R2 115 60 1 407 199 10881 3 20 18 7 12 3 R404A 160 4536 ICE0500 A3 115 60 1 458 208 9990 3 20 19 1 13 3 R404A 25 709 ICE0500 A T3 115 60 1 470 214 9982 3 20 19 1 13 3 R404A 25 709 ICE0500 W3 115 6071 513 233 9777 3 20 14 3 11 0 R404A 15 425 ICE0500 R3 115 60 1 446 203
93. 41 16 26 5 5 115 60 1 ICE0400 W1 R 404a 14 60 35 250 35 15 21 5 5 115 60 1 ICE0400 A2 R 404a 29 65 41 175 400 41 16 21 5 5 115 60 1 ICE0400 A T2 R 404a 29 65 41 175 400 41 16 26 5 5 115 60 1 ICE0400 W2 R 404a 14 60 35 250 35 15 21 5 5 115 60 1 ICE0400 A3 R 404a 30 54 39 200 400 44 14 20 5 5 115 60 1 ICE0400 A T3 R 404a 30 56 37 213 400 44 14 21 5 5 115 60 1 ICE0400 W3 R 404a 14 60 38 250 43 14 18 5 5 115 60 1 ICE0400 A4 R 404a 30 54 39 200 400 44 14 20 5 5 115 60 1 ICE0400 A T4 R 404a 30 56 37 213 400 44 14 21 5 5 115 60 1 ICE0400 W4 R 404a 14 60 41 250 41 14 18 5 5 115 60 1 ICE0400 T5 R 404a 30 56 37 213 400 44 14 21 55 115 60 1 ICE0400 A5 R 404a 30 54 41 200 400 41 14 20 55 115 60 1 ICE0400 T6 R 404a 30 56 41 213 400 41 14 21 5 5 115 60 1 ICE0406 A1 R 404a 32 60 35 175 400 35 17 30 5 5 208 230 60 1 ICE0406 W1 R 404a 16 60 35 250 35 17 25 5 5 208 230 60 1 ICE0406 A2 R 404a 32 60 35 175 400 35 17 25 55 208 230 60 1 ICE0406 W2 R 404a 16 60 35 250 35 17 25 5 5 208 230 60 1 ICE0406 A3 R 404a 30 58 34 200 400 43 14 19 5 5 208 230 60 1 ICE0406 W3 R 404a 14 57 37 250 43 14 17 5 5 208 230 60 1 ICE0406 A4 R 404a 30 58 41 200 400 41 14 19 5 5 208 230 60 1 ICE0406 wA R 404a 14 57 41 250 41 14 17 5 5 208 230 60 1 ICE0500 A1 R 404a 37 60 37 175 400 37 13 21 5 5 115 60 1 ICE0500 A T1 R 404a 37 60 37 175 400 37 13 21 5 5 115 60 1 ICE0500 W1 R 404a 15 60 35 250 35 13 21 5 5 115 60 1 ICE0500 R1 R 404a 160 60 3
94. 5 L EE NAMEPLATE F ER FUSE 3 TYPE EAKE IZE A LTAGE REQUIREMENT zx Zo e N ALU v EM HIGH PRE TE I TROL 8 FUSHE s I Zee 2 ANUAL RESET HOT NLY K TERMINAL 7 di 1 1 0 o RESSO Pe C e I id LoS E ITCH k e k e e p HARVEST T ELECT ITCH LE 1 J 1 FF n 1 e La N ut 3 e e ITCH K TIVE INITIATE CONTROL s Lo K La aN MOT IN FILL HE EQUIRE ITCH lt e 19 ICE Series Wiring Diagram ICE1007 Air and Water Wiring Schematic SH N IN TIME PORTION FREEZE CYCLE ELAY ii iia ATE 11 ELECT ITCH ELAY ICE I pe ELECT E ITCH co E TA um A HARVEST HOT GA TIME INITIATE TIME ITCH NTROL 4 IL ELA EAN MoT ELA _ A L IN FILL ELECT ITCH ITCH vi LI L E INTACT Vi Vi Vi IL HI PRESSURE ICE EROS ELAY 2 A V E L Page G20 ICE Series Wiring Diagram ICE1007 Remote Wiring Diagram TE WHE l AL Cl ITE CONDENSEI THE REMOTE MUST BE WIRED TC ITS El LY AS THE Cl
95. 5 FAN 115 2 0 DRIVE HARVEST 11 4 3W PUMP 115 4 31W RATED POWER CONSUMPTION KW 0 REFRIGERANT CHARGE CIRCUIT 3002 849 GRAMS NUMBER OF REFRIGERANT CIRCUITS III 500 DESIGN PRESSURES P S I 252 LO HI BARS 17 7 LO 35 1 HI LISTED 361P ICE MAKER WITHOUT STORAGE MEANS MILE HIGH EQUIPMENT CO DENVER COLORADO 80239 MADE IN U S A RATED ENERGY EFFICIENCY KWH 100 LB 6 5 KJ KG 555 6 MINIMUM BIN ENERGY EFFICIENCY 9 Verified in Accordance Wilh Energy Standard CAN CSA 742 98 and ARI 810 91 by Underwriters Laboratories Inc Approved City o Los Angeles Mechanical Testing Laboratory Accepted for use City ol New York Degartmest of Sulldings M 860074 MEA 37 00 E MODEL NUMBER 0400 2 SERIAL NUMBER 4071280010123 VOLTS HERTZ PHASE 115 60 1 REFRIGERANT R404A CHARGE CIRCUIT 30 02 LISTED 361P G US ICE MAKER WITHOUT STORAGE MEANS MAX FUSE SIZE 15 0 849 GRAMS General Information This format is 14 characters long and begins with a date code followed by the Ice O Matic identifier and then a sequential number This is an entirely numerical serial number The new serial number will look like the example 0407 1280 010123 010123 is the serial identifier 1280 is the identifier Ice O Matic 0407 is the date code in YYMM format 2004 July The date code will change monthly and yearly to reflect the date of manufacture lt Large data plate
96. 5 192 400 35 13 22 5 5 115 60 1 ICE0500 A2 R 404a 22 60 37 175 400 37 13 21 5 5 115 60 1 ICE0500 A T2 R 404a 22 60 37 175 400 37 13 21 5 5 115 60 1 0500 2 R 404a 15 60 35 250 35 13 21 5 5 115 60 1 ICE0500 R2 R 404a 160 60 35 240 400 35 13 22 5 5 115 60 1 ICE0500 R3 R 404a 132 60 35 240 400 35 13 22 5 5 115 60 1 ICE0500 A3 R 404a 25 55 31 217 400 37 13 16 5 5 115 60 1 ICE0500 A T3 R 404a 25 60 32 212 400 39 13 16 5 5 115 60 1 0500 3 R 404a 15 48 31 250 38 13 15 5 5 115 60 1 ICE0500 R4 R 404a 132 50 32 240 400 39 13 16 5 5 115 60 1 ICE0500 A4 R 404a 25 55 31 217 400 37 13 16 5 5 115 60 1 ICE0500 A T4 R 404a 25 60 32 212 400 39 13 16 5 5 115 60 1 ICE0500 A T5 R 404a 25 60 32 212 400 39 13 16 5 5 115 60 1 0500 4 R 404a 15 48 37 250 37 13 15 5 5 115 60 1 ICE0500 A5 R 404a 25 55 37 217 400 37 13 16 5 5 115 60 1 ICE0500 T6 R 404a 25 60 37 212 400 37 13 16 5 5 115 60 1 ICE0500 R5 R 404a 132 50 37 240 400 37 13 16 5 5 115 60 1 ICE0520 A1 R 404a 32 65 41 175 400 41 16 27 5 5 115 60 1 ICE0520 W1 R 404a 14 65 44 250 44 16 22 5 5 115 60 1 ICE0520 A2 R 404a 20 65 41 175 400 41 16 27 5 5 115 60 1 ICE0520 W2 R 404a 14 65 44 250 44 16 22 5 5 115 60 1 ICE0520 A3 R 404a 21 56 39 212 400 46 14 20 5 5 115 60 1 ICE0520 W3 R 404a 12 54 39 250 44 14 17 5 5 115 60 1 ICE0520 A4 R 404a 21 56 44 212 400 44 14 20 5 5 115 60 1 ICE0520 W4 R 404a 12 54 44 250 44 14 17 5 5 115 60 1
97. 6 for operating pressures Timer Initiate The timer initiate is a low pressure control that closes cut in on a drop in suction pressure When the timer initiate control closes the freeze timer is energized and the machine enters the timed portion of the freeze cycle When the machine enters harvest the suction pressure rises and opens the control The timer initiate control should be adjusted per the chart on page 11 16 The timer initiate is factory set and does not normally need to be adjusted If the ice bridge thickness is incorrect the freeze timer should be adjusted rather than the timer initiate See page F4 for freeze timer adjustment procedure The timer initiate may need to be adjusted if excessive time more than 7 minutes is needed on the timer to achieve proper bridge thickness of if very little time less than 1 minute is needed on the timer to achieve proper bridge thickness If the timer initiate is suspected of being out of adjustment or not operating properly check the control as follows Make sure the high temperature safety control is not open see page F8 Turn the machine off and disconnect incoming power by unplugging the machine or switching the circuit breaker OFF Attach one lead of a voltmeter to terminal 1 and the other lead to terminal 2 of the timer initiate control Reconnect incoming power and turn the machine to the ICE position Connect a low pressure gauge to the machine The volt meter should read line voltage
98. 7 208 230 60 1 ICE1006 R1 R 404a 240 60 36 192 400 36 9 14 7 208 230 60 1 ICE1006 A2 R 404a 34 60 37 175 400 37 9 15 7 208 230 60 1 ICE1006 W2 R 404a 24 60 37 250 37 9 13 7 208 230 60 1 ICE1006 R2 R 404a 240 60 36 240 400 36 9 14 7 208 230 60 1 ICE1006 R3 R 404a 176 60 36 240 400 36 9 14 7 208 230 60 1 ICE1006 A3 R 404a 34 56 46 240 400 34 10 14 7 208 230 60 1 ICE1006 W3 R 404a 29 50 53 250 35 10 12 7 208 230 60 1 ICE1006 R4 R 404a 176 50 53 240 400 32 10 12 7 208 230 60 1 ICE1006 A4 R 404a 34 56 46 240 400 34 10 14 7 208 230 60 1 ICE1006 W4 R 404a 29 50 37 250 35 10 12 7 208 230 60 1 ICE1006 A5 R 404a 34 56 37 240 400 35 10 14 7 208 230 60 1 1 1006 5 R 404a 176 50 37 240 400 32 10 12 7 208 230 60 1 Page I3 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Ref Charge Press Press Initiate Minutes Weight Volt Cycle Model Type Ounces Approx Approx Setting 70 50 90 70 Pounds Phase ICE1007 A1 R 404a 50 60 35 175 400 35 10 16 7 208 230 60 3 ICE1007 W1 R 404a 32 60 35 250 35 10 14 7 208 230 60 3 1 1007 1 R 404a 240 60 35 192 400 35 11 15 7 208 230 60 3 1 1007 2 R 404a 34 60 35 175 400 35 10 16 7 208 230 60 3 ICE1007 W2 R 404a 24 60 35 250 35 10 14 7 208 230 60 3 ICE1007 R2 R 404a
99. 8149 3 20 13 8 9 3 R404A 240 6804 ICE1006 R3 208 230 60 1 921 419 18377 3 20 13 8 9 3 R404A 176 4990 ICE1006 A3 208 230 60 1 780 355 16024 3 20 14 2 9 0 R404A 34 964 ICE1006 W3 208 230 60 1 856 389 15355 3 20 12 8 9 8 R404A 29 822 ICE1006 R4 208 230 60 1 843 383 17161 3 20 13 8 9 3 R404A 176 4990 ICE1006 A4 208 230 60 1 780 355 16024 3 20 14 2 9 0 R404A 34 964 ICE1006 W4 208 230 60 1 856 389 15355 3 20 12 8 9 8 R404A 29 822 ICE1006 A5 208 230 60 1 760 345 16024 3 20 14 2 9 0 R404A 34 964 ICE1006 R5 208 230 60 1 843 383 17161 3 20 13 8 9 3 R404A 176 4990 Page H3 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICE1007 A1 208 230 60 3 767 349 15614 4 15 11 8 7 4 R404A 50 1418 ICE1007 W1 208 230 60 3 906 412 16487 4 15 7 4 5 8 R404A 32 908 ICE1007 R1 208 230 60 3 844 384 17653 4 15 10 8 6 9 R404A 240 6804 ICE1007 A2 208 230 60 3 767 349 15614 4 15 11 8 7 4 R404A 34 964 ICE1007 W2 208 230 60 3 906 412 16487 4 15 Ts 5 3 R404A 24 680 ICE1007 R2 208 230 60 3 844 384 17653 4 15 10 8 6 9 R404A 240 6804 ICE1007 R3 208 230 60 3 844 384 17653 4 15 10 8 6 9 R404A 176 4990 ICE1007 A3 208 230 60 3 767 349 15490 4 15 122 7 4 R404A 34 964 ICE1007 W
100. 84 3 15 8 8 8 4 R404A 22 624 ICE0605 w2 230 50 1 470 214 9909 3 15 6 8 8 4 R404A 14 397 ICE0605 R2 230 50 1 425 193 10708 3 15 9 9 8 4 R404A 160 4536 ICE0605 R3 230 50 1 425 193 10708 3 15 9 9 8 4 R404A 132 3742 ICE0605 A3 230 50 1 459 209 9523 3 16 8 7 6 7 R404A 22 624 ICE0605 W3 230 50 1 523 238 9684 3 16 6 8 5 4 R404A 14 397 ICE0605 R4 230 50 1 474 215 10138 3 16 9 9 6 3 R404A 132 3742 ICE0605 A4 230 50 1 459 209 9523 3 16 8 7 6 7 R404A 22 624 ICE0605 w4 230 50 1 523 238 9684 3 16 6 8 54 R404A 14 397 ICE0605 R5 230 50 1 474 215 10138 3 16 9 9 6 3 R404A 132 3742 ICE0605 A5 230 50 1 459 209 9523 3 16 9 5 6 5 R404A 24 680 ICE0605 W5 230 50 1 523 238 9684 3 16 8 7 5 3 R404A 17 482 ICE0605 R6 230 50 1 474 215 10138 3 16 10 4 6 5 R404A 112 3175 Page H6 ICE Series Cuber Performance Data 24 Hour Capacity Wires Max Min Voltage 90 70 Including Fuse Circuit Comp Refrigerant Model Hz Phase Lbs Kg BTUH Ground Size Amps RLA Type Oz Grams ICE0805 A1 230 50 1 615 280 13321 3 15 12 0 10 9 R404A 41 1162 ICE0805 W1 230 50 1 855 389 14382 3 15 9 2 10 9 R404A 29 822 ICE0805 R1 230 50 1 738 335 14474 3 15 13 0 10 9 R404A 240 6804 ICE0805 A2 230 50 1 615 280 13321 3 15 12 0 10 9 R404A 27 765 ICE0805 w2 230 50 1 855 389 14382 3 16 9 2 10 9 R404A 24 680 ICE0805 R2 230 50 1 738 335 14474 3 16 1
101. A 31 un 1 ICEVAKE TABLE WATER 1 ds pag VIEW 2 8 CAIR LED DENSER WATER IN E WATER DUT I HULE FD _ _ EMOTE CONNECTIO HOLE FD ELECTRICAL NECTION LIQUID LINE ALE QUICK CONNECT UPLING FOR USE WITH PRECHARGFI 1 LINE SET QEMUTE ONL DISCHARGE LINE 1 2 MALE QUICK CONNECT LING FOR USED WITH PRECHA LINE SETREMATE ONL ICEMAKE ATER LUT 3 4 FPT HARDWARE FOR STRA TING TO BIN Page A12 ICE Series Electrical and Plumbing Requirements ICE1506 Remote General Information Page A13 TOP VIE MINIMUM WALL CLEARANCE ICE CUBE DISPENSE AREA IDES E z ICEMAKER POTABLE ATER IN 3 5 OPTIONAL ICEMAKER POTABLE WATER 1 FPT ICEMAKER POTABLE OPTIONAL ATER IN 3 8 FPT ICEMAKER WATER QUT FPT ICEMAKER WATER CFTIDNAL T FPT _ p dm 4 Gud 2S ss t s 45 b TF MACHINE DISCHARGE LINE 1 2 MALE QUICK CONNECT COUPLING FOR SE WITH RT 325 T 340 404 PRECHARGE LINE SET LIGUID LINE 3 8 MALE QUICK ECT CJJPLING FOR bas USE WITH RT 3 5 4 340 404 PRECHARGE LINE SET T T 1 1 HOLES FOR ELECTRICAL T NNECTIO p He tt xd V N HARD
102. Bl ms 6 e or La Ld e E LE FA HIGH TEM HICH LENOI TROL T ITCH TROL L A L Page G93 ICE Series Wiring Diagram ICE0500A5 500T6 Wiring Schematic H IN TIME JRTION FREEZE LE E TA F E L HARVEST T ELA IL HOT GA ELA ELA N IL N TIME 2 ELA f IL V HI PRE A ITCH TROL E ELAY 2 IL IN FILL ELECT FA LE FA ITCH ITCH TROL MOT ICE ELA A L L ICE IOT ELECT ITCH ATE ASH l ELECT ITCH TACT E E L Page G94 ICE Series Wiring Diagram ICE0606A5 606T6 Wiring Diagram E EE NAMEPLATE Fi ER FUSE HACR TYPE BREAKER SIZE A LTAGE REQUIREMENT ee FUSE REQUIRE TH md IDES OF POWE L THI IT MUST F LT T
103. CE0250 A T2 R 404a 16 60 37 175 400 37 12 22 3 115 60 1 ICE0250 W2 R 404a 13 60 35 250 35 12 19 3 115 60 1 ICE0250 A4 R 404a 25 60 35 200 400 36 13 17 3 115 60 1 ICE0250 A T4 R 404a 25 60 37 200 400 36 13 17 3 115 60 1 ICE0250 W4 R 404a 13 60 35 250 35 13 17 3 115 60 1 ICE0250 A5 R 404a 25 60 32 200 400 32 13 17 3 115 60 1 ICE0250 A T5 R 404a 25 60 37 200 400 36 13 17 3 115 60 1 ICE0250 W5 R 404a 13 60 32 250 32 13 17 3 115 60 1 ICE0250 T6 R 404a 13 60 32 250 32 13 17 3 115 60 1 ICE0320 A1 R 404a 18 60 36 175 400 36 14 25 3 115 60 1 0320 1 R 404a 15 60 36 250 36 12 17 3 115 60 1 ICE0320 A2 R 404a 18 60 36 175 400 36 14 25 3 115 60 1 ICE0320 W2 R 404a 11 60 36 250 36 12 17 3 115 60 1 ICE0320 A3 R 404a 18 60 36 200 400 36 14 25 3 115 60 1 ICE0320 W3 R 404a 11 60 36 250 36 12 17 3 115 60 1 ICE0320 A4 R 404a 18 60 32 200 400 32 14 25 3 115 60 1 ICE0320 W4 R 404a 11 60 32 250 32 12 17 3 115 60 1 Page 11 ICE Series Specifications Cycle Time Back Head Timer Approx Batch Ref Charge Press Press Initiate Minutes Weight Volt Cycle Model Type Ounces Approx Approx Setting 70 50 90 70 Pounds Phase ICE0400 A1 R 404a 32 65 41 175 400 41 16 21 5 5 115 60 1 ICE0400 A T1 R 404a 32 65 41 175 400
104. E1007 Remote Wiring Schematic R3 IN TIME PORTION FREEZE OL E ITCH N OT EMOTE FA ELAY 2 ic ASH ae T ELECT ITCH ELAY ICE 1 ELECT ITCH AM SH OT HARVEST Ly GA ELAY L TIME INITIATE TIVE TROL LE SOL LIQUID LINE X 7 ELAY 2 HI PRE E ELECTO TROL Ie LI LI VI V ICE ITCH A NTACT x li IL HI TE ESSURE CONTROL ITCH ESSOR TACTOR L Page G52 ICE Series Wiring Diagram ICE0250 Air4 and Water4 ICE0400 Air3 and Water3 Wiring Diagram po o G E SEE NAMEPLATE ER FUSE VOLTAGE REQUIREMENTS FUSE OR HA TYPE LY F LT UNIT 2 Se OVERLOA ELS REQUIRE HAC FAKE 1 ATER MODELS REQUIRE FUSE HA L ENT Ld 2 TART E SWITCH l 1
105. E1407A3 W3 ICE1807W3 and ICE2107W3 Wiring Diagram LARGE CUBE ATE LE L EE NAMEPLATE 5 i TNS a n TACT ua ATE u T HT LEFT MN ELAY 3 COIL HOT GAS SOLENOID FRONT ch A HOT LENOID EA L HARVES ICHT i _ FAN P T Al LED ONLY Z 1 n TCH URCE LENO OL ELA K I BN gt l F N ELAY 3pk y ITCH E To IL TIME say 4 OIL EV Page G71 ICE Series Wiring Diagram ICE1407A3 W3 ICE1807W3 and ICE2107W3 Wiring Schematic HEMATIC AIR amp WATE LE HOWN IN TIME TION FREEZE CYCLE ER SUPPLY Bun Yi TACTOR j b E V T 1 lt i ELECT ITCH 1 L mek 14 T E F L Wy E SWITCH ELECT E E SWITCH ITCH ZL MOMENTA HOT CAS A m L TCH FRONI N HARVEST TH N RIGHT _ TIVE 4 RELA yi IL E FA LE PAM oy NTROL FA D ITCH 2 T N HARVEST 2 3A Pi TY LEFT ITCH 2
