Hoshizaki America, Inc.
Hoshizaki
Modular Crescent Cuber
Models
KM-901MAH
KM-901MWH
KM-901MRH/3
SERVICE MANUAL
“A Superior Degree
of Reliability”
™
Number: 73156
Issued: 4-18-2008
Revised: 6-23-2009
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IMPORTANT
This manual should be read carefully before the icemaker is serviced or
maintenance operations are performed. Only qualified service technicians
should install, service, and maintain the icemaker. Read the warnings
contained in this booklet carefully as they give important information regarding
safety. Please retain this booklet for any further reference that may be
necessary.
CONTENTS
A. Icemaker....................................................................................................................... 7
ꢀa. KM-90ꢀMAH (air-cooled) Auxiliary Code T-0, U-0................................................ 7
B. Condenser Unit........................................................................................................... ꢀ5
ꢀ. URC-9F................................................................................................................. ꢀ5
3. KM-90ꢀMRH/3 (remote air-cooled)....................................................................... ꢀ9
B. Sequence of Operation............................................................................................... ꢁ0
a) "E" Control Board: Auxiliary Code T-0, U-0 .................................................... ꢁ0
3
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f) Factory Use (S4 dip switch 8)........................................................................... 34
D. Bin Control.................................................................................................................. 36
F. Thermistor................................................................................................................... 36
3. KM-90ꢀMRH/3 (remote air-cooled)....................................................................... 39
c) KM-90ꢀMRH3 (remote air-cooled)................................................................... 4ꢁ
ꢁ. Mechanical Bin Control: Auxiliary Code U-ꢀ and Later ......................................... 43
c) KM-90ꢀMRH3 (remote air-cooled)................................................................... 45
3. KM-90ꢀMRH (remote air-cooled).......................................................................... 48
4. KM-90ꢀMRH3 (remote air-cooled)........................................................................ 49
4
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B. Removal and Replacement of Compressor................................................................ 70
E. Removal and Replacement of Evaporator.................................................................. 73
F. Removal and Replacement of Air-Cooled Condenser................................................ 74
J. Adjustment of Water Regulating Valve (water-cooled model)..................................... 78
N. Removal and Replacement of Inlet Water Valve........................................................ 80
B. Maintenance .............................................................................................................. 86
5
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Important Safety Information
Throughout this manual, notices appear to bring your attention to situations which could
result in death, serious injury, or damage to the unit.
WARNING
Indicates a hazardous situation which could result in death or
serious injury.
CAUTION
IMPORTANT
Indicates a situation which could result in damage to the unit.
Indicates important information about the use and care of the
unit.
WARNING
This icemaker should be destined only to the use for which it has been
expressly conceived. Any other use should be considered improper and
therefore dangerous. The manufacturer cannot be held responsible for
eventual damage caused by improper, incorrect, and unreasonable use.
To reduce the risk of death, electric shock, serious injury, or fire, follow
basic precautions including the following:
• Electrical connection must be hard-wired and must meet national, state, and
local electrical code requirements. Failure to meet these code requirements
could result in death, electric shock, serious injury, fire, or severe damage to
equipment.
• This unit requires an independent power supply. See the nameplate for
proper voltage and breaker/fuse size. Failure to use a proper breaker or fuse
can result in a tripped breaker, blown fuse, or damage to existing wiring. This
could lead to heat generation or fire.
• THIS UNIT MUST BE GROUNDED. Failure to properly ground this unit could
result in death or serious injury.
• This unit should be disassembled or repaired only by qualified service
personnel to reduce the risk of electric shock, injury, or fire.
• Do not make any alterations to the unit. Alterations could result in electric
shock, injury, fire, or damage to the unit.
6
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I. Specifications
A. Icemaker
1a. KM-901MAH (air-cooled) Auxiliary Code T-0, U-0
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
11.4 A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
70
Temp.(°F)
50
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*874 (396)
842 (382)
832 (378)
826 (375)
832 (378)
778 (353)
*732 (332)
721 (327)
785 (356)
736 (334)
687 (312)
646 (293)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.6 lbs. (6.2 kg) 720pcs.
N/A
90/70°F
1710(5.6)
143(19.6)
70/50°F
1600(4.4)
240(27.5)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 196 lbs. (89 kg), Shipping 256 lbs. (116 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Thermostat
Hermetic, Model CS12K6E-PFV-237
Air-Cooled , Fin and tube type
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
R404A, 2 lb. 15 oz. (1320g)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin
OPERATING CONDITIONS
VOLTAGE RANGE
AMBIENT TEMP.
187 - 253 V
45 -100° F
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
7
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1b. KM-901MAH (air-cooled) Auxiliary Code U-1 and Later
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
11.4 A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
70
Temp.(°F)
50
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*874 (396)
842 (382)
832 (378)
826 (375)
832 (378)
778 (353)
*732 (332)
721 (327)
785 (356)
736 (334)
687 (312)
646 (293)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.6 lbs. (6.2 kg) 720pcs.
N/A
90/70°F
1710(5.6)
143(19.6)
70/50°F
1600(4.4)
240(27.5)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 196 lbs. (89 kg), Shipping 256 lbs. (116 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Mechanical Switch
Hermetic, Model CS12K6E-PFV-237
Air-Cooled , Fin and tube type
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
R404A, 2 lb. 15 oz. (1320g)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin
OPERATING CONDITIONS
VOLTAGE RANGE
AMBIENT TEMP.
187 - 253 V
45 -100° F
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
8
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2a. KM-901MWH (water-cooled) Auxiliary Code T-0, U-0
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
8.7A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
15 A
15 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*912 (414)
895 (406)
889 (403)
878 (398)
889 (403)
860 (390)
*835 (379)
825 (374)
849 (385)
815 (370)
791 (359)
751 (341)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
WATER COOLED CONDENSER
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.4 lbs. (6.1 kg) 720pcs.
N/A
90/70°F
1570(4.5)
182(21.8)
1162(139)
70/50°F
1480(3.9)
245(26.9)
631(69)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 189 lbs. (86 kg), Shipping 249 lbs. (113 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
Cond. Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
Cond. Outlet 3/8" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
Pressure Regulator
Thermostat
Hermetic, Model CS12K6E-PFV-237
Water-cooled, Tube in tube type
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
R404A, 1 lb. 15.4 oz. (890g)
High 427PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin
OPERATING CONDITIONS
VOLTAGE RANGE
AMBIENT TEMP.
187 - 253 V
45 -100° F
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
9
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2b. KM-901MWH (water-cooled) Auxiliary Code U-1 and Later
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
8.7A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
15 A
15 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*912 (414)
895 (406)
889 (403)
878 (398)
889 (403)
860 (390)
*835 (379)
825 (374)
849 (385)
815 (370)
791 (359)
751 (341)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
WATER COOLED CONDENSER
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.4 lbs. (6.1 kg) 720pcs.
N/A
90/70°F
1570(4.5)
182(21.8)
1162(139)
70/50°F
1480(3.9)
245(26.9)
631(69)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 189 lbs. (86 kg), Shipping 249 lbs. (113 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
Cond. Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
Cond. Outlet 3/8" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
Pressure Regulator
Mechanical Switch
Hermetic, Model CS12K6E-PFV-237
Water-cooled, Tube in tube type
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
R404A, 1 lb. 15.4 oz. (890g)
High 427PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin
OPERATING CONDITIONS
VOLTAGE RANGE
AMBIENT TEMP.
187 - 253 V
45 -100° F
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀ0
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3a. KM-901MRH (remote air-cooled) Auxiliary Code T-0, U-0
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
11.6A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*889 (403)
866 (393)
859 (389)
843 (382)
859 (389)
818 (371)
*785 (356)
771 (350)
803 (364)
755 (343)
724 (328)
668 (303)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.5 lbs. (6.1 kg) 720pcs.
N/A
90/70°F
1770(5.4)
152(19.3)
70/50°F
1590(4.3)
246(27.7)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 189 lbs. (86 kg), Shipping 249 lbs. (113 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Thermostat
Hermetic, Model CS12K6E-PFV-279
Air-Cooled Remote, Condenser Unit URC-9F
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
Condensing Pressure Regulator on URC-9F
R404A, 9 lbs. 4 oz. (4200g)
(Icemaker 5 lbs. 5 oz. Cond. Unit 3 lbs. 15 oz.)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin, Remote Condenser Unit
VOLTAGE RANGE
OPERATING CONDITIONS
187 - 253 V
45 -100° F
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀꢀ
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3b. KM-901MRH (remote air-cooled) Auxiliary Code U-1 and Later
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/1 (3 wire with netrual for 115V)
11.6A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*889 (403)
866 (393)
859 (389)
843 (382)
859 (389)
818 (371)
*785 (356)
771 (350)
803 (364)
755 (343)
724 (328)
668 (303)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
13.5 lbs. (6.1 kg) 720pcs.
N/A
90/70°F
1770(5.4)
152(19.3)
70/50°F
1590(4.3)
246(27.7)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 189 lbs. (86 kg), Shipping 249 lbs. (113 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Mechanical Switch
Hermetic, Model CS12K6E-PFV-279
Air-Cooled Remote, Condenser Unit URC-9F
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
Condensing Pressure Regulator on URC-9F
R404A, 9 lbs. 4 oz. (4200g)
(Icemaker 5 lbs. 5 oz. Cond. Unit 3 lbs. 15 oz.)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin, Remote Condenser Unit
VOLTAGE RANGE
OPERATING CONDITIONS
187 - 253 V
45 -100° F
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀꢁ
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4a. KM-901MRH3 (remote air-cooled) Auxiliary Code T-0, U-0
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/3
7.0A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*899 (408)
880 (399)
874 (397)
855 (388)
874 (397)
842 (382)
*815 (370)
800 (363)
817 (371)
772 (350)
749 (340)
689 (313)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
14.2 lbs. (6.4 kg) 720pcs.
N/A
90/70°F
1830(5.4)
147(18.0)
70/50°F
1670(4.5)
254(28.2)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 198 lbs. (90 kg), Shipping 258 lbs. (117 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Thermostat
Hermetic, Model CS12K6E-TF5-279
Air-Cooled Remote, Condenser Unit URC-9F
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
Condensing Pressure Regulator on URC-9F
R404A, 9 lbs. 4 oz. (4200g)
(Icemaker 5 lbs. 5 oz. Cond. Unit 3 lbs. 15 oz.)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin, Remote Condenser Unit
VOLTAGE RANGE
OPERATING CONDITIONS
187 - 253 V
45 -100° F
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀ3
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4b. KM-901MRH (remote air-cooled) Auxiliary Code U-1 and Later
AC SUPPLY VOLTAGE
AMPERAGE
208-230/60/3
7.0A ( 5 Min. Freeze AT 104°F / WT 80°F)
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
APPROXIMATE ICE PRODUCTION
PER 24 HR.
20 A
20 A
Ambient
WATER TEMP. (°F)
Temp.(°F)
50
70
90
lbs./day ( kg/day )
Reference without *marks
70
80
90
100
*899 (408)
880 (399)
874 (397)
855 (388)
874 (397)
842 (382)
*815 (370)
800 (363)
817 (371)
772 (350)
749 (340)
689 (313)
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
WATER gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
14.2 lbs. (6.4 kg) 720pcs.
N/A
90/70°F
1830(5.4)
147(18.0)
70/50°F
1670(4.5)
254(28.2)
30" x 27-3/8" x 37-7/16" (762 x 695 x 950 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 198 lbs. (90 kg), Shipping 258 lbs. (117 kg)
Permanent - Connection
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
3/8" OD Tube
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
Float Switch
Hot Gas and Water, Thermistor and Timer
Timer Controlled. Overflow Pipe
N/A
Mechanical Switch
Hermetic, Model CS12K6E-TF5-279
Air-Cooled Remote, Condenser Unit URC-9F
Vertical type, Stainless Steel and Copper
Thermostatic Expansion Valve
Condensing Pressure Regulator on URC-9F
R404A, 9 lbs. 4 oz. (4200g)
(Icemaker 5 lbs. 5 oz. Cond. Unit 3 lbs. 15 oz.)
High 467PSIG, Low 230PSIG
High Voltage Cut-out ( Internal )
Auto-reset Overload Protector ( Internal )
Auto-reset High Pressure Control Switch
Float Switch
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Ice Storage Bin, Remote Condenser Unit
VOLTAGE RANGE
OPERATING CONDITIONS
187 - 253 V
45 -100° F
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀ4
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Specifications
MODEL: URC-9F
AC SUPPLY VOLTAGE
FAN MOTOR
115/60/1 (Connection to Icemaker)
115 V Total 1.3FLA
65W
EXTERIOR DIMENSIONS (WxDxH)
DIMENSIONS INCLUDING LEGS (WxDxH)
EXTERIOR FINISH
32-3/16" x 15-11/16" x 21-15/16" (817 x 398 x 558 mm)
34-5/16" x 18-1/8" x 36-15/16" (871 x 460 x 938 mm)
Galvanized Steel
WEIGHT
Net 81 lbs. ( 37 kg )
Shipping 92 lbs. ( 42 kg )
CONNECTIONS - ELECTRIC
- REFRIGERANT
Permanent - Connection
Discharge Line 1-1/16"-12 UNF Fitting (#10 AEROQUIP)
Liquid Line 5/8"-18 UNF Fitting (#6 AEROQUIP)
CONDENSER
Air-cooled, Fin and tube type
Thermal Protection
FAN MOTOR PROTECTION
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
Condensing Pressure Regulator
R-404A
3 lbs. 14.8 oz. (1780g)
High 467 PSIG
VOLTAGE RANGE
AMBIENT TEMP.
Leg
OPERATING CONDITIONS
104 ~ 127 V
-20 ~ 122 °F
ACCESSORIES -SUPPLIED
2 pcs
8 pcs
8 pcs
Hex. Head Bolt w/Washer 8 x 16
Hex. Nut
8
Note: We reserve the right to make changes in specifications and design without prior
notice.
ꢀ6
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II. General Information
A. Construction
1. KM-901MAH (air-cooled)
Spray Tubes
Water Supply Inlet
Hot Gas Valve
Cleaning Valve
Junction Box
Condenser
Control Box
Expansion Valves
Control Switch
Fan Motor
Float Switch
Water Pump
Drier
Thermostatic Bin Control
Auxiliary Code T-0, U-0
Compressor
Mechanical Bin Control and Bracket
Auxiliary Code U-ꢀ and later
Thermostatic Bin Control
Bracket & Bulb Holder
Auxiliary Code T-0, U-0
ꢀ7
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2. KM-901MWH (water-cooled)
Spray Tubes
Water Supply Inlet
Hot Gas Valve
Cleaning Valve
Junction
Box
Expansion Valves
Control Switch
Water Regulating
Valve
Control Box
Float Switch
Water Pump
Compressor
Condenser
Drier
Thermostatic Bin Control
Auxiliary Code T-0, U-0
Mechanical Bin Control and Bracket
Auxiliary Code U-ꢀ and later
Thermostatic Bin Control
Bracket & Bulb Holder
Auxiliary Code T-0, U-0
ꢀ8
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3. KM-901MRH/3 (remote air-cooled)
Spray Tubes
Water Supply Inlet
Hot Gas Valve
Cleaning Valve
Junction Boxes
Expansion Valves
Control Box
Control Switch
Receiver Tank
Float Switch
Water Pump
Compressor
Drier
Liquid Line Valve
Thermostatic Bin Control
Auxiliary Code T-0, U-0
Mechanical Bin Control and Bracket
Auxiliary Code U-ꢀ and later
Thermostatic Bin Control
Bracket & Bulb Holder
Auxiliary Code T-0, U-0
ꢀ9
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B. Sequence of Operation
1. Sequence Cycles and Shutdown
a) "E" Control Board: Auxiliary Code T-0, U-0
The steps in the sequence are as outlined below. When power is supplied, CB red
"POWER OK" LED comes on. There is a 5-second delay before startup. Note that the
order of the component LEDs from the outer edge of CB is ꢀ, 4, 3, ꢁ.