106. ER WATER IN 3 2 ICEMAKER WATER OUT 1 FET ef ET DISCHARGE LINE ALE QUICI ECT ING F E WITH RT T 34 ECHARGED LINE SET REVOTE ONL EA IE LIQUID LINE LE QUICI ECT Page A9 ICE Series General Information Electrical and Plumbing Requirements ICE1406 ICE1806 ICE2106 48 Inch Wide Cubers Prior to January 2008 SEES MINIMUM WALL CLEARANCE a VOX Y i 5 M ce tee E E CUBE DISPENSE 7 EA TO Bl l INI ALL CLEA EAR OF MACHINE EQUIRED F E MESE ERATI HOLE F IE ELECTRICAL CONNECTI 8 KNOCK OUT FO EMOTE CONNECTIONS L Z gt HOLE F JENSER WATER OUT ELECTRICAL CONNECTI FPT N P ENSER WATER IN P ye 100 3 8 FPT ELS SS a 4 2 FPT gt 1 lt i 1 ICEVAKE f ATE T TABLE WATER E lt lt ey 47 of cea 1 LN 1 d 1 T ka s 34 E FOR ST TING TO Bl ini E 4 M s my DISCHARGE LINE LE QUICH ECT m LING F E WITH 325 404 T 340 404 ECHARGED LINE SET REMOTE ONL EAR LIQUID LINE 3 8 MALE QUICI ECT LIN E WITH RT 325 404 T 340 404 ECHARGED LINE SET REMOTE Page A
107. FILL ITCH E TOR 2 HEN REQUIRE N e e 41 9 kem l ATE E FA LE FA TOR HIGH TE HIGH PRE E LENOI TROL ITCH TROL ITCH 4 1 HEN REQUIRE ATE 99 ICE Series Wiring Diagram ICE1006A5 W4 ICE0806A5 W5 Wiring Schematic H IN TIME TI FREEZE LE dn E L HARVEST m HOT GA L ELA IL EL A AM Z ELA LE EN T INITIATE TIVE TROL ELA IL Vi HI TE HI PRE E m H TROL SWITCH TRE ELA VI 1 4 L IN FILL ELECT FA LE FAN ITCH ITCH TROL I ICE ELA A N ONLY FA L ICE T ELECT ITCH ASH 11 ELECT ITCH b Page G100 ICE Series Wiring Diagram ICE726R ICE926R Wiring Diagram m E L EE NAMEPLATE F HACR TYPE BREAKER SIZE LTACE REQUIREMENT
108. INE ELA E ELECT SWITCH ATE ASH 11 ELECT ITCH Page G98 ICE Series Wiring Diagram ICE1006A5 W4 ICE0806A5 W5 Wiring Diagram E L EE NAMEPLATE F ER FUSE HACR TYPE BREAKER SIZE LTAGE REQUIREMENT ye 3 FUSE REQUIRE TH SDE 6 LY F CAUTION 24 LT UNIT AIR MODELS REQUIRE EAKE WATE ELS REQUIRE FUSE HA TI TERMINAL 774 o o 9 HOT GA LENOI MPRE H INTERNAL OVERLOA TENTIAL ELA 4 E SWITCH 24 4 e 5 Le e H TART E HARVEST MOT o LECT ITCH TIME LE ICE lt gt P A 4 e ERE e l o x r ITCH x INITIATE TROL Al ATE IN
109. INTERNAL 9181005 12 9181005 27 9181009 11 INTERNAL 9181009 11 INTERNAL 9181003 08 N A 9181005 26 9181003 08 9181009 16 9181005 25 9181003 19 9181009 12 INTERNAL 9181003 07 9181009 12 INTERNAL 9181003 06 9181009 12 INTERNAL Q 9 a m n N A N A INTERNAL 9181009 20 INTERNAL N A 9181005 31 N A 9181005 30 9181009 13 INTERNAL N A INTERNAL N A 9181005 34 N A 9181005 35 9181009 13 INTERNAL 9181009 04 INTERNAL 9181009 19 INTERNAL 9181009 16 INTERNAL 9181009 16 INTERNAL 9181009 16 INTERNAL N A INTERNAL 9181009 20 INTERNAL N A INTERNAL 9181009 13 INTERNAL N A INTERNAL 9181009 20 INTERNAL N A INTERNAL 9181009 11 INTERNAL 9181009 11 INTERNAL N A 9181005 29 9181009 21 9181005 32 N A 9181005 42 N A 9181005 38 N A 9181005 40 N A 918100541 9181009 09 9181005 36 9181009 21 9181005 38 9181005 37 9181009 08 9181005 39 9181009 21 INTERNAL ICE O MATIC COMPRESSOR SPECIFICATIONS COMPRESSOR amp COMPONENT PART USAGE START RUN 55 COMPRESSOR SUPPLIER capacitor CAPACITOR RELAY OVERLOAD 9181131 01 TECUMSEH AKA94272XA 9181003 49 9181004 29 1011380 23 9181134 01 COPELAND RS7OCIE PFV 213 9181003 20 9181009 11 9181010 12 INTERNAL 9181010 27 ICE O MATIC START CAPACITOR SPECIFICATIONS CAPACITOR PN SUPPLIER PART MIN VOLTS ee S S G eee O 918100322 DANFOSS 117 500 _ 918100324 DANFOSS 117053 9
110. IONAL TERMINAL N di L ILI E T H EXTERNAL OVERLI HOT Sm LENOI I _ FUSITE TENTIAL ELA 4 ITCH e H 2 5 o ie e I HARVEST 1 LECT ITCH TIME LE ICE e A 4 e 2 B 4 A 6 WASH ITCH TIME INITIATE T e IN FILL ITCH e e e e E ATE E FA LE HIGH HIGH PRE LENO TROL NOT ToL L A L Page G95 ICE Series Wiring Diagram ICE0606A5 606T6 Wiring Schematic H IN TIME T FREEZE EE E TA E L HARVEST T HOT L ELA IL ELAY ELA IL 11 11 IN INITIATE TIME L 4 ELA IL HI PRE ITCH T an AGE n ELAY 2 vi IN FILL ELECT F LE FAN ITCH ITCH ITROL Ll T ICE ELA L _ L ICE T ELECT ITCH ATE JASH ELECT ITCH T TACT E Page G96 ICE Series Wiring Diagram ICE0606R6 605R6 Wiring Diagram
111. IT liquid This drop in pressure causes the refrigerant to cool The cooled refrigerant absorbs heat from the water circulating over the evaporator As the evaporator fills with liquid refrigerant the evaporator becomes colder The flow of refrigerant into the evaporator is controlled by the temperature at the outlet of the evaporator The expansion valve bulb mounted to the top of the suction line senses the evaporator outlet temperature causing the expansion valve to open or close As ice forms on the evaporator the temperature drops and the flow of refrigerant into the evaporator decreases resulting in a drop in suction pressure The evaporator should become completely flooded filled with liquid refrigerant during the freeze cycle A completely flooded evaporator will have a uniform freeze pattern ice formation across the evaporator A starved evaporator not enough liquid refrigerant will have poor or no ice formation at the top of the evaporator and the tube s exiting the evaporator will not frost All tubes should be within 10 degrees of each other and frosted approximately 5 minutes from the start of the freeze cycle An expansion valve that is restricted or not opening properly will starve the evaporator resulting in lower than normal suction pressure A low refrigerant charge will also starve the evaporator and cause low suction and discharge pressures If not sure of the amount of charge in the system the refrigerant sh
112. Ice O Matic SERVICE AND INSTALLATION MANUAL THE ICE SERIES CUBERS ICE0250 through ICE2100 SERIES Includes Undercounter and 22 Inch Series Ice O Matic 11100 East 45th Ave Denver Colorado 80239 Part Number 9081270 01 Date 1 14 ICE Series Notes j Ice O Matic has partnered with ENERGY STAR since 2004 to ensure our customers receive the Lr 4 77 most efficient ice machines for your investment dollar Ice O Matic is committed to the continuous improvement in both energy efficiency and productivity thereby delivering the best value in energy efficient ice machines money can buy For a detailed list of ENERGY STAR qualified Ice O Matic ice machines go to http www iceomatic com Products Sales Literature Z Plant a Tree Program As part of our commitment to the global environment Ice O Matic is devoted to sustainability in every aspect of our business To offset the carbon footprint of our factory in Denver we not only recycle materials in our packaging and manufacturing but also recycle our industrial AMERICAN FORESTS and office waste products More important we partner with AMERICAN FORESTS and plant a tree for every ice machine we sell thereby supporting reforestation of key regions throughout the world Our goal is to plant 150 000 trees through our Global Sustainability program Trees reduce topsoil erosion prevent harmful land pollutants from getting into our waterways and replace air pollutants with fresh cle
113. L E E TROL a e s TIVE 5 HOH PRES LED ONL K uu BN SW 1 ICE OFF WASH k o K N SELECTO SWITCH SI me LED ONL wa 23 ICE Series Wiring Diagram 1405 1406 1806 2005 2106 Air and Water Wiring Schematic SHOWN IN TIME TION FREEZE CYCLE TACTOR RES OT ASH ELECT ICE I T gt lt SELECT IT TIME ee 4 4 NI A N x SELAY HI PRESSURE TROL mE V JNTACT i IL L FA OT A L ICE L F W 44 H ONLY 28 ELECTO i TROL ITCH erie L TIMER N HOT L 2 1 ENTA Ee L RCE NENTA Page G24 ICE Series Wiring Diagram ICE1405 1406 1806 2005 2106 Remote Wiring Diagram E EPLATE r EE NAI TYPE BREAKER SIZE L LINE
114. LT FUSTE TERMINAL HIGH E E ooo HIGH TE causa TROL 5454 ITCH es e A m ESSC ANUAL RESET H INTERNAL OVERLOA 24 0 0 009 TENTIAL T ELA ex i f Z N e HOT GA E SWITCH N 3K z Hine e 4 H e e 01 e 7 TART H B ELECT TACT TROL ITCH 5 4 HARVEST I eje T Fre De 16 TIMER L__ C WASH IODULE i ITCH TIVE INITIATE Io e ITCH 1 9 e 44 LIQUID LINE LENOI Page G13 ICE Series Wiring Diagram ICE0500 Remote Wiring Schematic SH IN TIME TION FREEZE CYCLE i EMOTE FA ITCH N T EMOTE FA ELA P NASH i ELECT ITCH ELAY ICE E L ELECT SE ITCH ENTARY 7 HARVEST D HOT GA ELAY A ee V TIME HI TE INITIATE TIME ITCH TROL 7 tL COMPRES A CONTACTO ri U RELAY L LIQUID LINE ELAY 2 A ar RES SURE SELECTO NTROL SWITCH A 14 VI VI ICE ITCH NTACT IL ESSURE TROL Page G14 ICE Series Wirinq Diaqram ICE0605 0606 0805 0806 1005 1006 Air and Water Wiring Diagram SU LY EE NAMEPLATE FC ROPER FUSE TYPE BREAKER SIZE m CAUTION THI 4 E LTACE REQUIREMENTS 80x HICH TEM TROL ITCH
115. LTE ara i iu 1 FUSTE E B CAUTIO 1 I a w Y e o e H A ITCH l INITIATE e T e IN FILL THE TAT o e e e t FAN F LE HIGH TE LENOI AOTC TROL TCH LY L Page G57 ICE Series Wiring Diagram ICE0406 405 Air3 and Water3 ICE0305 Air3 and Water3 Wiring Schematic BEN IL n ATE T ELECT ITCH ELAY ICE f 1 ELECT ITCH E k E gt HARVEST L NE ELAY L TIME INITIATE TIME TROL T TACT LE FAN Duy ELA I ONL LY rn ELECT HI TE ITCH TCH TACT V VI L HI PRE E ICE ITROL ELAY 2 A H IN TIME E Page G58 ICE Series Wiring Diagram ICE0325 Air3 and Water3 ICE0525 Air3 and Water3 Wiring Diagram HACR TYPE BREAKER SI
116. Low Pressure Control The Low pressure Control closes and energizes Timer Number 1 The Timer times out and energizes Relay Number 1 Coil Relay Number 1 contacts and NO close to send power to Cam Switch Number 2 C and which energizes Harvest Motor 2 Hot Gas Valve 2 and Relay Number 3 Coil Relay Number 1B contacts close to energize Harvest Motor 1 and Hot Gas Valve 1 When the Low Pressure Control opens during hot gas defrost the circuit is latched through the Purge Switch contacts C and NC 9 Relay Number contacts C and NO close to send power to the Selector Switch and Hot Gas Valves when the curtain is open 10 Once Cam Switch 2 contacts C and NO close High side of the Cam it will remain energized from the Selector Switch until contacts C and NC close Rotates 360 degrees 11 Once Cam Switch 1 contacts C and NO close High Side of the Cam the Harvest Motor will be energized and the Water Pump and Purge Valve will be de energized when contacts C and open 12 With the bin switches open Relay Number 3 Coil de energized due to Cam Switch 2 contacts C and NC closing the unit will shut off on full bin O1 GW PO CON Notes eC Common eNC Normally Closed eNO Normally Open eRelay Number 9 amp 12 Common eRelay Number 1 amp 4 Normally Closed eRelay Number 5 amp 8 Normally Open eRelay 1 Puts unit into defrosts eRelay 2 Bypasses the Bin Switches and initiates the Low Pressure Cont
117. N HOT GAS L EA ICE IME 7 7 NT INITIATE A d ELECT ELA TROL ITCH RA IL E HI PRESSURE HI TEM HI TEM TACT INTRO SWITCH ITCH IN N IN IN IL WATE ONL E Page G72 ICE Series Wiring Diagram ICE1405 6R3 ICE1806R3 and ICE2106R3 Wiring Diagram 1 et E IS FA F Pas a sh s a ies d Loa CONDENSER TART N 1 1 GROUN ELAY TART T up NAT S T L m TACT ES TT 5 ATE LI T HT ARVEST 2 LEFT 7 J Li E FLAY 3 COIL cl a HOT OLENOID FRONT OL HOT SOLENOID AKA RED A LLL p A HARVEST EL RIGHT E ot N OFF SWITCH ITCH ITCH 2 E FF E 2 i 4 L ELAY 2 pel E Fm E k 2 Li TIMER ELAY ELAY 5 IL ICE ren _ LIQUID LINE TIME TIVER ELAY PT L ITCH HI TACT uU RR wel ek EC Page G73 ICE Series Wiring Diagram ICE1405 6R3 ICE1806R3 and ICE2106R3
118. NOI ES H INTERNAL OVERL TENTIAL ELA 1 f E SWITCH e I e 5 Ho 1 1 T H TACT TVE pal ELECTOR SWITCH e ICE e 4 5 I e e e FF A l La S H J e o o o ITCH INITIATE TROL e e 1 IN FILL Z ITCH e e Lg e e LENOI Page G7 ICE Series Wiring Diagram ICE0400 Air and Water Wiring Schematic H IN TIME FREEZE CYCLE E i ELAY 2 Kon H E ELECT ITCH ELAY ICE E A M 1 OL ELECT E ITCH Ty HARVEST op HOt ELA TIVER HI TE INITIATE TIVE ITCH SONTROL A IL NTACTC i 7 RELA Ee ELAY 3 IN FILL ELECT HCH ITCH i V E TACTO IL HI PRESSURE ICE TROL ELA A NEY L Page G8 ICE Series Wiring Diagram ICE0405 0406 Air and Water Wiring Diagram HACR TYPE BREAKER SIZE
119. OL ITCH VITCH IL Page G82 ICE Series Wiring Diagram ICE1506R3 Wiring Diagram From Serial Number 09041280010750 LARCE ER REMOTE LE l EE EPLATE FA z E I Tog c REMOTE ENSE TART ELA START NI LENG T TACT ATE BE T LEFT A r I 5 C Bk IL RELAY 4 COIL ENO HOT GA IGHT 3 HOT GA LENOI A LEFT iT 7 mes yy 7 B Lr HARVEST ICHT l ELA OFF SWITCH FF E I ASH i 2 L ELA ELA IL ELAY 4 MINUTE TAY LIQUID LINE ASH NE L INITIATE ot TIME ELA I IL HN ELA ITCH P HIGH E ITCH TROL TROL HICH TE TACT I Bk oo IL Page G83 ICE Series Wiring Diagram ICE1506R3 Wiring Schematic From Serial Number 09041280010750 IRI HEMATI EMOTE LE
120. R TYPE EAKER SIZE A LTAGE REQUIREMENT ERLOA AUTI FUSE HACR TYPE BREAKER REQUIRE L LINE SIDE OF POWE LY F THI T T HIGH PRE E LT UNIT L C TROL x HIGH TE y ibn RELAY ENT E 7 ANUAL RESET HOT GA LENOI TART CAPACIT TERMINAL LOCI Ld E SWITCH K T ees e ELECT ITCH A LE 1 e 4 e FF n awash ue e ele ITCH K IN FILL ITCH 9 e INITIATE ATE hi 3 TO TROL LE Page G33 ICE Series Wiring Diagram ICE0320 Air and Water Wiring Schematic H FREEZE LE gt OT ELAY ASH ATE ELECT ITCH EM ICE i 1 OL ELECT I E ITCH ENTARY HARVEST GA ELAY L N TIME HI TEV INITIATE TIME ITCH L RES ONTROL T le a aa ELA n FILL ELECT SWITCH SWITCH B INTACT IL Vy V1 vi HI P RES E ICE ELAY 2 A Page G34 ICE Series Wiring Diagram ICE0520 Air and Water Wiring Diagram WER SU LY EE NAMEPLATE F FUSE 4 HACR TYPE BREAKER SIZE LTAGE REQUIREMENT ALTERNATE E
121. Specifications Cycle Time Back Head Timer Approx Batch Charge Press Press Initiate Minutes Weight Volt Phase Model Ref Type Ounces Approx Approx Setting 70 50 90 80 Pounds Cycle ICE1806 W1 R 404a 42 60 34 250 34 11 17 14 208 230 60 1 ICE1806 R1 R 404a 400 60 37 192 400 37 10 17 14 208 230 60 1 ICE1806 W2 R 404a 35 60 34 250 34 11 17 14 208 230 60 1 ICE1806 R2 R 404a 400 60 37 240 400 37 10 17 14 208 230 60 1 ICE1806 W3 R 404a 37 60 53 250 38 11 13 14 208 230 60 1 ICE1806 R3 R 404a 272 72 61 240 400 38 12 15 14 208 230 60 1 ICE1806 W4 R 404a 37 60 53 250 38 11 13 14 208 230 60 1 ICE1806 R4 R 404a 272 72 61 240 400 38 12 15 14 208 230 60 1 ICE1806 W5 R 404a 37 60 37 250 37 11 13 14 208 230 60 1 ICE1806 R5 R 404a 272 72 37 240 400 37 12 15 14 208 230 60 1 ICE1807 W1 R 404a 42 60 35 250 35 10 16 14 208 230 60 3 1 1807 1 R 404a 400 60 35 192 400 35 10 17 14 208 230 60 3 ICE1807 W2 R 404a 35 60 35 250 35 10 16 14 208 230 60 3 ICE1807 R2 R 404a 400 60 35 240 400 35 10 17 14 208 230 60 3 ICE1807 W3 R 404a 37 60 53 250 38 11 13 14 208 230 60 3 ICE1807 R3 R 404a 272 71 63 240 400 38 13 14 5 14 208 230 60 3 ICE1807 W4 R 404a 37 60 53 250 38 11 13 14 208 230 60 3 ICE1807 R4 R 404a 272 71 63 240 400 38 13 14 5 14 208 230 60 3 ICE2106 W1 R 404a 50 60 35 250 35 9 14 14 208 230 60 1 1 2106
122. TAGE REQUIREMENT 44 ome AUT ALTERNATE E THI IT T X E x L 4 HIGH X HIGH L TROL OPTIONAL ITCH FUSIE gt ya 77 j X ANUAL RESET HOT GA L ATE J LE LENOI ODEL H INTERNAL ERL 4 2 K Bk Le ENT ELA 4 E ITCH I e k TART 1 Hu 4 14 eX tip TACT TIME Hated ELECT ITCH i LE ICE 4 4 FF L 9 1 e e S E WASH e ol e ITCH IME INITIATE e NT e 1 IN FILL ITCH Ww e e e FAN ATE GE Be SOLENOID T ELS ONL Page G39 ICE Series Wiring Diagram ICE0305 Air and Water Wiring Schematic H IN TIME TI FREEZE CYCLE En E 1 BLA OIL ik ATE T ELECT ITCH ELA ICE SOL ELECT TC ENTAR HARVEST n HOT GA ELA IM ES INITIATE TIME ITCH TROL l ES 7 TACTO L RELA FA M T RELAY IN FILL ELECTOR ITCH ITCH V ES TACT VI d IL HI PRE E ICE TROL ELAY 2 L L d Page G40 ICE Series Wiring Diagram ICE1506 Remote
123. UST BE VDEI L gt 4 e e gt D RELAY CURRENT ie K HIGH ITCH LENOI LENOJ TART m mu A M ELECTOR ITCH h IN FILL THE TAT i K b orr k e 4 ish TIMER INITIATE TIME TROL 5 f w ELA HIGH E t TROL I sab ii E SWITCH K 4 k F AOT Page G85 ICE Series Wiring Diagram ICEU300 A W Wiring Schematic From Serial Number 10041280011405 E ENTA E H SOL HARVEST IOT HOT CA L ELA ELAY A l ll VI 11 INITIATE TIME ELA TROL IL TACT IL HI TEM AFET A ICE _ ii IN FILL SELECT ELA THERMOSTAT ICE IOT ELECT m ASH HI PRE TROL IOT TACT E E TROLS SHOV ING TIME TION OF FREEZE CYCLE Page G86 ICE Series Wiring Diagram ICEU150 220 225 226 A W Wiring Diagram From Serial Number 10041280011405 Li NAMEPLATE Fi FUSE OR HACR TYPE BREAKE LTAGE REQUIREVENT FUSE REQUIRED ONLY ON LINE
124. WARE FD STRAP MOUNTING TO LH SIDE VIE BIN LOCATED UNDERSIDE OF 61 512 l ICEMAKER POTABLE WATER 1 H FA ACHINE ICEMAKER WATER DUT 3 4 ICE Series General Information Electrical and Plumbing Requirements ICE0726 and ICE0926 Remote l fe SHEET l i 1 1 1 i 1 1 1 L MIN WALL LEARANCE l i 1 l ICE CUBE DISPENSE AREA 1 s i u FAR OF MACHINE 00 MINIMUM WALL CLEARANCE EUIRED FD ER OPERATION j TO IE Is 1 m F u C Po SIDE VIE L H SIDE VIE ED 9 e TE DISCHARGE LINE 1 2 MALE QUICI ro ING FOR USE ITH PRECHARGED LINE SET s LIQUID LINE MALE QUICK h ECT COUPLING FOR USE ICEMAKE ITH PRE HARGED LINE S T TABLE WATE I 3 HOLE FO ICEVAKER ELECTRICAL in HOLE FO ELECTRICAL LI i Page A14 ICE Series General Information Remote Condenser Installation For proper operation of the Ice O Matic ice machine the
125. ZE HOWN W EXTERNAL OVERLOA amon ne THI MUST Re cee FUSE gk HICH ESSURE o E BK4 x 0 HOT CA w ee E H N INTERNAL OVERLOA TERMINAL LOCK TENTIAL ELAY 711 Le NEM Loo Y E SWITCH 4 HIGH TE p ITCH r 8l ws je q 2 e e e e e e H e k e L TACT HARVEST oe 2 TIME LE ELECT ITCH sd 2 vs e I l e e FF ITCH H 177 n IN FILL ITCH e e e e 724 TROL FA FA INITIATE ATE E eel TROL LENOI Page G59 ICE Series Wiring Diagram ICE0325 Air3 and Water3 ICE0525 Air3 and Water3 Wiring Schematic
126. alve should be adjusted to maintain a discharge pressure of 250 psi 17 01 bar on R404a units and 150 psi 10 21 bar on R134a units Water exiting the condenser should be between 100 F 38 and 110 F 43 C When the machine is off the water valve will close completely stopping the flow of water through the condenser If the water flow does not stop when the machine is off the valve may need cleaning or replaced Air Cooled Condenser Remote See Pages E5 and E7 High Pressure Safety Control Manual Reset If the discharge pressure becomes excessive the high pressure safety control will open and shut the machine off The high pressure safety control opens at 450 psi 30 62 bar on R404a units and 250 psi 17 01 bar on OD r R134a units The high pressure safety control is used on all water cooled and remote units and select air cooled units High Pressure Safety Control Automatic Reset The automatic reset high pressure control opens at 450 psi 30 62 bar and closes at 338 psi 23 00 bar The high pressure safety control is used on all water cooled and remote units and select air cooled units Page E2 ICE Series Refrigeration System Thermostatic Expansion Valve TXV Im The thermostatic expansion valve meters the flow of refrigerant into the Peo evaporator changing its state from a high pressure liquid to a low pressure H
127. amp FUSE REQUIRE TH SIDE IDE OF POWE LY F F F TCH LT UNIT C 4 240 VOLT UNIT L ER TE HARVEST 4 4 IoT 2 n E IT MUST BE AS ELA LH 97 WW l l HIGH TEM HOT ITCH LENOI LENOI TART e e F K P ELECT p IN FILL THERMOSTAT ICE kte e OFF WASH TIME T A et PE ES sas 8 ELA HIGH PRESSURE TEES TROL gt E SWITCH Page G87 ICE Series Wiring Diagram ICEU150 220 225 226 A W Wiring Schematic From Serial Number 10041280011405 TIME INITIATE TIME ELAY TROL I f IL IL HI TE AFET FA N FILL ELE WATE TROLS SH ING TIME F FREEZE LE EV A Page G88 ICE Series Wiring Diagram ICEU305A W Wiring Diagram From Serial Number 10041280011405 LARGE CUBER Al ATE LE L EE NAVEPLATE TART ph ELA F9 ACIT L 25 4 ub TACT MPRE N ATE wor S HARVEST WOT et OIL RELAY 3 COIL HOT LENOID F L HOT LENOID L K HARVEST T RIGHT F L TROL EL p A 3 LED ONL a
128. an oxygen Ice O Matic Warranty Every Ice O Matic ice maker is backed by a warranty that provides both parts and labor coverage To view the warranty details register products or check your warranty status visit the Warranty and Water Filter Registration page on www iceomatic com This manual belongs to Always feel free to contact the Ice O Matic Service Department with any questions or comments Ice O Matic 11100 East 45 Avenue Denver Colorado 80239 Telephone 303 371 3737 Toll Free 800 423 3367 FAX 303 576 2944 After Hours Emergency Technical Support 888 FIX 4 ICE 888 349 4423 Additional Telephone Numbers Contact Area Code Phone Number ICE Series Notes ICE Series Table of Contents Table of Contents General Information How To Use This Manual Model And Serial Number Format Installation Guidelines Electrical And Plumbing Requirements Remote Condenser Installation How The Machine Works Undercounter Model Bin Removal Warranty Information Scheduled Maintenance Maintenance Procedure Cleaning and Sanitizing Instructions Winterizing Procedure Cabinet Care Troubleshooting Trees How to Use The Troubleshooting Trees Troubleshooting Trees Table Of Contents Troubleshooting Trees Water System Water Distribution And Components Refrigeration System Refrigeration Cycle And Components Harvest Cycle Remote System Pump Down System Electrical System Control Circuit Compressor A
129. ards counterclockwise If this happens the motor must be replaced It is also possible for a defective motor to bump backwards immediately when entering harvest This will activate the cam switch and cause the machine to return to the freeze cycle immediately after entering harvest If the machine is in harvest only for a split second the harvest motor may be defective Verify the motor is defective by watching the clutch closely when the machine enters harvest Clutch Assembly The clutch assembly consists of a slip clutch and cam A probe is attached to the clutch assembly and the harvest motor turns the clutch during harvest As the harvest motor turns the clutch will slip while the probe is pushed against the ice The clutch will continue to slip as long as the pressure required to move the ice is greater than the 25 oz Once the evaporator has heated enough to break the bond of ice to the evaporator the pressure required to move the ice becomes less than the 25 oz And the clutch begins to move The clutch assembly is not adjustable If the clutch tension is weak less than 25 oz a slow harvest or excessive ice meltage during harvest will result If the clutch pressure becomes too tight the force of the probe against the back of the ice may cause the slab to break and the ice may not fall off of the evaporator If the clutch tension is suspected of being too tight or loose turn the clutch by hand The clutch should turn smoothly withou
130. be checked with an ohmmeter It should not be assumed that the switch is good because a click can be heard when moving the actuator arm High Temperature Safety Control The high temperature safety control is a thermal disc that protects the machine if the machine sticks in the harvest cycle The high temperature safety is clamped to the suction line near the expansion valve thermal bulb It opens when the suction line temperature reaches 120 F 48 8 C and closes when the temperature drops to 80 F 26 6 C Ifthe high temperature safety opens during harvest it will de energize the harvest components If the high temperature safety is defective and fails open during the freeze cycle it will not allow the relay s to energize and the machine will not enter harvest Remove the high temperature safety control and check it with an ohmmeter to verify that it is defective Note 1 ICE0500R3 ICE0606R3 ICE0806R3 and ICE1006R3 The high temperature safety control specifications have been changed to open at 120 F and close at 100 F Note 2 On models where the high temperature safety control is mounted on the hot gas valve outlet tube the specifications are open at 180 F and close at 120 F Additionally the high temperature safety control is wired in series with the contactor If the high temperature safety control opens for any reason the compressor will shut down This is an automa
131. ce technician will be led through questions and checks and end up with a probable solution When using the troubleshooting trees it is important that the service technician understand the operation and adjustments of the components being checked and the component suspected of malfunctioning A detailed description of the operation and adjustments of the components as well as other service information is available in the pages that follow Section C Sections D E and F focus on a particular system in the ice machine water distribution system refrigeration system and it is important that these sections be used together with the Troubleshooting Trees in Section C Most aspects of the ICE Series machines are covered in this manual however should you encounter any conditions not addressed herein please contact the Ice O Matic Technical Service Department for assistance You may also fax e mail or write the Ice O Matic Technical Service Department Ice O Matic 11100 E 45 Ave Denver Co 80239 Attn Technical Service Department E Mail Tech service iceomatic com Telephone Numbers Any Service communication must include 800 423 3367 All Department e Model Number 888 349 4423 Technical Assistance Only e Serial number 303 371 3737 e A detailed explanation of the problem Note the warning symbol where it appears in this manual It is an alert for important safety information on a hazard that might cause serious injury AWARNING Keep t
132. cle Is air and water temps consistent and within guidelines YES Check the Purge Valve for water leaks Check Hot Gas valve for proper operation Check Timer Initiate Control for proper operation Check Solid State Timer for proper operation OK TXV s could be defective see page E3 and E4 NO NOT OK NOT OK NOT OK NOT OK Page C11 ICE Series Troubleshooting Trees Correct installation deficiency Clean Purge Valve or replace if defective Replace Hot Gas Valve Replace Timer Initiate Adjust Timer or replace if defective ICE Series Troubleshooting Trees Machine Produces Cloudy Ice See Poor Water Running Over Evaporator Troubleshooting Tree page C13 15 water running evenly across the evaporator Doe machine Correct meet installation installation deficiency guidelines See Section Cloudiness is a result of properties in the incoming supply water Page C12 ICE Series Troubleshooting Trees Poor Water Distribution Over The Evaporator YES Is the machine level NO Level the machine OBSTRUCTED Clean Water Distribution Tube insure that it is assembled correctly Is the water level in the Water Trough correct See Section D NO YES Check Water Distribution Tube for obstructions or improper assembly See Section D CLEAR Ch
133. dercharged and the ambient temperature is below 70 F 21 C the mixing valve will not work properly The mixing valve will allow too much refrigerant to bypass the DISCHARGE GAS INLET condenser CONDENSER LIQUID INLET Problem Possible Cause Remedy 1 Head pressure low Line between A Valve Defective not allowing A Replace valve valve and receiver cold Ambient discharge gas into receiver condenser temp below 70 F 21 C 2 Head pressure low Line between A System low on charge A Leak check Recover valve and receiver hot B Valve defective not refrigerant and weigh allowing liquid in proper charge into receiver B Replace valve 3 Head pressure low Line A Valve defective not A Replace valve returning from condenser allowing refrigerant is cool Ambient condenser to circulate through temperature is above 70 F 21 C condenser Page E6 ICE Series Refrigeration System Pump Down System Remote Only The pump down system prevents liquid refrigerant from migrating to the evaporator and compressor during the off cycle and prevents the compressor from slugging or starting under an excessive load Liquid Line Solenoid When a machine with a remote condenser shuts off the liquid line solenoid valve located at the outlet of the receiver is de energized causing the valve to close completely restricting the flow of refrigerant The compressor will pump all of the refrigerant into the condenser and receiver
134. e Cam Switch 1 contacts C and NO close High Side of the Cam the Harvest Motor will be energized and the Water Pump and Purge Valve will be de energized when contacts C and NC open 12 With the bin switches open Relay Number 3 Coil de energized due to Cam Switch 2 contacts C and NC closing the unit will shut off on full bin Notes eC Common eNC Normally Closed eNO Normally Open eRelay Number 9 amp 12 Common eRelay Number 1 amp 4 Normally Closed eRelay Number 5 amp 8 Normally Open eThe Fan Control on the air cooled model cycles only one fan eRelay 1 Puts unit into defrosts eRelay 2 Bypasses the Bin Switches and initiates the Timer eRelay 3 Bypasses the bin Switches during harvest when Relay 2 is de energized from a rise in the suction pressure opening the Low Pressure Control Page F10 ICE Series Electrical System Electrical Sequence for the ICE1400 Series Version 3 amp 4 ICE1800 Series Version 3 amp 4 and the ICE2100 Series Version 3 amp 4 Cubers Manufactured from January 2008 ICE1400R3 amp 4 1800R3 amp 4 and 2100R3 amp 4 Electrical Sequence Includes 50 hz And 3 Phase This unit incorporates a timer upstream of the Low Pressure Control for Low Ambients 1 Timer number 2 Six Minutes is energized from the Selector Switch through Relay Number 3B contacts C and NC Timer Number 2 Six Minutes times out and energizes Relay Number 2 Coil Relay Number 2B contacts C and NO close which energizes the