(1) 1-Minute Fill Cycle
LED 4 is on. WV energizes and the ꢀ-minute fill cycle begins. After ꢀ minute, CB
checks for a closed F/S. If F/S is closed, the harvest cycle begins. If not, WV remains
energized through additional ꢀ-minute fill cycles until water fills the tank and closes
F/S. This serves as a low water safety to protect PM.
(2) Initial Harvest Cycle
LEDs ꢀ, 4, and ꢁ are on. WV remains energized, Comp, FMR, HGV energize. CB
monitors the warming of the evaporator via the thermistor located on the suction
line. When the thermistor reaches 48°F (9°C), CB reads a 3.9 kΩ signal from
the thermistor and turns harvest termination over to the harvest timer (S4 dip
switch ꢀ & ꢁ). The harvest timer has settings of 60, 90, ꢀꢁ0, and ꢀ80 seconds. For
details, see "II.C.3.b) Harvest Timer (S4 dip switch ꢀ & ꢁ)." WV is energized during
harvest for a maximum of 6 minutes or the length of harvest, whichever is shorter.
LED 4 goes off when WV de-energizes. When the harvest timer expires, the harvest
cycle is complete. CB checks the position of F/S and proceeds to the next cycle if it
is closed or calls for a ꢀ-minute fill cycle if it is open. The minimum total time allowed
by CB for a complete harvest cycle is ꢁ minutes.
(3) Freeze Cycle
LED ꢀ is on. Comp and FMR remain energized, PM, FM, and LLV energize, HGV
and WV de-energize. For the first 5 minutes, CB will not accept a signal from F/S.
This minimum 5-minute freeze time is short cycle protection for Comp. At the end of
5 minutes, F/S assumes control. As ice builds on the evaporator, the water level in
the tank lowers. The freeze cycle continues until F/S opens and terminates the cycle.
(4) Pump-Out Cycle
LEDs ꢀ, 3, and ꢁ are on. LED 4 is on when S4 dip switch 3 & 4 are set to 3 off and
4 on. Comp and FMR remain energized. HGV energizes. WV energizes if S4 dip
switch 3 off and 4 on. LLV and FM de-energize. PM stops for ꢁ seconds then
reverses, taking water from the bottom of the tank and forcing pressure against the
check valve seat allowing water to go through the check valve and down the drain.
At the same time, water flows through the small tube to power flush F/S. When the
pump-out timer expires, the pump-out is complete.
The first pump-out occurs after the ꢀst freeze cycle, then every ꢀ0th cycle thereafter.
The pump-out frequency is factory set, and generally no adjustment is required.
However, where water quality is bad and the icemaker needs a pump-out more
often, the pump-out frequency can be adjusted. The pump-out frequency control
(S4 dip switch 5 & 6) can be set to have a pump-out occur every cycle, or every
ꢁ, 5, or ꢀ0 cycles. For details, see "II.C.3.d) Pump-Out Frequency Control (S4 dip
switch 5 & 6)."
ꢁ0
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(5) Harvest Cycle
Same as the initial harvest cycle. See "II.B.ꢀ.a)(ꢁ) Initial Harvest Cycle."
Note: Unit continues to cycle until TBC is satisfied or power is turned off. The unit
always restarts at the ꢀ-minute fill cycle.
(6) Shutdown
When ice contacts the thermostatic bulb (TBC switch open), TBC shuts down the
unit within ꢀ0 seconds. TBC is factory set, and generally no adjustment is required.
However, adjustment may be needed in some conditions, particularly at higher
altitude locations. CAUTION! Do not adjust S4 dip switch 7 out of the factory
default position on this model. This dip switch must be left in the factory
default position or this unit will not operate correctly.
Legend: CB–control board; Comp–compressor; FM–fan motor;
FMR–fan motor-remote; F/S–float switch; HGV–hot gas valve; LLV–liquid line
valve; PM–pump motor; TBC–thermostatic bin control; WV–inlet water valve
b) "G" Control Board: Auxiliary Code U-1 and Later
The steps in the sequence are as outlined below. When power is supplied, CB red
"POWER OK" LED and green "BC CLOSED" LED come on. There is a 5-second delay
before startup. Note that the order of the component LEDs from the outer edge of CB is
ꢀ, 4, 3, ꢁ.
(1) 1-Minute Fill Cycle
LED 4 is on. WV energizes and the ꢀ-minute fill cycle begins. After ꢀ minute, CB
checks for a closed F/S. If F/S is closed, the harvest cycle begins. If not, WV remains
energized through additional ꢀ-minute fill cycles until water fills the tank and closes
F/S. This serves as a low water safety to protect PM.
(2) Initial Harvest Cycle
LEDs ꢀ, 4, and ꢁ are on. WV remains energized, Comp, FMR, HGV energize. CB
monitors the warming of the evaporator via the thermistor located on the suction
line. When the thermistor reaches 48°F (9°C), CB reads a 3.9 kΩ signal from the
thermistor and turns harvest termination over to the harvest timer (S4 dip switch ꢀ &
ꢁ). The harvest timer has settings of 60, 90, ꢀꢁ0, and ꢀ80 seconds. For details, see
"II.C.3.b) Harvest Timer (S4 dip switch ꢀ & ꢁ)." WV is energized during harvest for a
maximum of 6 minutes or the length of harvest minus 0 or 50 seconds (harvest pump
timer (S4 dip switch 7)), whichever is shorter. CAUTION! Do not adjust S4 dip
switch 7 out of the factory default position on this model. This dip switch must
be left in the factory default position or this unit will not operate correctly. For
details, see "II.C.3.e) Bin Control Selector/Harvest Pump Timer (S4 dip switch 7)."
LED 4 goes off when WV de-energizes. LED 3 comes on and PM energizes and runs
for the last 0 or 50 seconds of harvest depending on S4 dip switch 7 setting. When
the harvest timer expires, the harvest cycle is complete. CB checks the position of
F/S and proceeds to the freeze cycle if it is closed or calls for a ꢀ-minute fill cycle
if it is open. The minimum total time allowed by CB for a complete harvest cycle is
ꢁ minutes.
ꢁꢀ
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(3) Freeze Cycle
LED ꢀ is on. Comp and FMR remain energized, PM, FM, and LLV energize. HGV
and WV de-energize. For the first 5 minutes, CB will not accept a signal from F/S.
This minimum 5-minute freeze time is short cycle protection for Comp. At the end of
5 minutes, F/S assumes control. As ice builds on the evaporator, the water level in
the tank lowers. The freeze cycle continues until F/S opens and terminates the cycle.
There is a ꢀ5 second delay before CB acknowledges an open F/S.
(4) Pump-Out Cycle
LEDs ꢀ, 3, and ꢁ are on. LED 4 is on when S4 dip switch 3 & 4 are set to 3 off and
4 on. Comp and FMR remain energized, HGV energizes, WV energizes if S4 dip
switch 3 off and 4 on. LLV and FM de-energize. PM stops for ꢁ seconds then
reverses, taking water from the bottom of the tank and forcing pressure against the
check valve seat allowing water to go through the check valve and down the drain.
At the same time, water flows through the small tube to power flush F/S. When the
pump-out timer expires, the pump-out is complete.
The first pump-out occurs after the ꢀꢀth freeze cycle, then every ꢀ0th cycle
thereafter. The pump-out frequency control is factory set, and generally no
adjustment is required. However, where water quality is bad and the icemaker needs
a pump-out more often, the pump-out frequency can be adjusted. The pump-out
frequency control (S4 dip switch 5 & 6) can be set to have a pump-out occur every
cycle, or every ꢁ, 5, or ꢀ0 cycles. Timing of the first pump-out is dependent on S4
dip switch 5 & 6 settings. See the table below. For details, see "II.C.3.d) Pump-Out
Frequency Control (S4 dip switch 5 & 6)."
"G" Control Board Settings
S4 Dip Switch Setting
Pump-Out
Frequency
1st Pump-Out
No. 5
OFF
ON
No. 6
OFF
OFF
ON
Every cycle
Every ꢁ cycles
Every 5 cycles
Every ꢀ0 cycles
After ꢁnd freeze cycle
After 3rd freeze cycle
After 6th freeze cycle
After ꢀꢀth freeze cycle
OFF
ON
ON
(5) Harvest Cycle
Same as the initial harvest cycle. See "II.B.ꢀ.b)(ꢁ) Initial Harvest Cycle."
Note: Unit continues to cycle until MBC is satisfied or power is turned off. The unit
always restarts at the ꢀ-minute fill cycle.
ꢁꢁ
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(6) Shutdown
When MBC is activated (MBC open), the yellow "BC OPEN" LED comes on. The unit
then shuts down as outlined in the table below.
Cycle at
Shutdown
Mechanical Bin
Control Activation
Fill Cycle
ꢀ5 seconds after activation.
Harvest Cycle
At the end of the harvest cycle, or up to ꢀ5 seconds into the freeze cycle if activated
at the end of the harvest cycle.
Freeze Cycle
ꢀ5 seconds after activation if activated at least ꢀ5 seconds before the 5-minute short
cycle protection timer expires. Otherwise, at the end of the next harvest cycle.
Legend: CB–control board; Comp–compressor; FM–fan motor;
FMR–fan motor-remote; F/S–float switch; HGV–hot gas valve; LLV–liquid line
valve; MBC–mechanical bin control; PM–pump motor; WV–inlet water valve
ꢁ3
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C. Control Board
• A Hoshizaki exclusive solid-state control board is employed in KM-90ꢀMAH,
KM-90ꢀMWH, and KM-90ꢀMRH/3 Modular Crescent Cubers.
• All models are pretested and factory set.
CAUTION
ꢀ. The control board is fragile; handle very carefully.
ꢁ. The control board contains integrated circuits, which are susceptible to
failure due to static discharge. It is especially important to touch the metal
part of the unit before handling or replacing the control board.
3. Do not touch the electronic devices on the control board or the back of the
control board.
4. Do not change wiring and connections. Do not misconnect K3, K4, and K5,
because the same connector is used for the thermistor, mechanical bin
control, and float switch. K4 is not used on "E" control board models.
5. Always replace the whole control board assembly if it goes bad.
6. Do not short out power supply to test for voltage.
ꢁ6
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1. Control Board Layout
a) "E" Control Board: Auxiliary Code T-0, U-0
"E" Control Board
"OUTPUT TEST" Button
(used to test relays on control board)
S4 Dip Switch
"ALARM RESET" Button
Freeze Timer LED
WHITE K3 Connector
Harvest Control
(thermistor)
Harvest Timer LED
Alarm Buzzer
RED K4 Connector
Mechanical Bin Control
(not used on units with
themostatic bin control)
Microprocessor
(control board revision
level indicated by last
ꢁ digits on label)
Power LED
(lights when
power is
supplied to the
control board)
BLACK K5 Connector
Float Switch
Relay LEDs (4)
(indicate which
relays are energized
as listed below)
Part Number
Kꢀ Ten-Pin Connector
Pins #ꢀ through #ꢀ0
#ꢀ, 9 Magnetic Contactor
#ꢁ Hot Gas Valve (HGV)
#3 Fan Motor (FM),
Liquid Line Valve (LLV)
#4 Pump Motor (icemaking)
#5 Pump Motor (pump-out)
#6 Inlet Water Valve (WV)
#7, ꢀ0 Component Power
Supply
LED ꢁ (Xꢁ Relay)
Hot Gas Valve (HGV)
Fan Motor (FM) (FM off
when LED on)
Liquid Line Valve (LLV)
LED 3 (X3 Relay)
Pump Motor (PM)
(on at pump-out only)
LED 4 (X4 Relay)
Inlet Water Valve (WV)
#8 Open
LED ꢀ (Xꢀ Relay)
Compressor (Comp),
Fan Motor-Remote
(FMR)
Switch for "C" control board
and "ALPINE" control board
(service control board only)
Kꢁ Connector
Transformer
"E" Control Board
Part Number ꢁAꢀ4ꢀ0-0ꢀ (factory); 2A1410-02 (service)
ꢁ7
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b) "G" Control Board: Auxiliary Code U-1 and Later
"G" Control Board
"OUTPUT TEST" Button
(used to test relays on control board)
Bin Control Switch
Closed LED (green)
(on continuously
S4 Dip
Switch
"ALARM RESET" Button
in thermostatic bin
control application)
WHITE K3 Connector
Harvest Control
(thermistor)
Bin Control Switch
Open LED (yellow)
(mechanical bin control
application only)
Part Number
Alarm Buzzer
RED K4 Connector
Mechanical Bin Control or
K4 Jumper (thermostatic
bin control application)
Power LED (red)
(lights when
power is supplied
to the control board)
S5 Dip Switch
BLACK K5 Connector
Float Switch
Relay LEDs (4)
(indicate which
relays are energized
as listed below)
Label
(control board revision
level indicated on label
on side of relay)
LED ꢁ (Xꢁ Relay)
Hot Gas Valve (HGV)
Fan Motor (FM)
(FM off when LED on)
Liquid Line Valve (LLV)
Kꢀ Ten-Pin Connector
Pins #ꢀ through #ꢀ0
#ꢀ, 9 Magnetic Contactor
#ꢁ Hot Gas Valve (HGV)
#3 Fan Motor (FM),
Liquid Line Valve (LLV)
#4 Pump Motor (icemaking)
#5 Pump Motor (pump-out,
harvest (if applicable))
#6 Inlet Water Valve (WV)
#7, ꢀ0 Component Power
Supply
LED 3 (X3 Relay)
Pump Motor (PM)
(on at pump-out,
harvest (if applicable))
LED 4 (X4 Relay)
Inlet Water Valve (WV)
#8 Open
LED ꢀ (Xꢀ Relay)
Compressor (Comp),
Fan Motor-Remote
(FMR)
Switch for "C" control board
and "ALPINE" control board
(service control board only)
Kꢁ Connector
Transformer
"G" Control Board
Part Number ꢁA379ꢁ-0ꢀ
ꢁ8
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2. Features
a) Maximum Water Supply Period - 6 minutes
"E" control board: The inlet water valve is open during harvest for 6 minutes or the length
of harvest, whichever is shorter.
"G" control board: The inlet water valve is open during harvest for 6 minutes or the
length of harvest minus 0 or 50 seconds (harvest pump timer (S4 dip switch 7)),
whichever is shorter. For details, see "II.C.3.e) Bin Control Selector/Harvest Pump Timer
(S4 dip switch 7)."
b) Harvest Backup Timer and Freeze Timer
The harvest backup timer shuts down the icemaker if, for two cycles in a row, the
harvest cycle takes more than ꢁ0 minutes to complete. The control board signals this
problem using ꢁ beeps every 3 seconds.
The freeze timer shuts down the icemaker if, for two cycles in a row, the freeze cycle
takes longer than the time specified to complete. The control board signals this
problem using 3 beeps every 3 seconds. The freeze timer is factory set using S4 dip
switch 9 &ꢀ0. For details, see "II.C.3.g) Freeze Timer (S4 dip switch 9 & ꢀ0)."