135. e E8 ICE Series Refrigeration System If the refrigeration system is extremely wet use radiant heat to raise the temperature of the system This action will cause the moisture to vaporize at less of a vacuum The use of two 2 valves one between the vacuum pump and gauge manifold and the other between the refrigerant cylinder and the gauge manifold allows you to evacuate and charge the system without disconnecting any hoses If the hoses were disconnected air or moisture will have the opportunity to enter the hoses and then the system A properly charged icemaker is a service technician s greatest ally Proper charging will allow any concern with the icemaker to be accurately diagnosed The refrigerant charge must be weighed into the icemaker either by using a charging scale or with a dial a charge The amount of proper refrigerant required for the icemaker is printed on the serial data plate attached to the icemaker and is listed on the following pages Never vary the amounts from those listed Remote models with sixty 60 foot lineset runs will need an additional fifteen 15 ounces of refrigerant added In some cases the complete refrigerant charge may not enter the refrigeration system In those instances close the gauge manifold high side valve and disconnect the manifold from the high side port When the icemaker is completely charged secure the caps to the service ports and check to make sure the ports are not leaking refr
136. e and allow the cam switches to switch to the normally open position before the low pressure control opens during hot gas The cam switches are now in the normally open position and will continue to energize the harvest motors and relays until the cam rotates and the switch returns to the normally closed position The bin switches are bypassed to allow the cam switch to return to the normally closed position prior to the machine shutting down if the curtain is open Each harvest assist motor will only make one revolution prior to shutting down on full bin or advancing to the next freeze cycle Both hot gas valves and the water purge valve remain energized until both harvest assist motors complete one revolution The water pump is energized throughout the harvest cycle The unit will shut down if the curtains are open during the freeze cycle Page F7 ICE Series Electrical System Cam Switch Adjustment Check the cam switch for proper adjustment by slowing turning the clutch by hand in a counterclockwise direction while listening for the switch contacts to change The switch should have an audible click as the roller reaches the high part of the cam Now slowly turn the clutch in a clockwise direction and the switch should have an audible click as the roller reaches the low part of the cam Adjust the switch by loosening the mounting screws and moving the position of the switch If the cam switch is suspected of being defective it should
137. e below must be performed Failure to do so may cause serious damage and will void all warranties 1 Turn off water to machine 2 Make sure all ice is off of the evaporator s If ice is being made initiate harvest or wait for cycle completion 3 Place the ICE OFF WASH switch to the OFF position 4 Disconnect the tubing between the water pump discharge and water distribution tube 5 Drain the water system completely 6 On water cooled machines hold the water regulating valve open by prying upward on the water valve spring with a screwdriver while using compressed air to blow all the water out of the condenser 7 Remove all of the ice in the storage bin and discard lt j Page B3 ICE Series Cabinet Care Cleaning stainless steel Commercial grades of stainless steel are susceptible to rusting It is important that you properly care for the stainless steel surfaces of your ice machine and bin to avoid the possibility of rust or corrosion Use the following recommended guidelines for keeping your stainless steel looking like new 1 Clean the stainless steel thoroughly once a week Clean frequently to avoid build up of hard stubborn stains Also hard water stains left to sit can weaken the steel s corrosion resistance and lead to rust Use a nonabrasive cloth or sponge working with not across the grain 2 Don t use abrasive tools to clean the steel
138. e freeze timer has timed out power is sent to relay 1 and the machine enters the harvest cycle Once in harvest motor the purge valve hot gas valve and harvest motor are energized The water pump continues to run during the first part of the harvest cycle so that mineral laden water remaining in the water trough can be pumped through the purge valve to the drain The harvest motor turns the clutch assembly to actuate the cam switch The cam switch is in the normally closed position during freeze and at the beginning of harvest Once the clutch turns far enough to actuate the cam switch the water pump and purge valve is de energized The harvest motor continues to turn the clutch When the cam switch returns to the normally closed position the machine returns to the freeze cycle Ifthe bin switch is open when the cam switch is actuated by the high part of the cam the machine will shut off Remote units pump down before shutting off Relay 1 When relay 1 is energized the normally open contacts 1 B close sending power to the hot gas valve and harvest motor and 1 A close sends power to the purge valve and the coil of relay 1 to keep the coil energized when the timer initiate opens The fan motor on self contained air cooled model are wired through the NC contacts of relay 1 when the contacts open during harvest the condenser fan motor is de energized Relay 2 See Page F4 Dual Evaporator Machines Prior to Jan 08 Once the freeze tim
139. e panel The ICE1400 has 2 fan motors and discharges through the right side and left side panels The ICE Undercounter air intake and discharge is through the front panel A top air discharge is available on the ICE250 ICE0606 Do not block airflow as it will cause premature failure of the machine and will void the warranty Water Cooled Condenser Ifthe machine has been properly installed the water flow through the condenser will be in a direction opposite the refrigerant flow The water condenser supply pressure must be between 20 psi 1 4 bar and 60 psi 4 1 bar A water regulating valve is used to control the flow of water into the condenser In areas that have poor water quality the condenser may eventually become coated with mineral deposits This will decrease the efficiency of the condenser resulting in high head pressure Water cooled condensers replaced due to excessive mineral build up or freezing will not be covered under warranty Water Regulating Valve E B The water regulating valve controls the head pressure by regulating the amount of water flow through the condenser The bellows of the regulating valve are connected to the high pressure side of the refrigeration system As the head pressure rises the bellows expand increasing the water flow through the water condenser Adjusting the spring pressure screw on top of the water valve can vary the rate of water flow The v
140. eaking let the machine run in the freeze cycle for approximately 5 minutes Now feel the temperature between the inlet and outlet of the valve A definite temperature difference should be felt If the lines are the same temperature and the suction pressure is higher than normal the valve is leaking and should be replaced Use Troubleshooting Trees in section C Remote System Machines that use remote condensers have several components that are not used in self contained machines A mixing valve controls the head pressure when the ambient temperature at the condenser drops below 70 21 When the bin fills with ice or is turned off at the selector switch the machine will pump all the refrigerant into the receiver before shutting off Remote Condenser For proper operation the remote condenser must be installed properly Improper installation will void the warranty See remote guidelines on page 14 The location of the remote condenser should be such that the ambient i air temperature does not exceed 120 F 48 9 C If ambient temperature exceeds 120 48 9 C ice production will decrease until the ambient temperature decreases Air Flow Page E5 ICE Series Refrigeration System Remote Condenser Continued If the airflow is restricted or the condenser is dirty the head pressure will be excessively high slow production will result and the compressor may overheat and even
141. eck Water Pump for proper operation Is the supply Correct water deficiency in supply water pressure pressure correct YES YES Purge valve Is water stuck open leaking from clean or replace the Purge if defective Drain NO Float Valve not adjusted properly or could be defective Clean Evaporator and Spillway See Section B for cleaning instructions GOOD BAD Water Pump obstructed or may be defective Page C13 ICE Series Troubleshooting Trees Machine Does Not Enter Harvest NO NO Check Purge Valve OK to make sure it is not Is the freeze pattern on the Evaporator even Will suction pressure drop below cut in of Timer Initiate Hot Gas Valve leaking if it is could be leaking replace valve or remove obstruction YES TXV s may be stuck open see page E3 and E4 YES Check for signs of a Make sure system is weak Compressor not overcharged see page E1 Does the manual Purge YES NOT OK Timer Initiate Switch Check Timer Initiate Control out of energize the Control for correct adjustment or Purge Valve cut in pressure may be defective OK NO High Temperature Check Timer NOT OK Safety Control Number 1 for proper Timer may be may be open setting and defective see page F8 operation Check Timer Number 2 OK Relay Number 1 or Relay Base
142. ees Ice Does Not Release From Evaporator Is the ice bridge correct See page F4 YES NO Level the machine Is the machine level NO YES Does water Set proper run over the Clean the Check Harvest bridge Evaporator NO Evaporator see Assist for proper thickness see during page B2 operation see page page F4 harvest NOT OK OK Repair Harvest Assist Check Purge valve Replace Purge Tubing for Valve or repair obstructions and tubing proper operation obstruction see page D2 Check suction Evaporator may pressure during GOOD be defective harvest see page see page E4 E5 and E5 Check Relay 1 and TOO LOW Relay Base for Relay or Relay proper operation Base defective see page F5 Check discharge Hot Gas valve pressure during GOOD may be restricted or defective see page E5 freeze see page E2 Selector Switch may be defective WASH contacts closed in ICE mode TOO LOW Low ambient or Water regulating Valve set too low Page C17 ICE Series Troubleshooting Trees Hot Evaporator Low Suction And Discharge Pressure Remote Only Does the machine meet Correct the installation installation guidelines deficiency Does the machine have Mixing Valve the proper may be refrigeration defective see charge page E6 Repair leak evacuate and weigh in refrigerant
143. el Ref Type Ounces Approx Approx Setting 70 50 90 80 Pounds Cycle ICEU205 A1 R 134a 14 30 13 120 170 13 19 36 3 220 240 50 1 ICEU205 W1 R 134a 11 30 13 125 13 19 36 3 220 240 50 1 ICEU205 A2 R 134a 14 30 13 120 170 13 19 36 3 220 240 50 1 ICEU205 w2 R 134a 11 30 13 125 13 19 36 3 220 240 50 1 ICEU225 A1 R 404a 12 60 35 175 400 45 22 32 3 220 240 50 1 ICEU225 W1 R 404a 9 60 35 250 46 21 25 3 220 240 50 1 ICEU225 A2 R 404a 12 60 35 175 400 45 22 32 3 220 240 50 1 ICEU225 W2 R 404a 9 60 35 250 46 21 25 3 220 240 50 1 ICEU225 A3 R 404a 12 60 41 175 400 41 22 32 3 220 240 50 1 ICEU225 W3 R 404a 9 60 41 250 41 21 25 3 220 240 50 1 ICEU305A1 R 404a 14 51 30 218 400 33 15 20 3 220 240 50 1 ICEU305W1 R 404a 13 60 27 250 33 13 18 3 220 240 50 1 ICEU305A2 R 404a 14 51 35 218 400 35 15 20 3 220 240 50 1 ICEU305W2 R 404a 13 60 35 250 35 13 18 3 220 240 50 1 ICE0305 A2 R 404a 26 60 35 175 400 35 13 20 220 240 50 1 ICE0305 W2 R 404a 14 60 35 250 35 13 18 3 220 240 50 1 ICE0305 A3 R 404a 23 60 53 200 400 32 12 16 3 220 240 50 1 ICE0305 W3 R 404a 12 48 47 250 31 12 15 3 220 240 50 1 ICE0305 A4 R 404a 23 60 53 200 400 32 12 16 3 220 240 50 1 ICE0305 W4 R 404a 12 48 47 250 31 12 15 3 220 240 50 1 ICE0305 A5 R 404a 23 60 32 200 400 32 12 16 3 220 240 50 1 ICE0305 W5 R 404a 12 48 32 250 32 12 15 3 220 240 50 1 ICE0325 A1 R 404a 22 60 35 175 400 35 13 20 3 220 240 50 1 ICE0325 A2 R 404a 22 60 35
144. er d Clean or replace motor or blade e Make sure of adequate water supply f Cool the ambient around the machine g Look for restriction and remove it a Warm ambient air b Weigh in correct amount of refrigerant c Check compressor amp draw d Replace head pressure control valve a Weigh in correct amount of refrigerant b Check for correct superheat c Look for restriction and remove it d Check compressor amp draw e Check hot gas valve for reason Compressor Troubleshooting Guide 6 Start relay burns out 7 Start capacitor burns out 8 Run capacitor burns out a Low or high supply voltage b Short cycling c Improper mounting of the start relay d Incorrect run capacitor e Incorrect relay f Loose wire connections a Compressor short cycling b relay contacts sticking c Incorrect capacitor d Start windings staying in circuit too long a Excessive line voltage b Capacitor voltage too low a Check incoming voltage to make sure it is no more than 5 lower or 10 higher than machine rated voltage b Check for reason in compressor short cycles above c Make sure the relay has the correct orientation d Make sure of the correct MFD and voltage rating of the capacitor e Use only OEM service parts f Repair or replace connectors a Check for reason in compressor short cycles above b See contacts sticking on start relay above