The "ALARM RESET" button on the control board must be pressed with power on to
reset either of these safeties.
c) High Temperature Safety
The temperature of the suction line in the refrigeration circuit is limited by the high
temperature safety. This protects the unit from excessively high temperatures. If the
evaporator temperature reaches ꢀꢁ7°F±7°F (53°C±4°C), the control board reads a
.8 kΩ signal from the thermistor and shuts down the icemaker.
The control board will signal this problem using ꢀ beep every 3 seconds. The "ALARM
RESET" button on the control board must be pressed with power on to reset the safety.
d) Low Water Safety
The control board checks the position of the float switch at the end of the initial ꢀ-minute
fill cycle and at the end of each harvest cycle. If the float switch is in the up position
(electrical circuit closed), the control board changes to the next cycle. If the float switch
is in the down position (electrical circuit open), the control board changes to additional
ꢀ-minute fill cycles until water enters the tank and closes the float switch. When the float
switch closes, the control board changes to the next cycle. The unit will not start without
adequate water in the tank. This serves as a low water safety to protect the water pump.
For water-cooled model, if the condenser water supply is shut off, the unit is protected by
the high-pressure switch.
e) High Voltage and Low Voltage Cut-outs
The maximum and minimum allowable supply voltages of this icemaker are limited by
the high voltage and low voltage cut-outs. If miswiring (especially on single phase 3 wire
models) causes excessive voltage (ꢀ47Vac±5% or more), the high voltage cut-out shuts
down the circuit in 3 seconds and the icemaker automatically stops. The control board
will signal this problem using 7 beeps every 3 seconds.
The icemaker also automatically stops in cases of insufficient voltage (9ꢁVac±5% or
less). The control board will signal this problem using 6 beeps every 3 seconds. When
the proper supply voltage is resumed, the icemaker automatically starts running again.
ꢁ9
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f) LED Lights and Audible Alarm Safeties
(1) "E" Control Board: Auxiliary Code T-0, U-0
At startup, a 5-second delay occurs while the control board conducts an internal timer
check. A beep occurs when power is turned off. The red LED indicates proper control
voltage and remains on unless a control voltage problem occurs. The green LEDs
ꢀ through 4 energize and sequence from initial startup as listed in the table below. Note
that the order of the LEDs from the outer edge of the control board is ꢀ, 4, 3, ꢁ.
For details, see "II.B. Sequence of Operation."
Time LEDs are On
Max.
Energized
Components
Sequence Step
LED
Min.
Avg.
ꢀ-Minute Fill Cycle 4
WV
ꢀ minute
Harvest Cycle
ꢀ, 4, ꢁ
Comp, FMR, WV,
HGV
ꢁ minutes ꢁ0 minutes 3 to 5 minutes
Freeze Cycle
ꢀ
Comp, FM/FMR, PM, 5 minutes freeze timer 30 to 35 minutes
LLV
setting
Pump-Out Cycle ꢀ, 4*, 3, ꢁ Comp, FMR, WV*,
PM, HGV
ꢀ0 seconds ꢁ0 seconds *pump-out timer setting
The built-in safeties shut down the unit and have alarms as listed below.
No. of Beeps
(every 3 sec.)
Type of Alarm
Notes
ꢀ
High Evaporator Temp.
(temperature > ꢀꢁ7°F)
(53°C)
Check for harvest problem (stuck HGV or relay), hot
water entering unit, stuck HM, or shorted thermistor.
ꢁ
3
Harvest Backup Timer
(harvest > ꢁ0 min. for two cycles Check for open thermistor, HGV not opening, TXV or
in a row)
Orange "H TIMER" LED on.
LLV leaking by, low charge, inefficient Comp, or WRV
leaking by.
Yellow "F TIMER" LED on.
Freeze Timer
(freeze > freeze timer setting for Check for F/S stuck closed (up), WV leaking by, HGV
two cycles in a row)
leaking by, PM not pumping, TXV not feeding properly,
LLV not opening, low charge, HM not bypassing, or
inefficient Comp.
To reset the above safeties, press the "ALARM RESET" button with the power supply on.
6
Low Voltage
(9ꢁVac±5% or less)
High Voltage
Red LED turns off if voltage protection operates.
The control voltage safeties automatically reset when
voltage is corrected.
7
(ꢀ47Vac±5% or more)
Legend: Comp–compressor; FM–fan motor; FMR–fan motor-remote;
F/S–float switch; HGV–hot gas valve; HM–headmaster (C.P.R.); LLV–liquid
line valve; PM–pump motor; TXV–thermostatic expansion valve; WRV–water
regulating valve; WV–inlet water valve
30
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(2) "G" Control Board: Auxiliary Code U-1 and Later
At startup, a 5-second delay occurs while the control board conducts an internal timer
check. A beep occurs when the control switch is moved to the "ICE" position. The red
LED indicates proper control voltage and remains on unless a control voltage problem
occurs. The green LEDs ꢀ through 4 energize and sequence from initial startup as
listed in the table below. Note that the order of the LEDs from the outer edge of the
control board is ꢀ, 4, 3, ꢁ. For details, see "II.B. Sequence of Operation."
Time LEDs are On
Max.
Energized
Components
Sequence Step
LED
Min.
Avg.
ꢀ-Minute Fill Cycle
Harvest Cycle
4
WV
ꢀ minute
ꢀ, 4, ꢁ
Comp, FMR, WV, HGV ꢁ minutes ꢁ0 minutes 3 to 5 minutes
Harvest Pump Timer ꢀ, 3, ꢁ
Comp, FMR, PM, HGV 0 seconds 50 seconds harvest pump timer
setting
Freeze Cycle
ꢀ
Comp, FM/FMR, PM,
LLV
5 minutes freeze timer 30 to 35 minutes
setting
Pump-Out Cycle
ꢀ, 4*, 3, ꢁ Comp, FMR, WV*, PM, ꢀ0 seconds ꢁ0 seconds *pump-out timer
HGV setting
The built-in safeties shut down the unit and have alarms as listed below.
No. of Beeps
(every 3 sec.)
Type of Alarm
Notes
ꢀ
High Evaporator Temp.
(temperature > ꢀꢁ7°F)
(53°C)
Check for harvest problem (stuck HGV or relay), hot
water entering unit, stuck HM, or shorted thermistor.
ꢁ
3
Harvest Backup Timer
(harvest > ꢁ0 min. for two cycles LLV leaking by, low charge, inefficient Comp, or WRV
in a row)
Freeze Timer
Check for open thermistor, HGV not opening, TXV or
leaking by.
Check for F/S stuck closed (up), WV leaking by, HGV
(freeze > freeze timer setting for leaking by, PM not pumping, TXV not feeding properly,
two cycles in a row)
LLV not opening, low charge, HM not bypassing, or
inefficient Comp.
To reset the above safeties, press the "ALARM RESET" button with the power supply on.
6
Low Voltage
(9ꢁVac±5% or less)
High Voltage
Red LED turns off if voltage protection operates.
The control voltage safeties automatically reset when
voltage is corrected.
7
(ꢀ47Vac±5% or more)
Legend: Comp–compressor; FM–fan motor; FMR–fan motor-remote; F/S–float switch;
HGV–hot gas valve; HM–headmaster (C.P.R.); LLV–liquid line valve; PM–pump
motor; TXV–thermostatic expansion valve; WRV–water regulating valve;
WV–inlet water valve
3ꢀ
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3. Controls and Adjustments
CAUTION
Dip switches are factory set. Failure to maintain factory settings may adversely
affect performance and warranty coverage. For more information, contact
Hoshizaki Technical Support at ꢀ-800-ꢁ33-ꢀ940.
a) Default Dip Switch Settings
The dip switches are factory set to the following positions:
S4 Dip Switch
S4 Dip Switch No.
KM-90ꢀMAH
1
2
3
4
5
6
7
8
9
10
ON OFF ON OFF ON ON OFF OFF OFF ON
ON OFF ON OFF ON ON OFF OFF OFF ON
ON OFF ON OFF ON ON OFF OFF OFF ON
KM-90ꢀMWH
KM-90ꢀMRH/3
S5 Dip Switch
("G" Control Board: Auxiliary Code U-1 and Later)
S5 Dip Switch No.
KM-90ꢀMAH
1
2
3
4
5
OFF OFF OFF OFF OFF
OFF OFF OFF OFF OFF
OFF OFF OFF OFF OFF
KM-90ꢀMWH
KM-90ꢀMRH/3
Freeze Timer (9 & ꢀ0)
Factory Use (8)
Bin Control Selector (7) "E" Control Board
Harvest Pump Timer (7) "G" Control Board
(Do Not Adjust)
Pump-Out Frequency Control (5 & 6)
Pump-Out Timer (3 & 4)
Harvest Timer (ꢀ & ꢁ)
b) Harvest Timer (S4 dip switch 1 & 2)
The harvest timer when the thermistor reads 48°F (9°C) at the evaporator outlet and the
control board reads the thermistor's 3.9 kΩ signal. The harvest timer is factory set, and
generally no adjustment is required. However, a setting longer than the factory setting
may be advised in cases where the flush provided at harvest needs to be prolonged
for extra cleaning. Before changing this setting, contact Hoshizaki Technical Support at
ꢀ-800-ꢁ33-ꢀ940 for recommendations. Keep in mind that setting the harvest timer to a
longer setting decreases ꢁ4-hour production.
Note that the pump-out timer (Sꢀ dip switch 3 & 4) acts in place of the harvest timer
during cycles with a pump-out. For details, see "II.C.3.c) Pump-Out Timer (Sꢀ dip
switch 3 & 4)."
Time
S4 Dip Switch Setting
(seconds)
No. 1
OFF
ON
No. 2
OFF
OFF
ON
60
90
OFF
ON
ꢀꢁ0
ꢀ80
ON
3ꢁ
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c) Pump-Out Timer (S4 dip switch 3 & 4)
When a pump-out is called for, the pump motor de-energizes after the preceding freeze
cycle. The pump motor energizes ꢁ seconds later in the reverse direction, taking water
from the bottom of the tank and forcing pressure against the check valve seat allowing
water to go through the check valve and down the drain. At the same time, water flows
through the small tube to power flush the float switch. The pump motor drains the water
tank for the time determined by the pump-out timer. The pump-out timer also acts in
place of the harvest timer during cycles with a pump-out. The pump-out timer is factory
set, and generally no adjustment is required. However, where water quality is bad and
the icemaker needs a longer pump-out time, the pump-out timer can be adjusted. The
pump-out timer control can be set to pump-out for ꢀ0 or ꢁ0 seconds.
Inlet
Water
S4 Dip Switch Setting Time (seconds)
No. 3
OFF
ON
No. 4
OFF
OFF
ON
T1
ꢀ0
ꢀ0
ꢀ0
ꢁ0
T2
Valve
Closed
Closed
Open
ꢀ50
ꢀ80
ꢀꢁ0
ꢀ80
OFF
ON
ON
Closed
Tꢀ: Time to drain the water tank
Tꢁ: Harvest timer at pump-out
d) Pump-Out Frequency Control (S4 dip switch 5 & 6)
The pump-out frequency control is factory set to drain the water tank every ꢀ0 cycles,
and generally no adjustment is required. However, where water quality is bad and the
icemaker needs a pump-out more often, the pump-out frequency can be adjusted. The
pump-out frequency control can be set to have a pump-out occur every cycle, or every
ꢁ, 5, or ꢀ0 cycles.
Timing of the first pump-out is dependent on the control board. "E" control board first
pump-out is after the first freeze cycle. "G" control board first pump-out is dependent on
S4 dip switch 5 & 6. See the table below.
"E" & "G" Control Board Settings
1st Pump-Out
S4 Dip Switch Setting
Pump-Out
Frequency
"E" Control Board
After ꢀst freeze cycle
"G" Control Board
No. 5
OFF
ON
No. 6
OFF
OFF
ON
Every cycle
Every ꢁ cycles
Every 5 cycles
Every ꢀ0 cycles
After ꢁnd freeze cycle
After 3rd freeze cycle
After 6th freeze cycle
After ꢀꢀth freeze cycle
OFF
ON
ON
33
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e) Bin Control Selector/Harvest Pump Timer (S4 dip switch 7)
Depending on the control board, S4 dip switch 7 is either a bin control selector or harvest
pump timer.
CAUTION
Do not adjust. This dip switch must be left in the factory default position or this
unit will not operate correctly.
(1) Bin Control Selector, "E" Control Board: Auxiliary Code T-0, U-0
Factory set for proper operation. Do not adjust. When set to the on position on a unit
with a thermostatic bin control, a 5-beep alarm sounds (open circuit) and the unit does
not operate.
"E" Control Board
S4 Dip Switch Setting
Bin Control
No. 7
ON
Mechanical
OFF
Thermostatic
(2) Harvest Pump Timer, "G" Control Board: Auxiliary Code U-1 and Later
Factory set for proper operation. Do not adjust. Depending on the harvest pump timer
setting, the pump motor energizes and runs the last 0 or 50 seconds of harvest. The
water valve is energized during harvest for a maximum of 6 minutes or the length
of harvest minus 0 or 50 seconds (determined by the harvest pump timer setting),
whichever is shorter. CAUTION! Do not adjust S4 dip switch 7 out of the factory
default position on this model. This dip switch must be left in the factory default
position or this unit will not operate correctly.
"G" Control Board
S4 Dip Switch Setting
Pump Motor
Time (seconds)
No. 7
ON
50
0
OFF
f) Factory Use (S4 dip switch 8)
Factory set for proper operation. Do not adjust. This must be left in the factory default
position.
34
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g) Freeze Timer (S4 dip switch 9 & 10)
CAUTION
Adjust to proper specification, or the unit may not operate correctly.
The freeze timer setting determines the maximum allowed freeze time to prevent
possible freeze-up issues. Upon termination of the freeze timer, the control board
initiates the harvest cycle. After ꢁ consecutive freeze timer terminations, the control
board shuts down the icemaker. In this case, see "IV.F.3. Low Ice Production" for
possible solutions. The freeze timer is factory set, and generally no adjustment
is required. Before changing this setting, contact Hoshizaki Technical Support at
ꢀ-800-ꢁ33-ꢀ940 for recommendations.
Time
S4 Dip Switch Setting
(minutes)
No. 9
OFF
OFF
ON
No. 10
OFF
ON
60
50
70
60
OFF
ON
ON
h) Float Switch Control (S5 dip switch 1): "G" Control Board
CAUTION
Do not adjust. This must be left in the factory default position or the unit will not
operate correctly.
Factory set. S5 dip switch ꢀ allows for single or double float switch applications. The
KM-90ꢀMAH, KM-90ꢀMWH, and KM-90ꢀMRH/3 use a single float switch.
i) Refill Counter (S5 dip switch 2 through 5): "G" Control Board
CAUTION
Do not adjust. These must be left in the factory default position or the unit will
not operate correctly.
Factory set. S5 dip switch ꢁ through 5 allows for refills during the freeze cycle. The
KM-90ꢀMAH, KM90ꢀMWH, and KM-90ꢀMRH/3 do not refill.
35
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D. Bin Control
1. Thermostatic Bin Control: Auxiliary Code T-0, U-0
CAUTION
When the ambient temperature is below 45°F (7°C), the thermostatic bin
control switch opens and shuts down the icemaker even if the ice storage bin
is empty. When the thermostat is set in the prohibited range, the icemaker
operates continuously even if the ice storage bin is filled with ice. Setting in the
prohibited range may result in severe damage to the icemaker.
The thermostatic bin control switch is a temperature controlled switch used to control
the level of ice in the bin. It is in line with the power supply to the control switch.
The thermostatic bin control switch shuts down the unit within ꢀ0 seconds when ice
contacts the thermostatic bulb, regardless of the cycle at activation. The thermostatic
bin control is factory set, and generally no adjustment is required. However,
adjustment may be needed in some conditions, particularly at higher altitude
locations. For further details, see "IV.C.ꢀ. Thermostatic Bin Control Check."
2. Mechanical Bin Control: Auxiliary Code U-1 and Later
The mechanical bin control is a lever-actuated bin control switch used to control the
level of ice in the bin.The mechanical bin control connects to the control board RED
K4 connector. When the actuator paddle is not engaged (mechanical bin control
switch closed; control board green "BC CLOSED" LED on), the unit produces ice.
When the actuator paddle is engaged (mechanical bin control switch open; control
board yellow "BC OPEN" LED on), the unit shuts down as outlined in the table below.
Cycle at
Shutdown
Mechanical Bin
Control Activation
Fill Cycle
ꢀ5 seconds after activation.
Harvest Cycle
At the end of the harvest cycle, or up to ꢀ5 seconds into the freeze cycle if
activated at the end of the harvest cycle.
Freeze Cycle
ꢀ5 seconds after activation if activated at least ꢀ5 seconds before the 5-minute
short cycle protection timer expires. Otherwise, at the end of the next harvest
cycle.
E. Float Switch
The float switch is used to determine that there is sufficient water in the tank after
the ꢀ-minute fill cycle and after each harvest cycle. The float switch is also used to
determine that the appropriate volume of water has been converted into ice before
switching out of the freeze cycle. No adjustment is required.
F. Thermistor
The thermistor is used as a harvest control sensor. The thermistor's resistance varies
depending on the suction line temperature. The control board monitors the resistance to
start the harvest timer. No adjustment is required.
G. Control Switch
The control switch has three positions: "OFF" for power off, "ICE" for icemaking, and
"WASH" to activate the water pump when cleaning and sanitizing.
36
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III. Technical Information
A. Water Circuit and Refrigeration Circuit
1. KM-901MAH (air-cooled)
Spray Tubes
Inlet Water Valve
Condenser
Fan
High Pressure
Switch
Water Supply
Strainer
Evaporator
Hot Gas
Valve
Drier
Thermistor
Check
Valves
Cleaning Valve
Suction Line
Access Valve
Water Pump
Float Switch
Access
Valve
Water
Tank
Discharge Line
Compressor
Pump-Out
Freeze
Drain
Expansion Valves
Check Valve
Refrigeration Circuit
Water Circuit
37
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2. KM-901MWH (water-cooled)
Water
Regulating
Valve
Condenser
Spray Tubes
Drain
Inlet Water Valve
Water Supply
Water Supply
High Pressure
Switch
Strainer
Hot Gas
Valve
Evaporator
Drier
Thermistor
Cleaning Valve
Check
Valves
Suction Line
Access Valve
Water Pump
Float Switch
Access
Valve
Water
Tank
Discharge Line
Compressor
Pump-Out
Freeze
Drain
Expansion Valves
Check Valve
Refrigeration Circuit
Water Circuit
38
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3. KM-901MRH/3 (remote air-cooled)
Condenser
Fan
Headmaster
(C.P.R.)
Spray Tubes
Access
Valve
Inlet Water Valve
Drier
Water Supply
High Pressure
Switch
Receiver
Tank
Strainer
Hot Gas
Valve
Evaporator
Thermistor
Liquid Line
Valve
Cleaning Valve
Check
Valves
Suction Line
Access Valve
Water Pump
Float Switch
Access
Valve
Water
Tank
Discharge Line
Compressor
Pump-Out
Freeze
Drain
Expansion Valves
Check Valve
Refrigeration Circuit
Water Circuit
39
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C. Performance Data
1. KM-901MAH (air-cooled)
APPROXIMATE ICE
PRODUCTION PER 24 HR.
WATER TEMP. (ºF/ºC)
70/21
AMBIENT TEMP.
(ºF/ºC)
70/21
80/27
50/10
90/32
874
396
382
832
778
378
353
785
736
356
334
842
90/32
100/38
70/21
80/27
90/32
832
826
378
375
732
332
327
687
646
312
293
lbs./day kg./day
APPROXIMATE ELECTRIC
CONSUMPTION
721
1600
1625
1632
1631
1632
1675
1710
1715
1658
1691
1731
1750
watts
100/38
70/21
80/27
90/32
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
240
219
212
175
0.91
0.83
0.80
0.66
212
175
143
139
0.80
0.66
0.54
0.52
187
158
123
103
0.71
0.60
0.46
0.39
gal./day m3/day
FREEZING CYCLE TIME
100/38
70/21
80/27
90/32
100/38
70/21
19
20
20
21
4.3
20
22
24
24
3.9
22
24
26
27
3.6
min.
HARVEST CYCLE TIME
80/27
90/32
100/38
4.0
3.9
3.3
3.3
2.8
2.7
3.1
2.6
2.4
min.
HEAD PRESSURE
70/21
80/27
90/32
219
234
238
15.4
16.4
16.7
238
263
284
16.7
18.5
20.0
261
284
306
18.3
20.0
21.5
PSIG kg/cm2G
100/38
242
17.0
289
20.3
327
23.0
SUCTION PRESSURE
70/21
80/27
90/32
35
36
37
2.5
2.6
2.6
37
39
41
2.6
2.7
2.9
41
44
46
2.9
3.1
3.2
PSIG kg/cm2G
100/38
38
2.7
42
3.0
50
3.5
TOTAL HEAT OF REJECTION FROM CONDENSER
15,400 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
Note:
ꢀ. Pressure data is recorded at 5 minutes into freeze cycle. The data not in bold
should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
46
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2. KM-901MWH (water-cooled)
APPROXIMATE ICE
PRODUCTION PER 24 HR.
WATER TEMP. (ºF/ºC)
70/21
AMBIENT TEMP.
(ºF/ºC)
50/10
90/32
70/21
80/27
912
895
414
406
889
860
403
390
849
815
385
370
90/32
100/38
889
878
403
398
835
825
379
374
791
751
359
341
lbs./day kg./day
APPROXIMATE ELECTRIC
CONSUMPTION
70/21
80/27
90/32
1480
1500
1506
1506
1541
1570
1527
1553
1586
watts
100/38
70/21
1505
1574
1600
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
876
981
3.32
3.71
3.84
5.15
1013
1194
1344
1493
3.84
4.52
5.09
5.65
1530
1893
1977
2559
5.79
7.17
7.48
9.69
80/27
90/32
100/38
70/21
80/27
1013
1360
gal./day m3/day
FREEZING CYCLE TIME
18
19
19
20
21
19
90/32
100/38
70/21
19
19
4.1
20
20
3.8
21
22
3.6
min.
HARVEST CYCLE TIME
80/27
90/32
3.9
3.8
3.4
3.1
3.3
2.9
min.
100/38
3.4
3.0
2.7
HEAD PRESSURE
70/21
80/27
90/32
227
229
230
16.0
16.1
16.1
230
233
236
16.1
16.4
16.6
240
247
249
16.9
17.4
17.5
PSIG kg/cm2G
100/38
234
16.4
239
16.8
260
18.3
SUCTION PRESSURE
70/21
80/27
90/32
33
34
34
2.3
2.4
2.4
34
36
37
2.4
2.5
2.6
38
40
41
2.6
2.8
2.9
PSIG kg/cm2G
100/38
36
2.5
38
2.7
45
3.2
TOTAL HEAT OF REJECTION FROM CONDENSER
13,500 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
TOTAL HEAT OF REJECTION FROM COMPRESSOR
WATER FLOW FOR CONDENSER
2,100 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
100 gal./h [AT 100ºF (38ºC) / WT 90ºF (32ºC)]
PRESSURE DROP OF COOLING WATER LINE
less than 10 PSIG
Note:
ꢀ. Pressure data is recorded at 5 minutes into freeze cycle. The data not in bold
should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
47
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3. KM-901MRH (remote air-cooled)
APPROXIMATE ICE
PRODUCTION PER 24 HR.
WATER TEMP. (ºF/ºC)
70/21
AMBIENT TEMP.
(ºF/ºC)
50/10
90/32
70/21
80/27
889
866
403
393
859
818
389
371
803
755
364
343
90/32
100/38
859
843
389
382
785
771
356
350
724
668
328
303
lbs./day kg./day
APPROXIMATE ELECTRIC
CONSUMPTION
70/21
80/27
90/32
1590
1630
1643
1630
1643
1712
1770
1771
1664
1705
1775
1780
watts
100/38
70/21
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
246
225
219
0.93
0.85
0.83
219
182
152
0.83
0.69
0.57
194
165
131
0.74
0.63
0.50
80/27
90/32
gal./day m3/day
FREEZING CYCLE TIME
100/38
70/21
80/27
182
0.69
147
0.56
112
0.42
18
20
21
21
23
19
90/32
100/38
70/21
20
20
4.3
22
23
3.9
24
26
3.6
min.
HARVEST CYCLE TIME
80/27
90/32
4.0
3.9
3.4
2.9
3.2
2.7
min.
100/38
3.4
2.8
2.4
HEAD PRESSURE
70/21
80/27
90/32
208
224
229
14.6
15.7
16.1
229
256
279
16.1
18.0
19.6
252
277
301
17.7
19.5
21.2
PSIG kg/cm2G
100/38
232
16.3
284
20.0
322
22.6
SUCTION PRESSURE
70/21
80/27
90/32
35
37
37
2.5
2.6
2.6
37
40
43
2.6
2.8
3.0
41
45
47
2.9
3.1
3.3
PSIG kg/cm2G
100/38
38
2.7
44
3.1
51
3.6
TOTAL HEAT OF REJECTION FROM CONDENSER
14,000 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
TOTAL HEAT OF REJECTION FROM COMPRESSOR
CONDENSER VOLUME
2,200 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
121 CU. IN (URC-9F)
Note:
ꢀ. Pressure data is recorded at 5 minutes into freeze cycle. The data not in bold
should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
48
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4. KM-901MRH3 (remote air-cooled)
APPROXIMATE ICE
PRODUCTION PER 24 HR.
WATER TEMP. (ºF/ºC)
70/21
AMBIENT TEMP.
(ºF/ºC)
50/10
90/32
70/21
80/27
899
880
408
399
874
842
397
382
817
772
371
350
90/32
100/38
874
855
397
388
815
800
370
363
749
689
340
313
lbs./day kg./day
APPROXIMATE ELECTRIC
CONSUMPTION
70/21
80/27
90/32
1670
1706
1717
1716
1717
1779
1830
1837
1755
1803
1861
1890
watts
100/38
70/21
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
254
230
222
0.96
0.87
0.84
222
181
147
0.84
0.69
0.56
203
174
134
0.77
0.66
0.51
80/27
90/32
gal./day m3/day
FREEZING CYCLE TIME
100/38
70/21
80/27
185
0.70
144
0.54
123
0.46
19
20
21
21
23
20
90/32
100/38
70/21
20
20
4.4
22
23
3.9
24
26
3.6
min.
HARVEST CYCLE TIME
80/27
90/32
4.0
3.9
3.3
2.8
3.2
2.6
min.
100/38
3.4
2.7
2.4
HEAD PRESSURE
70/21
80/27
90/32
206
220
225
14.5
15.5
15.8
225
249
270
15.8
17.5
19.0
248
272
293
17.5
19.1
20.6
PSIG kg/cm2G
100/38
229
16.1
275
19.4
315
22.1
SUCTION PRESSURE
70/21
80/27
90/32
36
37
38
2.5
2.6
2.7
38
40
42
2.7
2.8
3.0
41
44
46
2.9
3.1
3.2
PSIG kg/cm2G
100/38
39
2.7
43
3.0
49
3.4
TOTAL HEAT OF REJECTION FROM CONDENSER
14,100 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
TOTAL HEAT OF REJECTION FROM COMPRESSOR
CONDENSER VOLUME
2,200 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
121 CU. IN (URC-9F)
Note:
ꢀ. Pressure data is recorded at 5 minutes into freeze cycle. The data not in bold
should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
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IV. Service Diagnosis
WARNING
ꢀ. This unit should be diagnosed and repaired only by qualified service
personnel to reduce the risk of death, electric shock, serious injury, or fire.
ꢁ. Risk of electric shock. Use extreme caution and exercise safe electrical
practices.
3. Moving parts (e.g., fan blade) can crush and cut. Keep hands clear.
4. CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews
are securely in place after the unit is serviced. Make sure that none have
fallen into the storage bin.
5. Make sure all food zones in the icemaker and storage bin are clean after
the unit is serviced. For cleaning procedures, see "VI. Cleaning and
Maintenance."
A. Diagnostic Procedure
The diagnostic procedure is basically a sequence check which can be used at unit
startup or for system diagnosis. This procedure allows you to diagnose electrical system
and component failures. Before conducting the diagnostic procedure, check for correct
installation, proper voltage per unit nameplate, and adequate water supply. Check
CB using the steps in "IV.B. Control Board Check." Check the dip switch settings to
assure that S4 dip switch 3, 4, 7, 8, 9, & ꢀ0 and S5 dip switch ꢀ through 5 ("G" CB) are
in the factory default position. S4 dip switch ꢀ, ꢁ, 5, & 6 are cleaning adjustments and
the settings are flexible. For factory default settings, see "II.C.3.a) Default Dip Switch
Settings." As you go through the procedure, check to assure the components energize
and de-energize correctly. If not, those components and controls are suspect.
ꢀ) Turn off the power supply, then access the control box. Clear any ice from TBC or
MBC.
ꢁ) Turn on the power supply, then move the control switch to the "ICE" position. A
5-second delay occurs. The red "POWER OK" LED on CB comes on. On "G" CB,
the green "BC CLOSED" LED also comes on. If the yellow "BC OPEN" LED is on
(indicating a full bin), check MBC. See "IV.C.ꢁ.a) Mechanical Bin Control Check."
WARNING
ꢀ. Risk of electric shock. Use extreme caution and exercise safe electrical
practices.
ꢁ. Moving parts (e.g., fan blade) can crush and cut. Keep hands clear.
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3) 1-Minute Fill Cycle – LED 4 is on. WV energizes. After ꢀ minute, CB checks for a
closed F/S. If F/S is closed, the harvest cycle begins. If closed, continue to step 4. If
open, WV remains energized through additional ꢀ-minute fill cycles until water fills the
tank and closes F/S (low water safety). Diagnosis: If WV does not open, check the
supply voltage at WV terminals, check continuity on the coil, confirm the screen or
external filter is not plugged (no water flow). If unit fails to start harvest, check for open
F/S or bad ꢀ-minute timer in CB. See "IV.D. Float Switch Check and Cleaning" and "IV.
B. Control Board Check."
4) Initial Harvest Cycle – LEDs 1, 4, and 2 are on. WV remains energized, Comp, FMR,
HGV energize. CB monitors the warming of the evaporator via the thermistor located
on the suction line. When the thermistor reaches 48°F (9°C), CB reads a 3.9 kΩ signal
from the thermistor and turns harvest termination over to the harvest timer (S4 dip
switch ꢀ & ꢁ). The harvest timer has settings of 60, 90, ꢀꢁ0, and ꢀ80 seconds. For
details, see "II.C.3.b) Harvest Timer (S4 dip switch ꢀ & ꢁ)." When the harvest timer
expires, the harvest cycle is complete. CB checks the position of F/S and proceeds to
the next cycle if it is closed or calls for a ꢀ-minute fill cycle if it is open. The minimum
total time allowed by CB for a complete harvest cycle is ꢁ minutes.