145. er has counter out power is sent to A harvest motor 1 and relay coil 1 through the normally closed contacts of cam switch 1 B to harvest motor 2 and relay coil 2 through the normally closed contacts of cam switch 2 The contacts of relay 1B and 2B closing energizes the 4 second hot gas delay timer Right Hand Timer This 4 second delay will allow the harvest motors to rotate and allow the cam switches to switch to the normally open position before the low pressure control opens during hot gas The cam switches are now in the normally open position and will continue to energize the harvest motors and relays until the cam rotates and the switch returns to the normally closed position Once the 4 second delay timer has timed out the hot gas valves and purge valve will energize and allow hot gas into the evaporators The bin control switches are by passed through the normally open contacts of relay 1 and 2 The bin switches are bypassed to allow the cam switch to return to the normally closed position prior to the machine shutting down if the curtain is open Each harvest assist motor will only make one revolution prior to shutting down on full bin or advancing to the next freeze cycle Both hot gas valves and the water purge valve remain energized until both harvest assist motors complete one revolution The water pump is energized throughout the harvest cycle The unit will shut down if the curtains are open during the freeze cycle Remote u
146. es Wiring Diagram ICE1406 5R ICE1806R ICE2106R Wiring Schematic From Serial Number 09041280010342 COOLED HOWN TIME TION FREEZE CYCLE 258 L _ Ld EMOTE ENSE TACTOR j E TACT V I Vi TIMER N RELA 4 IL ASH CN WATE OT ELECT ITCH AM 14 ITCH ICE VL 1 ELECT Vi ITCH E ITCH Auc des ENTAR ITCH 1 SOL FRONT HARVEST ICHT N RELA IL AM HARVEST ITCH LEFT HOT oas L EA TIVE INITIATE SONTROL TIMER Vi 2 4 IL ELA LIQUID LINE ICE LENOI LI LA NE V1 V1 VI L ELECT TROL SWITCH HI PRESSURE HI TEM HI TE TACT TROL L WITCH ITCH P VI L Page G80 ICE Series Wiring Diagram ICE1407R ICE1807R ICE2107R Wiring Diagram From Serial Number 09041280010342 EE NAMEPLATE m TOT F Zhe cil Ii eis sides N EN REMOTE TEE
147. felt the bracket should be adjusted by loosening the bracket mounting screws and repositioning the bracket until the probe moves freely Cam Switch Operation Single Evaporator Machines The actuator arm of the cam switch rides on the edge of the clutch assembly and is actuated by the high and low portion of the cam When the machine is in the freeze cycle the actuator arm of the cam switch is in the low part of the cam During freeze power is supplied to the water pump and relay 2 through the normally closed contacts of the cam switch When the machine enters harvest power is supplied to the water pump and purge valve through the normally closed contacts of the cam switch and through the normally open contacts of relay 1 closed during harvest The water pump purge valve and relay 1 remain energized until the cam switch is lifted on to the high part of the cam Relay 2 will also de energize at this time allowing the machine to shut off if the bin switch opens Undercounter machines manufactured after July of 2004 will have the water pump run continually until the machine shuts down Cam Switch Operation Dual Evaporator Machines Prior to January 2008 Once the freeze timer has counted out power is sent to A harvest motor 1 and relay coil 1 through the normally closed contacts of cam switch 1 B to harvest motor 2 and relay coil 2 through the normally closed contacts of cam switch 2 This 4 second delay will allow the harvest motors to rotat
148. forward to remove pn e D e Page A18 ICE Series General Information Undercounter Bin Removal ICEU150 200 Series Prior to 6 08 The storage bin can be removed by Remove the two screws at the rear of the top panel Remove the two screws from the front panel Remove two screws securing bin to cabinet base Disconnect bin drain Lift front of bin slightly and pull bin forward to remove p e Go Dm A obs N Page A19 ICE Series General Information Warranty Information Every Ice O Matic machine is backed by a warranty that provides both parts and labor coverage PARTS LABOR Two years on all parts Two years on all components Three years on all ICE Maker parts Three years on all cube ICE Maker components Five years on compressors Five years on cuber evaporators Water Filtration System Extended Warranty Program Purchase a new Ice O Matic IFI Series Water Filtration System with a new ICE Series ICE Machine replace the filter cartridge every 6 month and Ice O Matic will extend the limited cuber evaporator warranty to 7 years parts and labor eNew machine and filter must be installed at same time eMust send in both the machine and water filter registration cards within 10 days of installation eMust send in additional registration card for each new filter installed This must be done every
149. ge D2 Reassemble all components and repeat steps 4 through 7 as required to remove residue 10 Turn OFF ice machine water supply and clean the water trough thoroughly to remove all scale or slime build up If necessary remove the water trough to reach all splash areas and float 11 Prepare 1 1 2 gallons 5 7 to 7 5 liters of approved EPA FDA sodium hypochloride food equipment sanitizer to form a solution with 100 to 200 ppm free chlorine yield 12 Add enough sanitizing solution to fill the water trough to overflowing and place the ICE OFFIWASH switch to the WASH position and allow circulation to occur for 10 minutes and inspect all disassembled fittings for leaks During this time wipe down all other ice machine splash areas plus the interior surfaces of the bin deflector and door with the remaining sanitizing solution Inspect to insure that all functional parts fasteners thermostat bulbs if used etc are in place 13 Depress the purge switch and hold until sanitizer has been flushed down the drain Turn ON the ice machine water supply and continue to purge to the diluted sanitizing solution for another 1 to 2 minutes 14 Place the ICE OFF WASH switch to the ICE position and replace the front panel 15 Discard the first two ice harvests Page B2 ICE Series Winterizing Procedures Winterizing Procedures Important Whenever the ice machine is taken out of operation during the winter months the procedur
150. gether as intended these two parts of the manual will allow the ice machine service technician to quickly diagnose many of the problems encountered with the ice machines When used as designed the troubleshooting trees can lead you from a general symptom to the most likely component to suspect as the cause of the problem The trees are not designed to be parts changer guides please do not use them as such Components returned to the factory for warranty are tested by the factory and will not be covered under the warranty policy if they are not defective The troubleshooting trees are made of three types of boxes O9 El QUESTION boxes Circle ask a yes no question and the answer will lead to either another question box a check box or a solution box CHECK boxes Rectangle will suggest a point to check for proper operation and will often refer you to a page in the service information sections of this manual The result of the check may lead to another box or a solution box SOLUTION boxes Hexagon suggest the most likely component to cause the malfunction described in the heading of the tree When reaching a solution box DO NOT immediately assume the component is defective The final step is to verify that the component is indeed defective by using the service information in the sections that follow To use the troubleshooting trees first find the page with the heading describing the type of problem occurring Begin at the t
151. hine has good air flow Drain or Water Trough LOW SUCTION Check Hot Gas Valve for leakage during freeze see page E5 Recover and weigh YES in refrigerant charge OK OK Check for inefficient Compressor Low side restriction or defective TXV Repair water leakage defect Page C5 ICE Series Troubleshooting Trees Slow Production Cube Formation Good Does installation YES Of s meet Check for excessive Check refrigeration guidelines head pressure system Section E Correct any TOO HIGH installation defects Is this unit air AIR Is the Air YES cooled Check refrigeration water cooled clean system Section E NO WATER Clean Condenser and Condenser Fan Blade Check Water NOT OK Adjust or Regulating Valve replace Water See page E2 Regulating Valve See Condenser service information page E2 Page C6 ICE Series Troubleshooting Trees Low Suction Pressure Does installation meet guidelines YES Is the water flow over the Evaporator correct YES Check for correct head pressure see page E10 OK Check TXV for moisture based restriction WET SYSTEM Replace drier evacuate and recharge system DRY SYSTEM NO NO NOT OK Is the machine a remote unit See Troubleshooting Tree page C18 Check for refrigerant tubing restriction
152. his manual for future reference The ICE Series Service Parts Manuals are available separately Ice O Matic products are not designed for outdoor installation Page A2 ICE Series General Information Model and Serial Number Format Model Numbers ICE 04 A Air W Water R Remote T Top Discharge Air Cooled Cube Size H Half 3 8 X 7 8 X7 8 F Full 7 8 X 7 8 X7 8 Voltage 0 115V 5 240 50 1 6 208 230 60 1 7 208 230 60 3 Approximate 24 hour ice production x 10 70 F 21 C Air and 50 F 10 C Water Series Slab ice cuber Stainless Steel Cabinet Serial Number Date Code The first letter in the serial number indicates the month and decade of manufacture The first digit in the serial number indicates the year of manufacture Example A0XX XXXXX Z is manufactured January 2000 A1XX XXXXX Z is manufactured January 2001 1990 1999 MONTH 2000 2004 JANUARY A FEBRUARY MARCH APRIL MAY JUNE JULY AUGUST SEPTEMBER OCTOBER NOVEMBER DECEMBER N z cadomxovzz rFAC IOTmOOU Note The letter O and letter X are not used Reference new serial number format on next page Page A3 ICE Series Model and Serial Number Format Sample Only MODEL NUMBER ICE0400HA2 04071280010123 AC SUPPLY VOLTAGE 115 HERTZ 60 TOTAL LOAD AMPS PHASE 1 MINIMUM CIRCUIT 14 4 WIRES 2 MAX FUSE SIZE OR HACR TYPE CIRCUIT BREAKER 15 0 HEATER WATTS MOTORS VOLTS RLUFLA COMPRESSOR 115 9
153. igerant Reference Tables on Page 16 and 116 Page E9 ICE Series Electrical System Control Circuit All machines in this manual are electro mechanical controlled however the control circuitry on the single evaporator units differs from the dual evaporator units and is detailed below Selector Switch The selector switch is used to put the machine into the ICE making or WASH cycle or to turn the machine OFF The WASH position allows only the water pump to run and is used during the cleaning process to circulate cleaning solution throughout the water system When the selector switch is turned to the ICE position the machine begins the freeze cycle Contactor When the selector switch is in the ICE position the contactor coil is energized and pulls the contactor contacts This energizes the start components which starts the compressor NE Purge Switch The purge switch is a momentary switch used to manually energize the purge valve It is used during the cleaning process to flush the cleaning solution from the water trough The purge valve will remain energized as long as the purge switch is depressed Note Single Evaporator Units The normally closed contacts of the purge switch also create a circuit to relay 1 These contacts should remain closed unless the switch is depressed If the switch is defective and the normally closed contacts are o
154. imer setting The ice bridge thickness should be approximately 3 16 bmm on the ICEU undercounter series ICE0250 and ICE0305 1 8 3 mm on 0400 and larger units If the bridge is too thick remove enough time from the timer to achieve proper thickness If the bridge is too thin add enough time to the timer to achieve proper thickness g ai Bridge Thickness Check the freeze timer for proper operation as follows Make sure that the high temperature safety control is not open see page F8 Turn the machine OFF and disconnect the incoming power by unplugging the machine or switching the circuit breaker OFF Attach one lead of a voltmeter to terminal 1 and the other lead to terminal 3 of the timer Reconnect incoming power and turn the machine to the ICE position The volt meter should read zero volts until the timer initiate closes at which point the timer will energize and line voltage should be read When the timer counts out the voltmeter will again read zero volts The time it takes the freeze timer to time out once it has been energized should match the timer adjustment If it does not or if the timer never closes the timer is defective Note The hot gas delay timer utilized on the ICE1400 ICE1506 ICE1606 ICE1800 and ICE2100 Series cubers should always be set at 4 seconds Not applicable on Version 3 amp 4 Page F4 ICE Series Electrical System Harvest Cycle Single Evaporator Machines Once th
155. int it is advisable to use a compressor analyzer to isolate the compressor from the start components while checking for a locked rotor If an analyzer is not available the compressor starting components must be checked Page F1 ICE Series Electrical System Compressor Check Continued If all starting components are good check the voltage from the common terminal of the compressor making sure proper voltage is supplied to the compressor and all wiring is properly connected If the compressor does not start and there is excessive amperage draw see locked rotor amps on compressor tag the compressor has a locked rotor and should be replaced Important Compressors returned to the factory for warranty are tested and will not be covered under the warranty policy if they are not defective Overload External Ifthere is no amperage draw check the compressor overload The compressor overload can be checked for continuity after removing it from the compressor and letting it cool to room temperature If there is no continuity between the two terminals replace the overload If the overload is suspected of opening prematurely it should be replaced with an overload which is known to be good Capacitors The start capacitor is an electrical storage device used to provide starting torque to the compressor If a start capacitor is defective the compressor will not start properly The run capacitor is an electrical storage device used to improve
156. ized and open Page C3 Correct field wiring deficiency Reset and identify reason for high head pressure Replace or identify reason for being open Adjust as required or replace if defective Selector Switch could be defective see page F1 Find reason for non activity or replace if defective ICE Series Troubleshooting Trees Machine Runs Does Not Make Ice YES GO TO PAGE C5 Is the compressor running Is water running over the evaporator NO Go to the Troubleshooting Tree on page C12 Check for power to GOOD Check contactor for bad contactor or coil the compressor contactor coil Replace if defective OK Compressor or Start Check High Does the unit Components Pressure reset if have a remote could be necessary condenser defective see page F2 Continue if the Check Selector machine has a Switch remote Replace if defective condenser OK HIGH Pumpdown Control possibly bad Check the suction pressure is it low or high LOW OK Liquid Line Solenoid not opening Check refrigerant charge Page C4 ICE Series Troubleshooting Trees Machine Runs Does Not Make Ice continued Is water HIGH OR NORMAL If head pressure is leaking out of NO Check refrigerant SUCTION also high make sure the Purge pressures see page Condenser is clean E1 and mac
157. lem the float plunger or the entire float valve assembly may need to be cleaned or replaced Page D1 ICE Series Water System Water Distribution Tube Water is pumped to a distribution tube located at the top of the evaporator and is used to distribute water evenly over the evaporator The distribution tube can be removed and dissembled for cleaning if the hole becomes plugged or if there is excessive mineral build up in the water system The water distribution tube is a tube within a tube Water enters and fills the inner tube and exits through a series of holes along the top of the inner tube Water then fills the outer tube and exits through a series of holes along the bottom of the outer tube For proper water flow over the evaporator it is important that the tube be assembled correctly after cleaning The tube can be checked for proper assembly by checking the bump on the flanges at the tube ends the bump should be at the top Water Distribution Disassembly Remove 2 screws holding the distribution tube to the evaporator spillway Remove the clamp holding the water tube to the distribution tube Twist the end caps of the distribution tube counterclockwise and pull to remove the inner tube halves from the outer tube To reassemble push the inner tube halves into the outer tube with the holes facing the same direction Make sure the inner tube halves seat together completely Twist the end caps clockwise 75 turn to lock the inner
158. letely lost Compressor The compressor runs during the entire cycle If the valves in the compressor are damaged the compressor will be unable to pump refrigerant efficiently Damaged valves are usually the result of another problem in the refrigeration system such as liquid refrigerant returning to the compressor oil slugging or high head pressure When a compressor is replaced it is important that the refrigerant charge be weighed in and H the system checked for proper operation to prevent a repeat failure L L An inefficient compressor will usually have a higher than normal suction pressure at the end of the cycle The freeze cycle will be longer than normal and or the harvest cycle may be excessively long Check the compressor amperage draw 5 minutes into the freeze cycle If the compressor amp draw Reference data plate on ice machine back panel is less than 70 of rated full load amps the compressor may be inefficient These symptoms may also be caused by other problems therefore it is important to use the troubleshooting trees when diagnosing a problem See Electrical System for more information on the compressor and compressor start components Page E1 ICE Series Refrigeration System Air Cooled Condenser Self Contained The air condenser is located in the back of the cabinet Air is pulled through the condenser by a fan motor and discharged through the right hand sid
159. lize a curtain retaining clip The ICE Undercounter Series ice machines do not utilize a splash curtain Water splash curtain actuator tab positioned behind bin switch Proper position of wire bale switch actuator Page D3 ICE Series Water System Water Purge Valve When the machine enters the harvest cycle the water pump continues to run and the purge valve opens This allows mineral laden water to be pumped from the water trough to the drain This helps keep the water system clean The water pump and purge valve de energizes once the water is flushed from the water trough The cam switch controls the length of time that the water pump and purge valve remains energized see page F7 The purge valve can also be energized manually by pushing the purge switch The purge switch is used when cleaning the water system to flush cleaning solution down the drain See page B1 for cleaning instructions The purge valve must be completely closed during the freeze cycle If water leaks through the purge valve during the freeze cycle the freeze cycle will be extended due to the float allowing warm water into the trough and poor ice formation will result The purge valve may be defective or need cleaning The purge valve can be disassembled for cleaning by 1 Disconnect electrical power form the ice machine Locate the Purge valve in the machine Leave the coil wires attached to the coil and lift coil from the valve body Note coil orientati
160. lose High side of the Cam the Harvest Motor will be energized and the Water Pump Purge Valve and Relay Number 2 Coil will be de energized when contacts C and NC open 12 When Relay Number 2 Coil is de energized and if the curtain switches or bin stat are open the unit will pump down and shut off on full bin N O PO cO Notes eC Common eNC Normally Closed eNO Normally Open eRelay Number 9 amp 12 Common eRelay Number 1 amp 4 Normally Closed eRelay Number 5 amp 8 Normally Open eRelay 1 Puts unit into defrosts eRelay 2 Bypasses the Bin Switches eRelay 3 Energizes the Low Pressure Control eRelay 4 Resets Timer Number 2 Page F12 ICE Series Wiring Diagram ICEU150 200 205 206 Air and Water Wiring Diagram 54 69 TECT 4 L NAMEPLATE Fi F HACR TYPE BREAKE EL LTAGE REQUIREMENT ES FUSE REQUIRED ONLY ON LINE amp amp FUSE REQUIRE TH SIDE IDE OF LY Fi OF L 12 LT IT gt 200 24 LT IT HITE WIRE USE ARA 120 VOLT UNIT _ L
161. may be defective Page C14 ICE Series Troubleshooting Trees Machine Enters Harvest Then Returns To Freeze Prematurely Check the Manual Purge Switch Purge Switch is Normally Closed defective contacts See page F1 Is the Harvest Assist working properly See page F6 CLOSED Adjust as Check High High required or Temperature Safety Temperature replace Control See page Safety Control is defective part F8 defective CLOSED Relay 1 or relay Base may be defective Page C15 ICE Series Troubleshooting Trees Length Of Harvest Excessive Does the machine meet installation guidelines YES Check Harvest Assist Assembly for proper operation see page F6 NOT OK Adjust or replace defective part NO OK Correct installation deficiency Is the ice Low refrigerant charge repair leak and weigh in proper charge Remote Check Mixing Valve operation page E6 formation even on the Evaporator YES Does the YES machine have a remote condenser OK NO Check suction TOO LOW pressure during harvest See page E5 Clean Evaporator per instructions in Section B Page C16 STILL TOO LONG Water Cooled check Water Valve for proper adjustment Hot Gas Valve may be defective Go to Ice Does Not Release Troubleshooting Tree page C17 ICE Series Troubleshooting Tr
162. models The bin thermostat is located in the control box with a capillary tube which is in a brass thermo well mounted to the water trough When ice comes in contact with the capillary tube thermo well the bin thermostat opens and the machine will shut off Bin Control Adjustment All Models Except Undercounter Models Check the bin switch for proper adjustment by swinging the bottom of the curtain away from the evaporator Slowly bring the curtain towards the evaporator The switch should close when the bottom edge of the curtain is even with the outer edge of the water trough Adjust the switch by loosening the screws the hold the switch in place Move the switch to the proper position and retighten the screws Recheck the adjustment Adjustments are not covered under warranty Undercounter Models and ICE1506R Hold ice against the brass thermal well making sure the ice is in contact with at least 6 inches 15 cm of the thermal well The bin control should open in approximately 1 minute Remove the ice The bin control should close in approximately 3 minutes If a major adjustment is required turn the adjustment screw counterclockwise warmer until it stops then turn the adjustment screw clockwise colder 1 8 of a turn This should put the control close to the proper adjustment recheck and make a minor adjustment if needed If a minor adjustment is required turn the adjustment screw clockwise colder or counterclockwise warmer Adjustment
163. nd Start Components Untimed Freeze Cycle Timed Freeze Cycle Harvest Cycle Pump Down System Electrical Sequence ICE1400 2100 Version 3 Wiring Diagrams Cuber Performance Data Specifications Page A1 Table Of Contents Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page Page A1 A2 5 A6 A13 A14 A15 A16 A17 A18 A20 B1 B1 B2 B3 B4 1 2 18 D1 D5 E1 E5 E5 E6 E7 F1 F1 F2 F3 F4 F5 F9 F9 F10 G1 H1 11 ICE Series General Information How To Use This Manual Ice O Matic provides this manual as an aid to the service technician in installation operation and maintenance of the ICE Series electro mechanical cube ice machines If used properly this manual can also assist the service technician to troubleshoot and diagnose most of the problems that may occur with the machine The first two sections of this manual provide general information and maintenance information The remainder of the manual beginning with Section C provides troubleshooting and service information Section C contains flow charts called troubleshooting trees Page C 1 provides instructions on using the troubleshooting trees Each troubleshooting tree is named to describe a particular problem with the operation of the machine When following the troubleshooting trees the servi
164. nits pump down before shutting off The fan motors on self contained air cooled model are wired through the NC contacts of relay 1B when the contacts open during harvest the condenser fan motors are de energized Page F5 ICE Series Electrical System Harvest Assist Assembly The harvest assist assembly has several purposes to assist in moving the ice off of the evaporator to control the length of harvest and to terminate harvest When the machine enters harvest power is sent to the harvest motor which turns a slip clutch probe is attached to the rotating clutch and is pushed against the back of the ice slab The clutch begins to slip when the probe applies approximately 25 ounces of pressure against the ice slab It takes approximately 1 minute for hot gas to heat the evaporator enough to loosen the ice from the evaporator plate At this point the clutch pressure overcomes the capillary attraction of the ice to the evaporator plate and the ice begins to move off of the evaporator As the ice is being pushed the clutch stops slipping and begins to turn extending the probe enough to push the ice completely off of the evaporator Harvest Motor The harvest motor is energized at the beginning of harvest and will remain energized until the machine returns to the freeze cycle A defective harvest motor will usually not run The harvest motor rotates in a clockwise direction It is possible for a defective motor to run backw
165. ompressor Check for frost at the end of the freeze cycle If liquid is returning to the compressor the problem must be located and corrected See Refrigerant Charge Thermostatic Valve and Evaporator Harvest Cycle Once the freeze cycle is complete the machine enters the harvest cycle The hot gas valve opens to allow hot discharge gas to enter the evaporator Hot Gas Valve When the machine enters harvest the hot gas valve coil is energized opening the hot gas valve Discharge gas is through the hot gas valve directly into the evaporator The evaporator temperature will reach approximately 40 F 4 5 C The suction pressure during harvest should be a minimum of 70 psi 4 8 bar for R404a units 50psi 3 4 bar for R134a units The discharge mE pressure will drop during harvest If the hot gas valve does not completely open during harvest there will not be enough hot gas in the evaporator to defrost the ice If there is not enough hot gas entering the evaporator the suction pressure will be lower than the above stated pressures It is important when making this check that the machine has the proper refrigerant charge normal head pressure and the compressor is functioning properly If the hot gas valve leaks during the freeze cycle ice will not form on the top of the evaporator and suction pressure will be higher than normal To check if the hot gas valve is l
166. on Rotate the enclosing tube 1 4 turn counterclockwise to remove Remove the enclosing tube plunger and diaphragm from the valve body Reverse procedure to reassemble 9 The purge valve can be easily cleaned without removing the AW entire valve body Dirty or clogged purge valves are not KI gt considered a warranty repair K Page D4 ICE Series Water System Water Trough The water trough can be easily removed by the following procedures ICEU150 200 Models 1 Disconnect power to the ice machine 2 Shut the water supply off to the ice machine Mounting Screws 3 Remove water splash curtains when m d k applicable 7 4 Remove water trough mounting screws 7 5 Carefully remove water trough from the ice machine 6 Reverse procedure to reassemble Mounting Screws ICE 30 Inch Wide Models 2 D Mounting Screws ICE 22 Inch Wide Models ef lt T Version 3 Water Trough ICE 48 Inch Wide Models YY S mum Mounting Screws Mounting Screws Mounting Screws ICE1506 Model ICEU300 mmm Page D5 ICE Series Refrigeration System Refrigerant Cycle and Components Before diagnosing the refrigeration system it is very important that the refrigerant charge be correct Whenever the refrigeration system has been opened the filter drier must be replaced and the proper refrigerant charge must be weighed in See