"E" CB: WV is energized during harvest for a maximum of 6 minutes or the length of
harvest, whichever is shorter.
"G" CB: WV is energized during harvest for a maximum of 6 minutes or the length
of harvest minus 0 or 50 seconds (harvest pump timer (S4 dip switch 7)),
whichever is shorter. LED 4 goes off when WV de-energizes. LED 3 comes
on and PM energizes and runs for the last 0 or 50 seconds of harvest
depending on S4 dip switch 7 setting. CAUTION! Do not adjust S4 dip
switch 7 out of the factory default position on this model. This dip
switch must be left in the factory default position or this unit will not
operate correctly. For details, see "II.C.3.e) Bin Control Selector/Harvest
Pump Timer (S4 Dip Switch 7)."
Diagnosis: Check if Comp is running, HGV and WV still energized. Average harvest
cycle at factory setting is ꢁ to 3 minutes. How long does initial harvest last? ꢀ.5 minutes
after initial harvest begins, touch Comp discharge line. Is it hot? If not, check refrigerant
pressures and Comp operation. If it is hot, touch the inlet line to the evaporator. Is it
hot? If it is hot and the freeze cycle is not starting, check the harvest timer adjustment
(S4 dip switch ꢀ & ꢁ), the thermistor for open circuit, the discharge line temperature,
Comp efficiency, and if HGV is fully open. For a thermistor check, see "IV.E. Thermistor
Check." If ꢀ-minute fill cycle starts after harvest, check that F/S is clean and operating
properly, see "IV.D. Float Switch Check and Cleaning." Make sure PM does not come
on last 50 seconds of harvest. For details, see "II.C.3.e) Bin Control Selector/Harvest
Pump Timer (S4 Dip Switch 7)."
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5) Freeze Cycle – LED 1 is on. Comp and FMR remain energized, PM, LLV, and
FM energize. WV and HGV de-energize. The unit is held in freeze by a 5-minute
short cycle protection timer (CB will not accept a signal from F/S). After the
5-minute short cycle protection timer expires, CB turns freeze termination over to
F/S. Diagnosis: During the first 5 minutes of freeze, confirm that the evaporator
temperature drops. After 5 minutes in freeze, disconnect black F/S connector from
CB BLACK K5 connector. If the evaporator is not cold, check to see if HGV is still
open or if TXV is not opening properly, if WV is continuing to fill the reservoir, if there
are improper unit pressures, an inoperative Comp, or an inoperative HM. The unit
should switch out of the freeze cycle ("G" CB - ꢀ5 second delay after F/S opens before
terminating the freeze cycle). If the unit switches out of freeze with F/S removed, but
would previously not switch out of freeze with F/S connected (long freeze - 3 beep
alarm), F/S may be sticking. To check and clean F/S, see "IV.D. Float Switch Check
and Cleaning." If the unit remains in freeze (longer than ꢀ5 seconds on "G" CB)
after disconnecting the black F/S connector, replace CB. See "V.P. Removal and
Replacement of Control Board."
Note: Normal freeze cycle will last ꢁ0 to 40 minutes depending on model and
conditions. Cycle times and pressures should follow performance data provided
in this manual. See "III.C. Performance Data."
6) Pump-Out Cycle – (10/20 second pump-out) – LEDs 1, 3, and 2 are on. LED 4 is
on when S4 dip switch 3 & 4 are set to 3 off and 4 on. Comp and FMR remain
energized, HGV energizes. WV energizes if S4 dip switch 3 off and 4 on. LLV and
FM de-energize. PM stops for ꢁ seconds, then reverses for ꢀ0/ꢁ0 seconds depending
on pump-out timer S4 dip switch 3 & 4 setting. When the pump-out timer expires, the
pump-out is complete. The pump-out frequency control is factory set for every ꢀ0th
cycle, and generally no adjustment is required. However, where water quality is bad
and the icemaker needs a pump-out more often, the pump-out frequency can be
adjusted. The pump-out frequency control (S4 dip switch 5 & 6) can be set to have
a pump-out occur every cycle, or every ꢁ, 5, or ꢀ0 cycles. For details, see "II.C.3.d)
Pump-Out Frequency Control (S4 dip switch 5 & 6)."
Timing of the first pump-out is dependent on CB. "E" CB first pump-out is after the first
freeze cycle. "G" CB first pump-out is determined by S4 dip switch 5 & 6. See the table
below.
"E" & "G" Control Board Settings
1st Pump-Out
S4 Dip Switch Setting
Pump-Out
Frequency
"E" Control Board
After ꢀst freeze cycle
"G" Control Board
No. 5
OFF
ON
No. 6
OFF
OFF
ON
Every cycle
Every ꢁ cycles
Every 5 cycles
Every ꢀ0 cycles
After ꢁnd freeze cycle
After 3rd freeze cycle
After 6th freeze cycle
After ꢀꢀth freeze cycle
OFF
ON
ON
Diagnosis: If PM does not reverse, check to see if S4 and S5 dip switch settings are in
the factory default position. Check PM circuit and capacitor, check #5 pin (DBu wire) on
CB Kꢀ ten-pin connector for voltage. If water does not pump out, check and clean the
check valve assembly and tubing.
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7) Normal Harvest Cycle – same as the initial harvest cycle – See "IV.A.4) Initial Harvest
Cycle."
8) Shutdown
a) Thermostatic Bin Control: Auxiliary Code T-0, U-0
When the unit is running hold ice in contact with the thermostatic bulb, TBC
switch opens within ꢀ0 seconds, shutting down the unit. TBC is factory set, and
generally no adjustment is required. However, adjustment may be needed in
some conditions, particularly at higher altitude locations. CAUTION! Do not
adjust S4 dip switch 7 out of the factory default position on this model.
This dip switch must be left in the factory default position or this unit
will not operate correctly. Diagnosis: See "IV.C.ꢀ. Thermostatic Bin Control
Check."
b) Mechanical Bin Control: Auxiliary Code U-1 and Later
See "IV.C.ꢁ.a) Mechanical Bin Control Check."
Legend: CB–control board; Comp–compressor; FM–fan motor; FMR–fan motor-remote;
F/S–float switch; HGV–hot gas valve; HM–headmaster (C.P.R.); LLV–liquid line
valve; MBC–mechanical bin control; PM–pump motor; TBC–thermostatic bin
control; TXV–thermostatic expansion valve; WV–inlet water valve
B. Control Board Check
Before replacing a control board that does not show a visible defect and that you
suspect is bad, always conduct the following check procedure. This procedure will help
you verify your diagnosis.
Alarm Reset: If the control board is in alarm (beeping), press the "ALARM RESET"
button on the control board with power on. Once reset, the unit starts at
the ꢀ-minute fill cycle. For audible alarm information, see "II.C.ꢁ.f) LED
Lights and Audible Alarm Safeties."
ꢀ) Check the dip switch settings to assure that S4 dip switch 3, 4, 7, 8, 9, & ꢀ0 and
S5 dip switch ꢀ through 5 ("G" control board) are in the factory default position. S4 dip
switch ꢀ, ꢁ, 5, & 6 are cleaning adjustments and the settings are flexible. For factory
default settings, see "II.C.3.a) Default Dip Switch Settings."
ꢁ) Move the control switch to the "ICE" position. If the red "POWER OK" LED is on, the
control voltage is good. If the "POWER OK" LED is off, check the control transformer
secondary circuit. The control transformer secondary circuit includes the cleaning valve
interlock switch. Make sure the interlock switch is closed; otherwise, no control voltage
is supplied to the Kꢁ connector. Transformer output is ꢀ0.5V at ꢀꢀ5V primary input. If
the secondary circuit has proper voltage and the red LED is off, the control board is
bad and should be replaced. See "V.P. Removal and Replacement of Control Board."
If the secondary circuit does not have proper voltage, check the control transformer
primary circuit. Check for ꢀꢀ5V at the control board Kꢀ ten-pin connector. Check the
#ꢀ0 pin (BR wire) to a white neutral wire for ꢀꢀ5V. Always choose a white neutral wire
to establish a good neutral connection when checking voltages. For additional checks,
see "IV.F.ꢀ.[ꢀ] The icemaker will not start."
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3) The "OUTPUT TEST" button provides a relay sequence test. Make sure the control
switch is in the "ICE" position, then press the "OUTPUT TEST" button. For the correct
lighting sequence, see the table below. Note that the order of the LEDs from the outer
edge of the control board is ꢀ, 4, 3, ꢁ. Components (e.g., compressor) cycle during the
test.
Control
Correct LED
Board Lighting Sequence
"E"
"G"
ꢁ, 3, 4, ꢀ
ꢀ, 4, 3, ꢁ
Following the test, the icemaker resumes operation. If the LEDs do not light as
described above, the control board is bad and should be replaced. See "V.P. Removal
and Replacement of Control Board."
4) To verify voltage output from the control board to the components, slide the control
board Kꢀ ten-pin connector out far enough to allow multimeter lead contact. With the
unit in the cycle to be tested, check output voltage from the corresponding pin on the
control board Kꢀ ten-pin connector to ground. If output voltage is not found and the
appropriate LED is on, the control board is bad and should be replaced. See "V.P.
Removal and Replacement of Control Board."
C. Bin Control Check
1. Thermostatic Bin Control Check: Auxiliary Code T-0, U-0
To check the thermostatic bin control, follow the steps below.
CAUTION
When the ambient temperature is below 45°F (7°C), the thermostatic bin
control switch opens and shuts down the icemaker even if the ice storage bin
is empty. When the thermostat is set in the prohibited range, the icemaker
operates continuously even if the ice storage bin is filled with ice. Setting in the
prohibited range may result in severe damage to the icemaker.
The thermostatic bin control is factory set, and generally no adjustment is required.
However, adjustment may be needed in some conditions, particularly at higher altitude
locations.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel, then remove the control box cover.
3) Disconnect the thermostatic bin control wires from the thermostatic bin control switch.
4) Clear any ice away from the thermostatic bulb, then hold your hand around the
thermostatic bulb to warm it up.
5) Check for continuity across the thermostatic bin control switch. If closed, continue to
step 6. If open, adjust or replace the thermostatic bin control.
6) With the multimeter test leads still in place, hold ice on the thermostatic bulb to lower
the temperature. Within ꢀ0 seconds, the thermostatic bin control switch should open
(no continuity). If it remains closed, adjust or replace the thermostatic bin control.
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2. Mechanical Bin Control Check and Cleaning: Auxiliary Code U-1 and Later
a) Mechanical Bin Control Check
To check the mechanical bin control switch, follow the steps below.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel, then move the control switch to the "OFF" position.
3) Remove the control box cover, then clear any ice away from the mechanical bin control.
4) Disconnect the red connector from the control board RED K4 connector.
5) Check for continuity across the wires of the red connector. See Fig. ꢀ. When the
actuator paddle is not engaged, the mechanical bin control switch is closed. If open,
check that the white harness connector is secured to the mechanical bin control switch
connector and that the actuator paddle is not sticking. Clean if necessary. See "IV.
C.ꢁ.b) Mechanical Bin Control Cleaning." See Fig. ꢀ. If the mechanical bin control
switch still reads open, replace the mechanical bin control.
6) Press the actuator paddle, check for continuity across the wires of the red connector.
When the actuator paddle is engaged, the mechanical bin control switch is open. If
closed, check that the actuator paddle is not restricted. Clean if necessary. See "IV.
C.ꢁ.b) Mechanical Bin Control Cleaning." If the mechanical bin control switch still reads
closed, replace the mechanical bin control.
7) Reconnect the red connector, then move the control switch to the "ICE" position. Turn
on the power supply.
8) Check that the green "BC CLOSED" LED on the control board is on.
9) Allow the unit to cycle on. Following the chart below, press and hold the actuator
paddle. The yellow "BC OPEN" LED should be on and the unit should shut
down according to the chart below. If it does not, replace the control board. See
"V.P. Removal and Replacement of Control Board."
Cycle at
Shutdown
Mechanical Bin
Control Activation
Fill Cycle
ꢀ5 seconds after activation.
Harvest Cycle
At the end of the harvest cycle, or up to ꢀ5 seconds into the freeze cycle if activated
at the end of the harvest cycle.
Freeze Cycle
ꢀ5 seconds after activation if activated at least ꢀ5 seconds before the 5-minute short
cycle protection timer expires. Otherwise, at the end of the next harvest cycle.
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b) Mechanical Bin Control Cleaning
Scale may build up on the mechanical bin control. Scale can cause the actuator paddle
and magnet to stick. In this case, the mechanical bin control should be cleaned.
WARNING
CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after the unit is serviced. Make sure that none have fallen into
the storage bin.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel and base cover, then move the control switch to the "OFF"
position.
3) Clear any ice away from the mechanical bin control.
4) Disconnect the mechanical bin control switch connector, then remove the mechanical
bin control assembly from the unit.
5) Remove the actuator paddle from the switch mount. See Fig. ꢀ.
6) Wipe down the mechanical bin control assembly with a mixture of ꢀ part of
recommended cleaner Hoshizaki "Scale Away" or "LIME-A-WAY" (Economics
Laboratory, Inc.) and ꢁ5 parts of warm water. Rinse the parts thoroughly with clean
water.
7) Reassemble the mechanical bin control assembly and replace it in its correct position.
Note: If the magnet was removed for cleaning, be sure to replace it in its correct
position.
8) Reconnect the mechanical bin control switch connector.
9) Move the control switch to the "ICE" position.
ꢀ0) Replace the base cover and front panel in their correct positions.
ꢀꢀ) Turn on the power supply to start the automatic icemaking process.
Red Connector
White Harness Connector
Mechanical Bin Control
Switch Connector
Mechanical Bin
Control Bracket
Switch Mount
Actuator
Paddle
Magnet
Fig. 1
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D. Float Switch Check and Cleaning
1. Float Switch Check
To check the float switch, follow the steps below.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel and move the control switch to the "OFF" position.
3) Remove the base cover, then disconnect one end of the pump tubing to drain the water
tank. See Fig. ꢁ. After the water tank has drained, reconnect the pump tubing.
4) Remove the control box cover.
5) Disconnect the black float switch connector
from the control board BLACK K5
connector.
Disconnect This
End of Pump
Tubing to Drain
Water Tank
6) Check for continuity across the float switch
leads. With the water tank empty, the float
switch should be open. If open, continue
to step 7. If closed, follow the steps in "IV.
D.ꢁ. Float Switch Cleaning." After cleaning
the float switch, check it again. Replace if
necessary.
7) Reconnect the black float switch connector,
then replace the control box cover in its
correct position.
Base Cover
Fig. 2
8) Move the control switch to the "ICE" position. Replace the front panel in its correct
position, then turn on the power supply. After ꢀ minute, the ꢀ-minute fill cycle should
end and the initial harvest cycle should begin. If the initial harvest cycle begins, the
float switch is good and the check is complete. If the initial harvest cycle does not
begin, continue to step 9.
9) Turn off the power supply.
ꢀ0) Remove the front panel.
ꢀꢀ) Move the control switch to the "OFF" position.
ꢀꢁ) Remove the control box cover.
ꢀ3) Disconnect the black float switch connector from the control board BLACK
K5 connector.
ꢀ4) Check for continuity across the float switch leads. With the water tank full, the float
switch should be closed. If the float switch is closed and the icemaker will not switch
from the ꢀ-minute fill cycle to the initial harvest cycle, replace the control board. See
"V.P. Removal and Replacement of Control Board."
If the float switch is open, confirm that the water tank is full. If the tank is not full, check
the water supply, water filters, and inlet water valve. If the tank is full, follow the steps in
"IV.D.ꢁ. Float Switch Cleaning." After cleaning the float switch, check it again. Replace
if necessary.
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2. Float Switch Cleaning
Depending on local water conditions, scale may build up on the float switch. Scale on
the switch can cause the float to stick. In this case, the float switch should be cleaned.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel, then move the control switch to the "OFF" position.
3) Remove the base cover, then disconnect one end of the pump tubing to drain the water
tank. See Fig. ꢁ. After the water tank has drained, reconnect the pump tubing.
4) Disconnect the vent tube and the flush tube from the top of the float switch, then
remove the float switch assembly and remove the float switch assembly and remove
the rubber boot from the bottom of the float switch assembly. See Fig. 3.
5) Remove the retainer rod from the bottom of the float switch housing, then remove the
float. Be careful not to bend the retainer rod excessively when removing it.
6) Wipe down the float switch housing, shaft, float, and retainer rod with a mixture of
ꢀ part of recommended cleaner Hoshizaki "Scale Away" or "LIME-A-WAY" (Economics
Laboratory, Inc.) and ꢁ5 parts of warm water. Clean the inside of the rubber boot and
hose with cleaning solution. Rinse the parts thoroughly with clean water.
7) Reassemble the float switch assembly and replace it and the rubber boot in their
correct positions. Reconnect the vent tube and the flush tube.
8) Move the control switch to the "ICE" position.
9) Replace the front panel in its correct position.
Vent
Flush
Shaft
Float Switch
Housing
Float
Retainer Rod
Rubber Boot
and Hose
Fig. 3
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E. Thermistor Check
To check thermistor resistance, follow the steps below.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel, then move the control switch to the "OFF" position.
3) Remove the control box cover.
4) Remove the thermistor. See "V.L. Removal and Replacement of Thermistor."
5) Immerse the thermistor sensor portion in a glass containing ice and water for ꢁ or
3 minutes.
6) Remove the white thermistor connector from the control board WHITE K3 connector
and check the resistance between thermistor leads. Normal reading is within 4.7 to
6.ꢁ kΩ. If outside the normal reading, replace the thermistor. If inside the normal
reading, continue to the next step.
7) Replace the thermistor in its correct position. See "V.L. Removal and Replacement of
Thermistor."
8) Reconnect the white thermistor connector to the control board WHITE K3 connector.
9) Replace the control box cover in its correct position, then turn on the power supply.
ꢀ0) Move the control switch to the "ICE" position.
ꢀꢀ) Once the harvest cycle starts, begin timing the harvest cycle.
ꢀꢁ) The harvest timer should expire and terminate the harvest cycle within ꢁ to 3 minutes.
If the harvest timer does not expire and terminate the harvest cycle, the harvest timer is
bad and the control board should be replaced. See "V.P. Removal and Replacement of
Control Board."
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F. Diagnostic Charts
1. No Ice Production
Problem
Possible Cause
Remedy
[ꢀ] The icemaker will not a) Power Supply
start.
ꢀ. Off, blown fuse, or
tripped breaker.
ꢀ. Turn on, replace, or reset.
ꢁ. Loose connection.
3. Bad contacts.
ꢁ. Tighten.
3. Check for continuity and
replace.
4. Not within
4. Refer to nameplate and
correct.
specifications.
b) Transformer (ꢀꢀ5V
primary) (3 phase only)
ꢀ. Voltage tap switch
does not match
ꢀ. Verify incoming voltage,
move switch to proper
setting.
incoming voltage.
ꢁ. Coil winding open or ꢁ. Replace.
shorted.
c) Water Supply
ꢀ. Water supply off or
pressure too low.
ꢀ. Check and get
recommended pressure.
d) Thermostatic Bin
Control
ꢀ. Tripped with bin filled ꢀ. Remove ice.
with ice.
ꢁ. Ambient temperature ꢁ. Increase ambient
too cool.
temperature.
3. Set too warm.
3. See "IV.C.ꢀ. Thermostatic
Bin Control Check."
4. Bulb out of position.
5. Bad contacts.
4. Place in position.
5. Check for continuity and
replace.
e) Fuse (Control Box)
f) Control Switch
ꢀ. Blown.
ꢀ. Check for short circuit and
replace.
ꢀ. "OFF" or "WASH"
position.
ꢀ. Move to "ICE" position.
ꢁ. Bad contacts.
ꢁ. Check for continuity and
replace.
g) High Pressure Control ꢀ. Bad contacts.
ꢀ. Check for continuity and
replace.
ꢁ. Dirty air filter or
condenser.
ꢁ. Clean.
3. Ambient or condenser 3. Reduce temperature.
water temperature too
warm.
4. Refrigerant
overcharged.
4. Recover, evacuate, and
recharge.
5. Fan not operating
(except water-cooled
model).
5. See chart ꢀ.[7].
6. Refrigerant lines or
6. Recover, repair, replace
components restricted. drier, evacuate and
recharge.
7. Condenser water
pressure too low or off
(water-cooled model).
7. Check and get
recommended pressure.
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Problem
Possible Cause
Remedy
[ꢀ] The icemaker will not h) Transformer
start. (continued)
ꢀ. Coil winding open or ꢀ. Replace.
shorted.
i) Wiring to Control Board ꢀ. Loose connections or ꢀ. Check for continuity and
open.
replace.
j) Interlock Switch
(Cleaning Valve)
ꢀ. Open position.
ꢁ. Bad contacts.
ꢀ. Move to closed position.
ꢁ. Check for continuity and
replace.
k) Mechanical Bin Control ꢀ. Movement restricted. ꢀ. Check and free.
ꢁ. Defective ꢁ. See "IV.C.ꢁ. Mechanical
Bin Control Check and
Cleaning."
l) Thermistor
ꢀ. Leads shorted or open ꢀ. See "IV.E. Thermistor
and high temperature
or harvest backup
timer safety operates
(ꢀ beep or ꢁ beep
alarm).
Check."
m)Hot Gas Valve
ꢀ. Continues to open
in freeze cycle and
freeze timer safety
operates (3 beep
alarm).
ꢀ. Check for hot gas valve
stuck open and replace.
n) Inlet Water Valve
ꢀ. Mesh filter or orifice
gets clogged and
water supply cycle
does not finish.
ꢀ. Clean.
ꢁ. Coil winding open.
ꢁ. Replace.
3. Wiring to inlet water
valve.
3. Check for loose connection
or open, and replace.
o) Float Switch
ꢀ. Bad contacts.
ꢀ. Check for continuity and
replace.
ꢁ. Defective switch.
ꢁ. Clean or replace. See "IV.
D. Float Switch Check and
Cleaning."
p) Control Board
a) Water Supply
b) Float Switch
ꢀ. Defective or in alarm. ꢀ. See "IV.B. Control Board
Check."
[ꢁ] Fill cycle will not
terminate.
ꢀ. Water supply off or
pressure too low.
ꢀ. Check and get
recommended pressure.
ꢀ. Connector
disconnected.
ꢀ. Reconnect.
ꢁ. Float does not move ꢁ. Clean or replace. See "IV.
freely or switch
defective switch.
D. Float Switch Check and
Cleaning."
c) Control Board
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
6ꢀ
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Problem
Possible Cause
Remedy
[3] Compressor will
not start or stops
operating.
a) Magnetic Contactor
ꢀ. Bad contacts.
ꢀ. Check for continuity and
replace.
ꢁ. Coil winding open.
ꢁ. Replace.
ꢀ. Replace.
b) Start Capacitor or Run ꢀ. Defective.
Capacitor
c) Internal Overload
Protector Open (check
ꢀ through 3 to the right
ꢀ. Loose terminal.
ꢀ. Tighten or replace.
ꢁ. Voltage.
ꢁ. Check and correct.
3. Clean.
and d through f below) 3. Dirty condenser.
d) Starter
ꢀ. Bad contacts.
ꢀ. Check and replace.
ꢁ. Replace.
ꢁ. Coil winding open.
e) Compressor
ꢀ. Power supply not
within specifications.
ꢀ. Refer to nameplate and
correct.
ꢁ. Wiring to compressor. ꢁ. Check for loose connection
or open, and replace.
3. Defective.
3. Replace.
4. Protector tripped.
4. Reduce temperature.
f) Control Board
ꢀ. No power to contactor. ꢀ. See "IV.B. Control Board
Check."
[4] Water continues to
be supplied in freeze
cycle.
a) Water Pressure
b) Inlet Water Valve
ꢀ. Too high.
ꢀ. Reduce.
ꢀ. Diaphragm does not ꢀ. Check for water leaks with
close.
icemaker off.
c) Control Board
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
[5] Pump motor will not a) Pump Motor
start.
ꢀ. Motor winding open. ꢀ. Replace.
ꢁ. Bearing worn out. ꢁ. Replace.
3. Wiring to pump motor. 3. Check for loose connection
or open, and replace.
4. Defective capacitor.
4. Replace.
5. Defective or bound
impeller.
5. Replace and clean.
6. Mechanical seal worn 6. Check and replace.
out.
b) Control Board
c) Control Switch
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
ꢀ. Bad contacts.
ꢀ. Replace.
[6] Freeze cycle time is a) Pump-Out Check Valve ꢀ. Leaking by.
too short.
ꢀ. Clean or replace.
b) Float Switch
ꢀ. Dirty or erratic
operation.
ꢀ. Clean or replace. See "IV.
D. Float Switch Check and
Cleaning."
c) Control Board
d) Water System
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
ꢀ. Water leaks.
ꢀ. Check connections for
water leaks and repair.
6ꢁ
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Problem
Possible Cause
Remedy
[7] Fan motor will
not start, or is not
operating (except
water-cooled model).
a) Fan Motor
ꢀ. Motor winding open. ꢀ. Replace.
ꢁ. Bearing worn out.
ꢁ. Replace.
3. Wiring to fan motor.
3. Check for loose connection
or open, and replace.
4. Defective capacitor.
5. Fan blade bound.
ꢀ. Defective.
4. Replace.
5. Check and replace.
b) Control Board
a) Refrigerant
ꢀ. See "IV.B. Control Board
Check."
[8] All components
run, but no ice is
produced.
ꢀ. Low charge.
ꢀ. Check for leaks. Recover,
repair, evacuate, and
recharge.
ꢁ. Air or moisture
trapped.
ꢁ. Recover, replace drier,
evacuate, and recharge.
b) Compressor
ꢀ. Defective.
ꢀ. Replace.
c) Hot Gas Valve
ꢀ. Continues to open in ꢀ. Check and replace.
freeze cycle.
d) Liquid Line Valve
(if applicable)
ꢀ. Continues to close in ꢀ. Check and replace.
freeze cycle.
e) Inlet Water Valve
ꢀ. Inlet water valve is
wide open during
freeze.
ꢀ. Check for water leaks with
icemaker off.
f) Expansion Valve
ꢀ. Bulb loose.
ꢀ. Secure bulb.
ꢁ. Operating erratically. ꢁ. Check and replace.
g) Headmaster (C.P.R.)
(remote condenser
unit)
ꢀ. Not operating properly ꢀ. Replace headmaster.
and liquid line
temperature too warm.
h) Water Supply Line
(water-cooled model)
ꢀ. Condenser water
pressure too low or
off and high pressure
control opens and
closes frequently.
ꢀ. Check and get
recommended pressure.
i) Water Regulating Valve ꢀ. Set too high.
(water-cooled model)
ꢀ. Adjust or replace. See
"V.J. Adjustment of Water
Regulating Valve."
2. Evaporator is Frozen Up
Problem
Possible Cause
Remedy
[ꢀ]Freeze cycle time is a) Inlet Water Valve
too long.
ꢀ. Diaphragm does not ꢀ. Check for water leaks with
close.
icemaker off.
b) Float Switch
ꢀ. Float does not move ꢀ. Clean or replace. See "IV.
freely or defective
switch.
D. Float Switch Check and
Cleaning."
c) Evaporator
d) Spray Tubes
e) Pump Motor
ꢀ. Scaled up.
ꢁ. Damaged.
ꢀ. Dirty.
ꢀ. Clean.
ꢁ. Replace.
ꢀ. Clean.
ꢁ. Out of position.
ꢀ. RPM too slow.
ꢁ. Place in position.
ꢀ. See chart ꢀ.[5].
63
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Problem
Possible Cause
Remedy
[ꢀ]Freeze cycle time is f) Thermistor
too long. (continued)
ꢀ. Disconnected, loose, ꢀ. Connect, secure, check.
or defective.
ꢀ. Low charge.
ꢀ. Bulb loose.
See "V.L. Removal
and Replacement of
Thermistor."
g) Refrigerant
ꢀ. Check for leaks. Recover,
repair, evacuate, and
recharge.
h) Expansion Valve
ꢀ. Secure bulb.
ꢁ. Operating erratically. ꢁ. Check and replace.
i) Control Board
a) Evaporator
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
[ꢁ]All ice formed on
evaporator does not
fall into bin in harvest
cycle.
ꢀ. Scaled up.
ꢁ. Damaged.
ꢀ. Clean.
ꢁ. Replace.
b) Ambient and/or Water ꢀ. Too cool.
Temperature
ꢀ. Increase temperature.
c) Water Supply Line
ꢀ. Water pressure too
ꢀ. Check and get
low.
recommended pressure.
d) Water System
ꢀ. Water supply line
too small; requires
3/8" OD line dedicated
per machine.
ꢀ. Increase water line size.
ꢁ. Water filter clogged or ꢁ. Replace filter or install a
flow rate too small.
higher flow rate filter.
e) Inlet Water Valve
ꢀ. Dirty mesh filter or
orifice.
ꢀ. Clean.
ꢁ. Diaphragm does not ꢁ. Check for water leaks with
close.
icemaker off.
ꢀ. Clean.
ꢁ. Place in position.
f) Spray Tubes
g) Thermistor
ꢀ. Dirty.
ꢁ. Out of position.
ꢀ. Disconnected, loose, ꢀ. Connect, secure, check.
or defective.
See "V.L. Removal
and Replacement of
Thermistor."
h) Hot Gas Valve
ꢀ. Coil winding open.
ꢀ. Replace.
ꢁ. Replace.
ꢁ. Plunger does not
move.
3. Wiring to hot gas
valve.
3. Check for loose
connection or open, and
replace.
i) Expansion Valve
ꢀ. Bulb loose.
ꢀ. Secure bulb.
ꢁ. Operating erratically. ꢁ. Check and replace.
j) Liquid Line Valve
(if applicable)
ꢀ. Continues to open in ꢀ. Check operation in harvest
harvest cycle.
cycle and replace.
k) Control Board
ꢀ. Harvest timer is set
too short.
ꢀ. Adjust longer, referring to
"II.C.3.b) Harvest Timer
(S4 dip switch ꢀ & ꢁ)."
ꢁ. Defective.
ꢁ. See "IV.B. Control Board
Check."
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Problem
Possible Cause
Remedy
[ꢁ]All ice formed on
evaporator does not
fall into bin in harvest
cycle. (continued)
l) Refrigerant
ꢀ. Low charge.