167. op of the page and follow the tree step by step When a check box is reached it may be necessary to refer to another section in the manual Once a solution box is reached refer to the appropriate section to verify that the component in the solution box is indeed the problem Adjust repair or replace the component as necessary Page C1 ICE Series Troubleshooting Trees Troubleshooting Trees Table Of Contents Machine Does Not Run C3 Machine Runs Does Not Make Ice C4 C5 Slow Production Cube Formation Good C6 Low Suction Pressure C7 High Suction Pressure C8 Cubes Are Hollow C9 Uneven Bridge Thickness C10 Ice Bridge Thickness Varies Cycle To Cycle C11 Machine Produces Cloudy Ice C12 Poor Water Distribution Over Evaporator C13 Machine Does Not Enter Harvest C14 Machine Enters Harvest Then Returns To Freeze Prematurely C15 Length Of Harvest Excessive C16 Ice Does Not Release From Evaporator C17 Hot Evaporator Low Suction Pressure Remote Only C18 Page C2 ICE Series Troubleshooting Trees Machine Does Not Run YES Check for correct NOT OK power supply to the Is the selector switch set to ICE machine OK Check High TRIPPED Pressure Safety Control Set selector Switch to the ICE position OK Check High OPEN Temperature Safety Control OK Check Bin Control BAD for proper adjustment see page F9 GOOD NO Is this a Remote unit OK Is the Liquid line NOT OK Solenoid energ
168. or if the motor has an oil fitting Self contained air cooled models only Cleaning and Sanitizing 1 Harvest problems may occur if the following procedures are not performed every 6 months 2 Remove the ice machine front panel 3 Make sure that all the ice is off of the evaporator If ice is being made wait for cycle completion then turn the machine OFF at the ICE OFF WASH selector switch 4 Remove or melt all ice in the storage bin Page B1 ICE Series Scheduled Maintenance Cleaning and Sanitizing continued 5 Add recommended amount of approved Nickel Safe ice machine cleaner to the water trough according to label instructions on the container 6 Initiate the wash cycle at the ICE OFF WASH switch by placing the switch in the WASH position Allow the cleaner to circulate for approximately 15 minutes to remove mineral deposits 7 Depress the purge switch and hold until the ice machine cleaner has been flushed down the drain and diluted by fresh incoming water 8 Terminate the wash cycle at the ICE OFF WASH switch by placing the switch in the OFF position Remove the splash curtain and inspect the evaporator and water spillway to assure all mineral residue has been removed 9 If necessary wipe the evaporator spillway and other water transport surfaces with a clean soft cloth to remove any remaining residue If necessary remove the water distribution tube disassemble and clean with a bottlebrush see pa
169. orator If one TXV sticks open and the other is operating normally the suction pressure will be higher than normal and both evaporators will build thick ice It is recommended that both valves be replace if one sticks open If one TXV sticks closed and one is operating normally the suction pressure will be normal or low but the evaporator with the defective valve will be starved thick ice at the bottom and thin ice at the top Evaporator As water is circulated over the front of the evaporator liquid refrigerant is circulated through the tubing attached to the back of the evaporator As the liquid refrigerant in the tubing vaporizes it absorbs heat from the water causing the water to freeze The evaporator should be completely flooded throughout most of the freeze cycle A flooded evaporator will build ice evenly across the evaporator A starved evaporator will have uneven ice formation Most problems with ice formation or harvesting are not related to a defective evaporator use the Troubleshooting Trees in section C for additional help Refrigerant enters the evaporator through the bottom tube and exits through the top tube On Prior to 0801 models 800 1000 1800 and 2100 the refrigerant line at the TXV outlet splits into two feeder tubes This split occurs at the distributor which is a fitting that is soldered to the TXV One feeder tube from the distributor feeds the top of the evaporator the other tube feeds the bottom of the evap
170. orator The evaporator tubes run parallel in opposite directions along the back of the evaporator creating a dual pass If the evaporator is flooded but not building ice evenly it is possible the evaporator has coil separation Evaporator coil separation is the separation of the refrigerant tubing from the back of the evaporator plate This is very rare but occasionally occurs To confirm coil separation remove and check the back of the evaporator If the coil is separated the evaporator must be replaced If the outlet s of the evaporator is not frosted the problem is not with coil separation Refer to the troubleshooting trees section C ICE800 1000 1800 and 2100 Prior to Jan 2008 Page E4 ICE Series Refrigeration System Note Permanent discoloration of the evaporator plating is normal and will cause no problems with harvesting the ice or sanitary conditions Before condemning the evaporator for plating problems be certain it is not just discoloration Good evaporators will not be covered under warranty If the spillway plastic evaporator top becomes damaged it can be replaced It is not necessary to replace the entire evaporator As liquid refrigerant leaves the evaporator it changes to a low pressure gas before returning to the compressor Liquid refrigerant must not return to the compressor or damage will result Frost on the suction line at the inlet of the compressor indicates liquid returning to the c
171. ould be recovered and the correct charge be weighed in before a defective valve can be diagnosed If the evaporator is starved but the suction pressure is higher than normal the TXV is not the problem refer to the troubleshooting tree in section C If the TXV sticks open or if the thermal bulb is not making good contact with the suction line the flow of refrigerant into the evaporator will be too great and liquid refrigerant will flood the compressor The suction pressure will remain higher than normal and the machine will remain in an extended freeze cycle Ice will build evenly but will be very thick Symptom Problem Possible Remedy Evaporator flooded but suction 1 TXV thermal bulb not making 1 Tighten bulb clamp and pressure not dropping good contact with suction insulate bulb Compressor has been checked line or uninsulated and appears to be good 2 TXV bulb installed incorrect 2 Locate bulb on top of Suction line at compressor may suction line be colder than normal 3 System overcharged 3 Recharge system 4 TXV stuck open 4 Replace TXV Evaporator starved no frost 1 Machine low on charge 1 Recover refrigerant on line s exiting evaporator and weigh in proper Suction pressure is low charge See Evap Diagram Pg E4 2 TXV restricted or stuck 2 Replace TXV and closed drier Continued Page E4 Page E3 ICE Series Refrigeration System Thermostatic Expansion Valve Continued A dual evaporator machine will have one TXV for each evap
172. pen when the machine enters harvest the machine will return to freeze when the timer initiate control opens Compressor and Start Components The compressor should run during the entire cycle If the machine is in the ICE position but the compressor is not running check the compressor contactor to see if itis engaged If the contactor is not engaged the problem is not with the compressor or the compressor start components If the contactor is engaged and there is correct voltage through the contactor there could be a problem with one of the starting components or the compressor It is recommended that the compressor starting components be replaced when replacing a compressor Compressor Check A WARNING Disconnect power before servicing If the compressor uses an internal overload be certain that the compressor has cooled and the overload has reset before diagnosing the compressor If the compressor is cool and is still not running check the compressor motor windings by first removing the wires at the compressor terminals With an ohmmeter check for continuity between all three terminals if an open circuit exists between any of the terminals the compressor may need to be replaced Check for continuity from each terminal to the compressor body if continuity is found from any terminal to the compressor body the compressor windings are shorted to ground and the compressor will need to be replaced If the compressor appears to be good at this po
173. r 34 ft horizontal lt lt 10 ft drop x 6 6 34 ft horizontal 100 equivalent feet line run 10 ft drop 16 ICE Series General Information How the ICE Machine Works A general description of how the ICE Series cubers work is given below The remainder of the manual provides more detail about the components and systems With the ICE OFF WASH switch in the ICE position the compressor water pump and condenser fan motor when applicable will energize starting the freeze cycle During the freeze cycle water is circulated over the evaporator s where the ice cubes are formed When the suction pressure has pulled down to the proper cut in pressure of the timer initiate pressure control the contacts will close and energize the time delay module timer See Page F3 for proper cut in pressures At this time the cubes will close to completion The remaining portion of the freeze cycle is determined by the timer setting The timer is pre set at the factory to achieve the proper ice bridge thickness but may need to be adjusted upon initial start up see Page F4 for initial timer settings Once the amount of time on the timer has passed the control relay will be energized and the machine will enter harvest Power is now supplied to the water purge valve hot gas valve and the harvest motor The water purge valve opens and allo
174. r3 and Water3 ICE1005 Air3 and Water3 ELAY 2 ASH ATE ELECT ITCH ELAT ICE 1 L i ELECT E ITCH ih ENTARY TJ al ELAY L TIME INITIATE TIMF NTROL 1 L E V um TACT E S FA LE ER fuor Toy ELA A C ONL A L IN FILL ELECT ITCH ITCH ITCH E V LA V TACT VI l1 IL HI PRE E ICE ITROL ELAY 2 i H IN TIME FREEZE E Page G66 ICE Series Wiring Diagram ICE0606 Remote4 amp 5 and ICE0605 Remote4 amp 5 Wiring Diagram ICE0806 Remote4 and ICE0805 Remote4 Wiring Diagram ICE1006 Remote4 and ICE1005 Remote4 Wiring Diagram EE EPLATE ER FUSE E EAKER SIZE LTAGE REQUIREMENT TI THI IT T a FA E E AOT 4 L EMOTE ENSE TONA
175. rol eRelay 3 Bypasses the Bin Switches during harvest when Relay 2 is de energized from a rise in the suction pressure opening the Low Pressure Control and energizes Timer Number2 Page F11 ICE Series Electrical System Electrical Sequence for thelCE1506 Series Version 3 Manufactured from January 2008 This unit incorporates a timer upstream of the Low Pressure Control for Low Ambients 1 When the Selector Switch is set to ICE Relay Number 2 Coil is energized through Cam Switch contacts C and NC Bypasses the Bin Controls Relay Number 4B contacts C and NC energize Timer Number 2 6 Minutes Timer number 2 times out and energizes Relay Number 3 Coil Relay Number 3B contacts C and NO close and energizes the Low Pressure Control The Low Pressure Control closes to energize Timer Number 1 Timer Number 1 times out and energizes Relay Number 1 Coil Relay Number 1 contacts C and NO close and send power Cam Switch Number 2 C and which energizes Harvest Motor 2 Hot Gas valves and Relay Number 4 Coil Relay Number 1B contacts C and NO close to energize Harvest Motor 1 and Hot Gas Valve 1 When the Low Pressure Control opens during hot gas the circuit is latched through the Purge Switch contacts C and NC 10 Once Cam Switch 2 contacts C and NO close High side of the Cam it will remain energized from the Selector Switch until contacts C and NC close Rotates 360 degrees 11 Once Cam Switch 1 contacts C and NO c
176. s are not covered under warranty Pump Down System Remote Only If a remote machine is shut down by the selector switch or bin control the liquid line solenoid valve is de energized allowing the valve to close This blocks the flow of refrigerant causing all the refrigerant to be pumped into the receiver and condenser This is done to prevent liquid refrigerant from migrating into the compressor during the off cycle which could damage the compressor on start up Also see Pump Down System in the Refrigeration Section on page E7 As the refrigerant is pumped into the receiver the suction pressure begins to drop Once the suction pressure reaches approximately 10 psi 68 bar the pump down control contacts open which will de energize the compressor contactor When the machine is turned back on power is supplied to the liquid line solenoid which opens the valve and allows the suction pressure to rise enough to close the pump down controls contacts 3 Pump Down Control The pump down control is a low pressure control that shuts the machine off when the suction pressure drops during the pump down phase The control is factory set to open at 10 psi 68 bar and close at 30 psi 2 04 bar The pump down control does not normally need to be adjusted however an adjustment may be made by turning the adjustment screw Note Later model machines have a non adjustable pump down control Fan Control On models utilizing a fan control the fan
177. stration page on www iceomatic com Page A20 ICE Series Scheduled Maintenance Maintenance Note Maintenance should be performed by an Ice O Matic trained Service Technician Electrical shock and or injury from moving parts inside this machine can cause serious injury Disconnect electrical AWARN supply to machine prior to performing adjustments repairs Failure to perform the required maintenance at the frequency specified will void warranty coverage in the event of a related failure To insure economical trouble free operation of the machine the following maintenance is required every 6 months Maintenance Procedure 1 Clean the ice making section per the instructions below Cleaning should be performed a minimum of every 6 months Local water conditions may require that cleaning be performed more often 2 Check ice bridge thickness See page F4 for proper thickness and adjustment procedure 3 Check water level in trough See page D1 for proper water level and adjustment 4 Clean the condenser air cooled machines to insure unobstructed air flow 5 Check for leaks of any kind Water Refrigerant Oil Etc 6 Check the bin switch for proper adjustment See page F9 for bin switch adjustment 7 Check the cam switch adjustment See page F8 for cam switch adjustment 8 Check the water valve water cooled machines for proper adjustment See page E2 9 Check all electrical connection 10 Oil the fan mot