ꢀ. Check for leaks. Recover,
repair, evacuate, and
recharge.
m)Water Regulating Valve ꢀ. Leaking by in harvest. ꢀ. Check and replace.
(water-cooled model)
[3]Other.
a) Ice Cube Guide
ꢀ. Out of position.
ꢀ. Bulb out of position.
ꢁ. Bad contacts.
ꢀ. Place in position.
ꢀ. Place in position.
b) Thermostatic Bin
Control
ꢁ. Check for continuity and
replace. See "IV.C.ꢀ.
Thermostatic Bin Control
Check."
c) Mechanical Bin Control ꢀ. Movement restricted. ꢀ. Check and free.
ꢁ. Defective. ꢁ. See "IV.C.ꢁ. Mechanical
Bin Control Check and
Cleaning."
3. Low Ice Production
Problem
Possible Cause
Remedy
[ꢀ] Freeze cycle time is a) Inlet Water Valve
long.
ꢀ. Diaphragm does not ꢀ. Check for water leaks with
close. icemaker off.
ꢀ. Float switch does not ꢀ. Clean or replace. See "IV.
b) Float Switch
move freely or switch
defective.
D. Float Switch Check and
Cleaning."
c) Evaporator
d) Spray Tubes
e) Pump Motor
ꢀ. Scaled up.
ꢁ. Damaged.
ꢀ. Dirty.
ꢀ. Clean.
ꢁ. Replace.
ꢀ. Clean.
ꢁ. Out of position.
ꢀ. RPM too slow.
ꢁ. Place in position.
ꢀ. See chart ꢀ.[5].
f) Condenser (except
water-cooled model)
ꢀ. Air filter or condenser ꢀ. Clean.
clogged.
g) Refrigerant Charge
ꢀ. Low charge.
ꢀ. Check for leaks. Recover,
repair, evacuate, and
recharge.
h) Hot Gas Valve
ꢀ. Open.
ꢀ. Check and replace.
ꢀ. Secure bulb.
i) Expansion Valve
ꢀ. Bulb loose.
ꢁ. Operating erratically. ꢁ. Check and replace.
ꢀ. Erratic or off. ꢀ. See chart ꢀ.[3].
ꢀ. Water regulating valve ꢀ. Adjust or replace. See
j) Compressor
k) Condenser Water
(water-cooled model)
set too high.
"V.J. Adjustment of Water
Regulating Valve."
ꢁ. Condenser water
pressure too low.
ꢁ. Check and get
recommended pressure.
3. Water temperature out 3. Correct to specification.
of specification.
l) Liquid Line Valve
ꢀ. Erratic, sticking.
ꢀ. Bypassing.
ꢀ. Check and replace.
ꢀ. Replace.
m)Headmaster (C.P.R.)
(remote condenser
unit)
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Problem
Possible Cause
Remedy
[ꢀ] Freeze cycle time is n) Control Board
long. (continued)
ꢀ. Float switch
ꢀ. Check and reconnect.
connection loose (K5).
ꢁ. Defective.
ꢁ. See "IV.B. Control Board
Check."
[ꢁ] Harvest cycle time is a) Water Supply
long.
ꢀ. Water temperature too ꢀ. Increase temperature.
cold.
b) Thermistor
ꢀ. Disconnected, loose, ꢀ. Connect, secure, check.
or defective.
See "V.L. Removal
and Replacement of
Thermistor" and "IV.E.
Thermistor Check."
c) Control Board
ꢀ. Not reading
thermistor.
ꢀ. Check and replace. See
"IV.E. Thermistor Check."
ꢁ. Sending voltage to
liquid line valve (if
ꢁ. Check and replace. See
"IV.B. Control Board
Check."
applicable) in harvest.
d) Inlet Water Valve
e) Evaporator
ꢀ. Clogged.
ꢀ. Scaled up.
ꢁ. Damaged.
ꢀ. Clean or replace.
ꢀ. Clean.
ꢁ. Replace.
f) Hot Gas Valve
ꢀ. Does not open, or
opens partially.
ꢀ. Check and replace.
g) Expansion Valve
ꢀ. Wide open in harvest. ꢀ. Check and replace.
ꢁ. Bulb loose. ꢁ. Secure bulb.
h) Water Regulating Valve ꢀ. Open during harvest. ꢀ. Adjust or replace. See
(water-cooled model)
"V.J. Adjustment of Water
Regulating Valve."
i) Liquid Line Valve (if
applicable)
ꢀ. Open during harvest ꢀ. Check and replace.
cycle.
4. Abnormal Ice
Problem
Possible Cause
Remedy
[ꢀ] Small cubes.
a)Pump-Out Check Valve ꢀ. Dirty or worn and
leaking by.
ꢀ. Clean or replace.
b)Ice Cube Guide
ꢀ. Out of position.
Circulated water falls
into bin.
ꢀ. Place in position.
c) Water System
ꢀ. Water supply line too ꢀ. Increase water line size.
small; requires 3/8"
OD line dedicated per
machine.
ꢁ. Water filter clogged or ꢁ. Replace filter or install a
flow rate too small.
higher flow rate filter.
d)Inlet Water Valve
ꢀ. Dirty mesh filter or
orifice.
ꢀ. Clean.
e)Pump Motor
ꢀ. RPM too slow.
ꢀ. Defective.
ꢀ. See chart ꢀ.[5].
f) Control Board
ꢀ. See "IV.B. Control Board
Check."
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Problem
Possible Cause
Remedy
[ꢁ] Cloudy or irregular
cubes.
a)Evaporator
ꢀ. Frozen up.
ꢁ. Scaled up.
3. Damaged.
ꢀ. See chart ꢁ.
ꢁ. Clean
3. Replace.
b)Water System
ꢀ. Water supply line too ꢀ. Increase water line size.
small; requires 3/8"
OD line dedicated per
machine.
ꢁ. Water filter clogged or ꢁ. Replace filter or install a
flow rate too small.
higher flow rate filter.
3. High hardness or
contains impurities.
3. Install a water softener or
filter.
c) Spray Guide
ꢀ. Dirty.
ꢀ. Clean.
5. Other
Problem
Possible Cause
Remedy
[ꢀ]Icemaker will not stop a)Thermostatic Bin
ꢀ. Set too cold.
ꢁ. Defective.
ꢀ. See "IV.C.ꢀ. Thermostatic
Bin Control Check."
when bin is filled with
ice.
Control
ꢁ. Replace.
b)Mechanical Bin Control ꢀ. Movement restricted. ꢀ. Check and free.
ꢁ. Loose connection.
3. Defective
ꢁ. Check and reconnect.
3. See "IV.C.ꢁ. Mechanical
Bin Control Check and
Cleaning."
c) Control Board ("G"
control board with
ꢀ. Defective.
ꢀ. See "IV.B. Control Board
Check."
mechanical bin control)
[ꢁ] Abnormal noise.
a)Pump Motor
ꢀ. Bearings worn out.
ꢀ. Bearings worn out.
ꢀ. Replace.
ꢀ. Replace.
b)Fan Motor (except
water-cooled model)
ꢁ. Fan blade deformed. ꢁ. Replace.
3. Fan blade does not
move freely.
3. Replace.
c) Compressor
ꢀ. Bearings worn out or ꢀ. Replace.
cylinder valve broken.
ꢁ. Mounting pad out of
position.
ꢁ. Reinstall.
d)Refrigerant Lines
ꢀ. Rub or touch other
lines or surfaces.
ꢀ. Reposition.
[3]Ice in storage bin
often melts.
a)Drain Line(s)
ꢀ. Plugged.
ꢀ. Clean.
b)Icemaker and Bin
ꢀ. Drains not run
separately.
ꢀ. Separate the drain lines.
c) Ice Cube Guide
ꢀ. Out of position.
Circulated water falls
into bin.
ꢀ. Place in position.
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V. Removal and Replacement of Components
WARNING
ꢀ. This unit should be diagnosed and repaired only by qualified service
personnel to reduce the risk of death, electric shock, serious injury, or fire.
ꢁ. Move the control switch to the "OFF" position and turn off the power supply
before servicing.
3. CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews
are securely in place after the unit is serviced. Make sure that none have
fallen into the storage bin.
4. Make sure all food zones in the icemaker and storage bin are clean after
the unit is serviced. For cleaning procedures, see "VI. Cleaning and
Maintenance."
A. Service for Refrigerant Lines
WARNING
ꢀ. Repairs requiring the refrigeration circuit to be opened must be performed by
properly trained and EPA-certified service personnel.
ꢁ. Always recover the refrigerant and store it in an approved container. Do not
discharge the refrigerant into the atmosphere.
3. Use an electronic leak detector or soap bubbles to check for leaks. Add a
trace of refrigerant to the system (if using an electronic leak detector), and
then raise the pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A
as a mixture with pressurized air for leak testing.
CAUTION
ꢀ. Do not leave the system open for longer than ꢀ5 minutes when replacing or
servicing parts. The Polyol Ester (POE) oils used in R-404A units can absorb
moisture quickly. Therefore it is important to prevent moisture from entering
the system when replacing or servicing parts.
ꢁ. Always install a new drier every time the sealed refrigeration system is
opened.
3. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
4. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
1. Refrigerant Recovery
The icemaker unit is provided with refrigerant access valves. Using proper refrigerant
practices, recover the refrigerant from the access valves and store it in an approved
container. Do not discharge the refrigerant into the atmosphere.
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2. Brazing
WARNING
ꢀ. R-404A itself is not flammable at atmospheric pressure and temperatures up
to ꢀ76°F (80°C).
ꢁ. R-404A itself is not explosive or poisonous. However, when exposed to
high temperatures (open flames), R-404A can be decomposed to form
hydrofluoric acid and carbonyl fluoride both of which are hazardous.
3. Do not use silver alloy or copper alloy containing arsenic.
4. Use an electronic leak detector or soap bubbles to check for leaks. Add a
trace of refrigerant to the system (if using an electronic leak detector), and
then raise the pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A
as a mixture with pressurized air for leak testing.
ꢀ) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
Note: Because the pipes in the evaporator case are specially coated to resist corrosion,
it is important to make connections outside the evaporator case when possible. If
it is necessary to braze inside the evaporator case, use sandpaper to remove the
coating from the brazing connections before unbrazing the components.
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢁ) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
3. Evacuation and Recharge (R-404A)
ꢀ) Attach a vacuum pump to the system. Be sure to connect the charging hoses to both
high and low-side access valves.
IMPORTANT
The vacuum level and vacuum pump may be the same as those for current
refrigerants. However, the rubber hose and gauge manifold to be used for
evacuation and refrigerant charge should be exclusively for POE oils.
ꢁ) Turn on the vacuum pump. Open the gauge manifold valves. Never allow the oil in the
vacuum pump to flow backwards.
3) Allow the vacuum pump to pull down to a ꢁ9.9" Hg vacuum. Evacuating period depends
on pump capacity.
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4) Close the low-side valve and high-side valve on the gauge manifold.
5) Disconnect the gauge manifold hose from the vacuum pump and attach it to a
refrigerant service cylinder. Remember to loosen the connection and purge the air from
the hose. For air-cooled and water-cooled models, see the nameplate for the required
refrigerant charge. For remote air-cooled models, see the rating label inside the
icemaker. Hoshizaki recommends only virgin refrigerant or reclaimed refrigerant which
meets ARI Standard 700 (latest edition) be used.
6) A liquid charge is recommended for charging an R-404A system. Invert the service
cylinder and place it on scales. Open the high-side valve on the gauge manifold.
7) Allow the system to charge with liquid until the proper charge weight is met.
8) If necessary, add any remaining charge to the system through the low-side. Use a
throttling valve or liquid dispensing device to add the remaining liquid charge through
the low-side access valve with the unit running.
9) Close the gauge manifold valves and disconnect the gauge manifold hoses.
ꢀ0) Cap the access valves to prevent a possible leak.
B. Removal and Replacement of Compressor
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
Note: When replacing a compressor with a defective winding, be sure to install the
new start capacitor and start relay supplied with the replacement compressor.
Due to the ability of the POE oil in the compressor to absorb moisture quickly,
the compressor must not be opened more than ꢀ5 minutes for replacement or
service. Do not mix lubricants of different compressors even if both are charged
with R-404A, except when they use the same lubricant.
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Recover the refrigerant and store it in an approved container.
4) Remove the terminal cover on the compressor and disconnect the compressor wiring.
On remote air-cooled models, disconnect the crankcase heater.
5) Remove the discharge, suction, and process pipes.
6) Remove the hold-down bolts, washers, and rubber grommets.
7) Remove the compressor. Unpack the new compressor package.
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8) Attach the rubber grommets of the prior compressor to the new compressor.
9) Place the compressor in position and secure it using the bolts and washers.
ꢀ0) Remove the drier, then place the new drier in position.
ꢀꢀ) Remove the plugs from the suction, discharge, and process pipes.
ꢀꢁ) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀ3) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀ4) Evacuate the system and charge it with refrigerant. For air-cooled and water-cooled
models, see the nameplate for the required refrigerant charge. For remote air-cooled
models, see the rating label inside the icemaker.
ꢀ5) Connect the terminals and replace the terminal cover in its correct position. On remote
air-cooled models, connect the crankcase heater.
ꢀ6) Replace the panels in their correct positions.
ꢀ7) Turn on the power supply.
C. Removal and Replacement of Expansion Valve
Moisture in the refrigeration circuit may exceed drier capacity and freeze up at the
expansion valve.
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the valve body and drier by using wet cloths to
prevent the valve body and drier from overheating. Do not allow the valve
body or drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Recover the refrigerant and store it in an approved container.
4) Remove the insulation and the expansion valve bulb on the suction line.
5) Remove the expansion valve cover and disconnect the expansion valve. Place the new
expansion valve in position.
6) Remove the drier, then place the new drier in position.
7) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
7ꢀ
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8) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
9) Evacuate the system, and charge it with refrigerant. For air-cooled and water-cooled
models, see the nameplate for the required refrigerant charge. For remote air-cooled
models, see the rating label inside the icemaker.
ꢀ0) Attach the expansion valve bulb to the suction line in the same location as the previous
bulb. The bulb should be between the ꢀ0 and ꢁ o'clock position on the tube. Be sure to
secure the bulb with the clamp and holder and to insulate it.
ꢀꢀ) Place the expansion valve cover in position.
ꢀꢁ) Replace the panels in their correct positions.
ꢀ3) Turn on the power supply.
D. Removal and Replacement of Hot Gas Valve or Liquid Line Valve
CAUTION
ꢀ. Always use a copper tube of the same diameter and length when replacing
the valve lines; otherwise, performance may be affected.
ꢁ. Always replace the strainer when replacing the hot gas valve.
3. Always install a new drier every time the sealed refrigeration system is
opened.
4. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
5. When brazing, protect the valve body and drier by using wet cloths to
prevent the valve body and drier from overheating. Do not allow the valve
body or drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Recover the refrigerant and store it in an approved container.
4) Remove the bolt and the solenoid.
5) Disconnect the valve. If replacing the hot gas valve, also remove the strainer.
6) Place the new valve and strainer (if applicable) in position.
7) Remove the drier, then place the new drier in position.
8) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
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ꢀ0) Evacuate the system, and charge it with refrigerant. For air-cooled and water-cooled
models, see the nameplate for the required refrigerant charge. For remote air-cooled
models, see the rating label inside the icemaker.
ꢀꢀ) Replace the solenoid in its correct position.