178. surface Do not use steel wool abrasive sponge pads wire brushes or scrapers to clean the steel Such tools can break through the passivation layer the thin layer on the surface of stainless steel that protects it from corrosion 3 Don t use cleaners that use chlorine or chlorides Don t use chlorine bleach or products like Comet to clean the steel Chlorides break down the passivation layer and can cause rusting 4 Rinse with clean water If chlorinated cleansers are used you must thoroughly rinse the surface with clean water and wipe dry immediately 5 Use the right cleaning agent The table below lists the recommended cleaning agents for common stainless steel cleaning problems Cleaning Activity Cleaning Agent Method of Application Routine cleaning Soap Ammonia Windex or Apply with a clean cloth detergent with water or sponge Rinse with Fantastik 409 Spic nSpan clean water and wipe dry Liquid are also approve for Stainless Steel Removing grease or Easy Off or similar oven Apply generously allow fatty acids cleaners to stand for 15 20 minutes Rinse with clean water Repeat as required Removing hard water spots Vinegar Swab or wipe with clean cloth and scale Rinse with clean water and dry Page B4 ICE Series Troubleshooting Trees How To Use The Troubleshooting Trees The troubleshooting trees were developed to be used in conjunction with the service information in the sections that follow If used to
179. t grabbing but should offer some resistance If in doubt as to whether or not the clutch is defective compare the tension with one that is known to be good Page F6 ICE Series Electrical System Probe Tip and Swivel The probe tip is attached to the clutch and makes contact with the back of the ice slab during harvest The swivel allows the probe tip to pivot as the clutch turns so that the probe is pushed straight through the evaporator probe guide The tip of the probe should be flush with the back of the evaporator or recessed up the 1 16 of an inch 16cm The probe tip must not extend into the freezing area of the evaporator during freeze Note Units manufactured after June 2004 utilize a non adjustable probe The length of the probe is adjustable by loosening the locknut and adjusting the probe in or out of the swivel Once the probe has been adjusted to the proper length tighten the locknut If the probe tip binds during operation it may cause the clutch to slip unnecessarily This may occur if the harvest motor mounting bracket is not aligned properly or if the probe tip has excessive mineral deposits on it Remove and clean the probe if necessary To check the probe tip for binding remove the shoulder bolt holding the swivel to the clutch and simulate the movement of the swivel and probe by moving the swivel in a circular motion around the outer portion of the clutch The swivel should also move freely If any resistance is
180. terms of the following circle one Por Excellent C Fod 1 2 3 4 5 Fadiy 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 Ovora 1 2 3 J 4 5 How difficult was the material covered in the seminar 1 2 3 4 Much Too Easy Too Easy About Right Too Difficult Was the information presented in a way that was easy to follow 1 2 3 4 Very Easy to Follow Easy to Follow Borderline Difficult to Follow How would you describe the length of the seminar 1 2 3 4 Much too Short Too Short About Right Too Long Are you a part of the IOM Factory Authorized Service Team No How many years of experience do you have servicing ice machines What should have been covered that wasn t What do you suggest we do to improve the seminar Comments 5 Much Too Difficult 5 Very Difficult to Follow 5 Much Too Long Yes Pressure Temperature Chart LPSIG Risda PSIG 1342 R404A PSIG R134 R404A 3 3 36 180 3127 1 488 124 83 490 126 84 195 128 86 200 150 88 7208 151 89 240 155 91 220 136 94 7240 143 100 7250 146 103 260 149 106 278 153 440 290 157 144 7305 161 18 7320 364 421 338 168 125 380 172 128 Inches mercury below one atmosphere
181. the running characteristics and efficiency of the compressor Before checking a capacitor it should be discharged by shorting across the terminals If a run or start capacitor is cracked leaking or bulging it should be replaced If a capacitor is suspected of being defective it can easily be checked by replacing it with a capacitor of the correct size which is known to be good If the compressor starts and runs properly replace the original capacitor A capacitor tester can also be used Start Relay The start relay breaks the electrical circuit to the start windings when the compressor motor speed increases If the relay is defective the compressor will not start or it may start but will run for a very short time A compressor relay can be checked by removing the relay and checking the relay contacts for damage and check for continuity across the closed relay points Check the relay coil with an ohmmeter If no continuity is read replace the relay Page F2 ICE Series Electrical System Untimed Freeze Cycle During the freeze cycle the compressor water pump and condenser fan motor s if used are running On remote systems the liquid line solenoid is also energized see Refrigeration System As ice forms on the evaporator the suction pressure drops The machine is in the untimed portion of the freeze cycle and will remain in untimed freeze until the suction pressure drops low enough to close the timer initiate control See page 11 1
182. tic reset control Do not allow the machine to operate without the high temperature safety control Damage to the machine may result and the warranty will be void Bin Control Operation The bin control is used to shut the machine off when the bin fills with ice The bin control must be checked upon installation or initial start up and when performing maintenance Adjustments are not covered under warranty There is one bin switch for each evaporator The actuator arm of the bin switch comes in contact with the splash curtain When the bin is full of ice the splash curtain is held open when ice drops off of the evaporator This releases the pressure of the bin switch actuator arm allowing the switch to open Single evaporator machines If the bin switch opens during freeze or the first part of harvest relay 2 bypasses the bin switch and the machine will continue running If the bin switch is opened during harvest when the cam switch is lifted onto the high part of the cam the machine will shut off When the bin switch closes again the machine will restart Dual evaporator machines If either bin switch opens during the freeze cycle the machine will shut off Relay 1 and relay 2 will bypass the bin switches during defrost If either bin switch is open when the machine returns to the freeze cycle the machine will shut off Page F8 ICE Series Electrical System Undercounter machines A thermostatic bin control is used on the undercounter
183. tions after connecting Page A15 ICE Series General Information The following remote ice makers incorporate the mixing valve in the condenser This configuration allows up to a 100 foot calculated remote line set run Reference the diagram below to calculate the maximum 100 foot line set run ICE Machine Model Number Remote Condenser Model Number ICE2100R3 amp 4 amp 5 VRC5061B ICE1800R3 amp 4 amp 5 VRC5061B ICE1400R3 amp 4 amp 5 VRC2661B ICE1506HR2 amp 3 amp 4 VRC2661B ICE1006R3 amp 4 amp 5 VRC2061B ICE0926 VRC2061B ICE0806R384 8 amp 5 VRC2061B ICE0726 VRC2061B ICE0606R3 amp 4 amp 5 amp 6 VRC1061B ICE0500R3 amp 4 amp 5 VRC1001B Limitations for new remote machines that have the mixing valve mounted in the condenser Maximum Rise is 35 feet Maximum Drop is 15 feet E FLO Maximum equivalent run is 100 feet Formula for figuring maximum equivalent run is as follows Rise x 1 7 Drop x 6 6 horizontal run equivalent run Examples 35 ft rise x 1 7 40 ft horizontal 99 5 equivalent feet line run 35 ft rise P 40 ft horizontal Suns Verify the ICE machine is compatible with the remote condenser Some ice machines and some remote condensers may or may not have a Mixing Valve Head Master Only one valve is required per system Kits are available to modify the condenser for compatibility For more information contact your Ice O Matic Distributo
184. tually become damaged The condenser coil and fan blades must be kept clean The condenser can be cleaned with compressed air or by using a brush If a brush is used brush in the direction of the fins taking care not to bend the fins If the condenser fins are bent this will restrict the airflow through the condenser and the fins will need to be straightened with a fin comb Problems related to a dirty condenser or poor airflow will not be covered under warranty Note The condenser fan motor runs continually it will shut off when the icemaker shuts off Mixing Valve When the temperature at the condenser is above 70 F 21 C the refrigerant flow from the compressor is directed by the mixing valve through the condenser and into the receiver When the temperature at the condenser drops below 70 F 21 C the pressure in the bellows of the mixing valve becomes greater than the pressure of the liquid refrigerant coming from the condenser This change allows the valve to partially restrict the flow of refrigerant leaving the condenser and allows discharge gas to by pass the condenser and flow directly into the receiver mixing with the liquid refrigerant from the condenser The amount of discharge gas that bypasses the condenser increases as the ambient temperature decreases This action of the mixing valve allows the discharge pressure to be maintained at approximately 240 psi 16 5 bar during low ambient conditions If the refrigerant system is un
185. tubes in place The holes in the tubes will now be facing in the opposite directions Important For proper water flow over the evaporator the inner tube holes must face up N Turn counterclockwise to remove 2 02 ICE Series Water System Water Splash Curtain The water splash curtain covers the evaporator to prevent water from splashing into the bin and is also used to actuate the bin switch When the bin becomes full of ice the splash curtain is held open when the ice drops off of the evaporator The actuator tab or wire bale on the splash curtain will release pressure on the bin switch and the machine shuts off See bin control on page F9 On single evaporator units the splash curtain can be opened or removed during the freeze cycle and the machine will continue to run until the ice drops from the evaporator On dual evaporator units if the curtain is opened or removed during the untimed freeze cycle or during defrost the machine will shut down If the curtain is opened or removed during the timed freeze cycle the unit will continue to operate The splash curtain can be removed by swinging the bottom of the curtain away from the evaporator and lifting the right side of the curtain up and out of the hinge pin slot To reinstall the curtain position the left side pin into the slot first then insert the right hand side with the actuator tab of the curtain behind the bin switch Note The ICE0250 and ICE0305 uti
186. ws the water pump to purge the water remaining in the water removing impurities and sediment This allows the machine to produce clear ice cubes and keep mineral build up at a minimum The hot gas solenoid opens allowing hot gas to go directly to the evaporator heating the evaporator and breaking the bond between the evaporator and the ice slab The harvest assist motor which is also energized during harvest turns a slip clutch which pushes a probe against the back of the ice slab Once the evaporator has reached approximately 40 F 4 5 F in temperature the slip clutch overcomes the bonding of the ice to the evaporator and pushes the slab of ice off of the evaporator and into the storage bin The clutch also actuates a switch that rides on the outer edge of the clutch When the clutch completes one revolution the switch is tripped and the machine enters the next freeze cycle When ice drops into a full bin during harvest the splash curtain is held open which activates a bin switch shutting the machine off When ice is removed from the bin the splash curtain will close and the machine will come back on Page A17 ICE Series General Information Undercounter Bin Removal ICEU300 and ICEU150 220 From 6 08 Series The storage bin can be removed by Remove the lower grill Remove two screws securing bin to cabinet base Remove the thumbscrews from the back wall of the bin Disconnect bin drain Lift front of bin slightly and pull bin
187. ystem should be installed with the ice machine Clearance Requirements Self contained air cooled ice machines must have a minimum of 6 inches 15cm of clearance at the rear top and sides of the ice machine for proper air circulation Stacking does not endorse stacking ice machines Dispenser Application A thermostatic bin control kit must be installed if the ICE Series ice machine is placed on a dispenser A bin top may or may not be required Exception is the CD400 Dispenser Electrical Specifications Refer to the serial plate at the rear of the ice machine or the charts starting on page H1 Adjustments Level the machine within 1 8 inch in all directions Check the bin control for proper adjustment Page F9 Check the water in the water trough for proper level Page D1 Check the ice bridge for proper thickness Page F4 Check the cam switch adjustment Page F8 Check the water regulating valve adjustment if water cooled Page E2 Page A5 ICE Series General Information Electrical and Plumbing Requirements ICEU150 ICEU200 ICEU205 and ICEU206 ICE MAKER WATER gt d ELECTRICAL INLET IA HOLE ae WATE ENSER WATE T V FPT ATE LED UNITS ONL WATE ENSER WATER 3 ATER COOLED IT IL Page A6 ICE Series General Information Electrical and Plumbing Requirements ICEU150 220 225 and 226
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