ꢀꢁ) Replace the panels in their correct positions.
ꢀ3) Turn on the power supply.
E. Removal and Replacement of Evaporator
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels and the front and top insulation.
3) Recover the refrigerant and store it in an approved container.
4) Remove the spray tubes. Remove the insulation at the notch where the refrigeration
tubing passes through the molded chassis.
5) Disconnect the evaporator tubing.
Note: The pipes in the evaporator case are specially coated to resist corrosion. Use
sandpaper to remove the coating from the brazing connections before unbrazing.
6) Remove the pop rivets securing the evaporator, then lift out the evaporator.
7) Install the new evaporator.
8) Remove the drier, then place the new drier in position.
9) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀ0) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀꢀ) Evacuate the system, and charge it with refrigerant. For air-cooled and water-cooled
models, see the nameplate for the required refrigerant charge. For remote air-cooled
models, see the rating label inside the icemaker.
ꢀꢁ) Replace the removed parts in the reverse order of which they were removed.
ꢀ3) Replace the top insulation and the panels in their correct positions.
ꢀ4) Turn on the power supply.
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F. Removal and Replacement of Air-Cooled Condenser
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Recover the refrigerant and store it in an approved container.
4) Disconnect the fan motor wiring harness. Remove the bolts securing the fan motor
assembly to the floor of the machine, then remove the assembly.
5) Disconnect the condenser inlet and outlet piping.
6) Remove the screws securing the condenser assembly, then remove the assembly.
7) Remove the shroud from the old condenser and attach it to the new condenser.
8) Install the new condenser.
9) Remove the drier, then place the new drier in position.
ꢀ0) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀꢀ) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀꢁ) Evacuate the system, and charge it with refrigerant. See the nameplate for the required
refrigerant charge.
ꢀ3) Replace the removed parts in the reverse order of which they were removed.
ꢀ4) Replace the panels in their correct positions.
ꢀ5) Turn on the power supply.
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G. Removal and Replacement of Water-Cooled Condenser
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Close the condenser water supply line shut-off valve. If connected to a closed loop
water supply, also close the condenser return outlet shut-off valve.
4) Open the condenser water supply line drain valve. If connected to a closed loop water
supply, also open the condenser return outlet drain valve.
5) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
6) Open the water regulating valve by using a screwdriver to pry up on the spring retainer
underneath the spring. While holding the valve open, blow out the condenser using the
compressed air or carbon dioxide supply until water stops coming out.
7) Recover the refrigerant and store it in an approved container.
8) Disconnect the condenser water inlet and outlet piping and the refrigeration inlet and
outlet piping at the condenser.
9) Remove the old condenser and install the new condenser.
ꢀ0) Remove the drier, then place the new drier in position.
ꢀꢀ) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀꢁ) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀ3) Evacuate the system, and charge it with refrigerant. See the nameplate for the required
refrigerant charge.
ꢀ4) Close the drain valve(s). Open the condenser water supply line shut-off valve. If
connected to a closed loop water supply, also open the condenser return outlet shut-off
valve.
ꢀ5) Check for water leaks.
ꢀ6) Replace the panels in their correct positions.
ꢀ7) Turn on the power supply.
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H. Removal and Replacement of Remote Air-Cooled Condenser
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the icemaker panels.
3) Recover the refrigerant and store it in an approved container.
4) Remove the condenser unit panels.
5) Disconnect the condenser inlet and outlet piping.
6) Remove the screws securing the condenser to the base of the unit, then remove the
condenser.
7) Remove the shroud from the condenser and attach to the new condenser.
8) Install the new condenser.
9) Remove the drier (located in the icemaker), then place the new drier in position.
ꢀ0) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀꢀ) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀꢁ) Evacuate the system, and charge it with refrigerant. See the rating label inside the
icemaker for the required refrigerant charge.
ꢀ3) Replace the panels in their correct positions.
ꢀ4) Turn on the power supply.
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I. Removal and Replacement of Water Regulating Valve (water-cooled
model)
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Close the condenser water supply line shut-off valve. If connected to a closed loop
water supply, also close the condenser return outlet shut-off valve.
4) Open the condenser water supply line drain valve. If connected to a closed loop water
supply, also open the condenser return outlet drain valve.
5) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
6) Open the water regulating valve by using a screwdriver to pry up on the spring retainer
underneath the spring. While holding the valve open, blow out the condenser using the
compressed air or carbon dioxide supply until water stops coming out.
7) Recover the refrigerant and store it in an approved container.
8) Disconnect the capillary tube at the condenser outlet.
9) Disconnect the flare-connections of the valve.
ꢀ0) Remove the screws and the valve from the bracket.
ꢀꢀ) Install the new valve.
ꢀꢁ) Remove the drier, then place the new drier in position.
ꢀ3) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀ4) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀ5) Evacuate the system, and charge it with refrigerant. See the nameplate for the required
refrigerant charge.
ꢀ6) Connect the flare-connections.
ꢀ7) Close the drain valve(s). Open the condenser water supply line shut-off valve. If
connected to a closed loop water supply, also open the condenser return outlet shut-off
valve.
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ꢀ8) Check for water leaks.
ꢀ9) Replace the panels in their correct positions.
ꢁ0) Turn on the power supply.
J. Adjustment of Water Regulating Valve (water-cooled model)
The water regulating valve (also called "water regulator") is factory set, and generally no
adjustment is required. However, when necessary, adjust the water regulator using the
following procedures.
ꢀ) Prepare a thermometer to check the condenser drain temperature. Attach a pressure
gauge to the high-side line of the system.
Adjustment Screw
ꢁ) Five minutes after a freeze cycle starts,
confirm that the thermometer reads ꢀ04°F
CW – Higher
to ꢀꢀ5°F (40°C to 46°C). If it does not,
CCW – Lower
rotate the adjustment screw by using a flat
Top View
blade screwdriver until the temperature
is in the proper range. See Fig. 4. Next,
check that the reference pressure is in the
range indicated in the Head Pressure table
in the Performance Data section. If it is not
in the proper range, verify the refrigerant
charge.
Fig. 4
3) Check that the condenser drain temperature is stable.
K. Removal and Replacement of Headmaster (Condensing Pressure
Regulator - C.P.R.) (remote air-cooled model)
CAUTION
ꢀ. Always install a new drier every time the sealed refrigeration system is
opened.
ꢁ. Do not replace the drier until after all other repair or replacement has been
made. Install the new drier with the arrow on the drier in the direction of the
refrigerant flow.
3. When brazing, protect the headmaster and drier by using wet cloths to
prevent the headmaster and drier from overheating. Do not allow the
headmaster or drier to exceed ꢁ50°F (ꢀꢁꢀ°C).
ꢀ) Turn off the power supply.
ꢁ) Remove the panels from the remote condenser unit.
3) Recover the refrigerant and store it in an approved container.
4) Before heating, break off the stub on the dome to release the dome charge.
5) Disconnect the headmaster.
6) Place the new headmaster in position.
7) Remove the drier, then place the new drier in position.
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8) Braze all fittings with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of
refrigerant to the system (if using an electronic leak detector), and then raise the
pressure using nitrogen gas (ꢀ40 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
ꢀ0) Evacuate the system and charge it with refrigerant. See the rating label inside the
icemaker, for the required refrigerant charge.
ꢀꢀ) Replace the panels in their correct positions.
ꢀꢁ) Turn on the power supply.
L. Removal and Replacement of Thermistor
This section covers removal and replacement of the thermistor. For a thermistor check
procedure, see "IV.E. Thermistor Check."
CAUTION
ꢀ. The thermistor is fragile; handle very carefully.
ꢁ. Always use the recommended sealant (high thermal conductive type),
Model KE4560RTV manufactured by SHINETSU SILICONE, Part Code
60Y000-ꢀꢀ, or Part Code 4A0683-0ꢀ or equivalent.
3. Always use the recommended foam insulation (non-absorbent type) or
equivalent.
4. Do not shorten or cut the thermistor leads.
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Remove the control box cover.
4) Disconnect the white thermistor connector from the control board WHITE K3 connector.
5) Remove the plastic cable ties, foam insulation, thermistor holder, and thermistor. See
Fig. 5.
Thermistor Lead
Cable Tie
6) Scrape away the old sealant on the
thermistor holder and the suction pipe.
7) Wipe off moisture or condensation on the
suction pipe.
8) Smoothly apply recommended sealant
(KE4560RTV, Part Code 60Y000-ꢀꢀ
or 4A0683-0ꢀ) to the thermistor holder
concave.
Foam Insulation
Thermistor Holder
Fig. 5
9) Attach the new thermistor to the suction pipe in the same position as the previous
thermistor. Be very careful to prevent damage to the leads. Secure it using the
thermistor holder and recommended foam insulation.
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ꢀ0) Secure the insulation using plastic cable ties.
ꢀꢀ) Connect the white thermistor connector through the bushing of the control box to the
control board WHITE K3 connector.
Note: Do not cut the leads of the thermistor.
ꢀꢁ) Replace the control box cover and the panels in their correct positions.
ꢀ3) Turn on the power supply.
M. Removal and Replacement of Fan Motor (air-cooled and remote
air-cooled models)
Note: When replacing a fan motor with defective winding, it is recommended that a new
capacitor be installed.
ꢀ) Turn off the power supply.
ꢁ) Remove the panels.
3) Remote air-cooled model: remove the junction box cover from the remote condenser
unit.
4) Disconnect the fan motor wires.
5) Remove the fan motor bracket and fan motor.
6) Install the new fan motor, connect the fan motor wires, and replace the removed parts
in the reverse order of which they were removed.
7) Replace the panels in their correct positions.
8) Remote air-cooled model: replace the junction box cover in its correct position.
9) Turn on the power supply.
N. Removal and Replacement of Inlet Water Valve
ꢀ) Turn off the power supply.
ꢁ) Close the icemaker water supply line shut-off valve. Open the icemaker water supply
line drain valve.
3) Remove the front panel.
4) Disconnect the valve outlet tubing by releasing the clamp.
5) Loosen the fitting nut. Be careful not to lose the washer.
6) Disconnect the terminals from the inlet water valve.
7) Remove the bracket and valve from the unit.
8) Install the new valve. Replace the removed parts in the reverse order of which they
were removed. Make sure the washer is in place in the fitting nut.
9) Close the icemaker water supply line drain valve. Open the icemaker water supply line
shut-off valve.
ꢀ0) Turn on the power supply.
ꢀꢀ) Check for leaks.
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ꢀꢁ) Replace the front panel in its correct position.
ꢀ3) Turn on the power supply.
O. Removal and Replacement of Pump Motor
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel.
3) Remove the base cover, then disconnect one end of the pump tubing to drain the water
tank. See Fig. 6. After the water tank has drained, reconnect the pump tubing.
5) Disconnect the pump suction and discharge hoses.
6) Remove the closed end connectors from the pump motor leads.
7) Remove the screw attaching the pump motor assembly to the base, then remove the
pump motor assembly.
8) Remove the screw attaching the pump motor to the pump motor bracket.
9) Remove the screws attaching the pump housing to the pump motor. Remove the
housing and check the impeller.
ꢀ0) If the impeller is defective, install a new impeller.
ꢀꢀ) Install the new motor or new parts, and replace the removed parts in the reverse order
of which they were removed. Be sure to reattach the green ground wire.
ꢀꢁ) Turn on the power supply and check for leaks.
ꢀ3) Replace the base cover in its correct position.
ꢀ4) Replace the front panel in its correct position.
Disconnect This
End of Pump
Tubing to Drain
Water Tank
Fig. 6
Base Cover
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P. Removal and Replacement of Control Board
When replacing a control board follow the precautions below.
CAUTION
ꢀ. The control board is fragile; handle very carefully.
ꢁ. The control board contains integrated circuits, which are susceptible to
failure due to static discharge. It is especially important to touch the metal
part of the unit before handling or replacing the control board.
3. Do not touch the electronic devices on the control board or the back of the
control board.
4. Do not change wiring and connections. Do not misconnect K3, K4, and K5,
because the same connector is used for the thermistor, mechanical bin
control, and float switch. K4 is not used on "E" control board models.
5. Always replace the whole control board assembly if it goes bad.
6. Do not short out power supply to test for voltage.
ꢀ) Turn off the power supply.
ꢁ) Remove the front panel and the control box cover.
3) Disconnect the control board connectors from the control board.
4) Remove the control board.
5) Adjust the dip switches on the new control board to the factory default settings. See "II.
C.3.a) Default Dip Switch Settings." CAUTION! Do not adjust S4 dip switch 7 out
of the factory default position on this model. This dip switch must be left in the
factory default position or this unit will not operate correctly.
6) Install the new control board taking care not to damage it.
7) Connect the control board connectors to the new control board.
8) Replace the control box cover and front panel in their correct positions.
9) Turn on the power supply.
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VI. Cleaning and Maintenance
WARNING
CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after any cleaning or maintenance is done to the unit. Make
sure that none have fallen into the storage bin.
A. Cleaning and Sanitizing Instructions
Hoshizaki recommends cleaning and sanitizing this unit at least once a year. More
frequent cleaning and sanitizing, however, may be required in some existing water
conditions.
WARNING
ꢀ. To prevent injury to individuals and damage to the icemaker, do not use
ammonia type cleaners.
ꢁ. Carefully follow any instructions provided with the bottles of cleaning and
sanitizing solution.
3. Always wear liquid-proof gloves and goggles to prevent the cleaning and
sanitizing solutions from coming into contact with skin or eyes.
4. To prevent damage to the water pump seal, do not operate the icemaker
with the control switch in the "WASH" position when the water tank is empty.
IMPORTANT
ꢀ. The cleaning valve is opened during cleaning and sanitizing to allow solution
flow to the inside of the evaporator. It should be closed for all icemaking
operation. The compressor will not operate unless this valve is completely
closed.
ꢁ. To close the cleaning valve, the valve handle should be at a right angle
to the valve body. To open the cleaning valve, the valve handle should be
parallel to the valve body.
CLOSED
OPEN
Normal Icemaking Operation
Cleaning and Sanitizing Operation
(allows solution flow to the inside
of the evaporator)
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1. Cleaning Procedure
ꢀ) Dilute ꢀ6 fl. oz. (473 ml) of the recommended cleaner Hoshizaki "Scale Away" or
"LIME-A-WAY" (Economics Laboratory, Inc.) with 3 gal. (ꢀꢀ l) of warm water.
ꢁ) Remove all ice from the evaporator and the storage bin.
Note: To remove cubes on the evaporator, turn off the power supply and turn it back on
after 3 minutes. The harvest cycle starts and the cubes will be removed from the
evaporator.
Disconnect This
3) Turn off the power supply.
End of Pump
Tubing to Drain
Water Tank
4) Remove the front panel, then remove the
insulation panel by lifting up the panel
slightly and pulling it towards you.
5) Remove the base cover, then disconnect
one end of the pump tubing to drain the
water tank. See Fig. 7. After the water tank
has drained, reconnect the pump tubing.
Base Cover
Fig. 7
6) In bad or severe water conditions, clean the float switch assembly as described below.
Otherwise, continue to step 7.
a. Disconnect the vent tube and the flush tube from the top of the float switch, then
remove the float switch assembly. Remove the rubber boot from the bottom of the
assembly.
b. Remove the retainer rod from the bottom of the float switch housing, then remove
the float. Be careful not to bend the retainer rod excessively when removing it.
c. Wipe down the float switch assembly's housing, shaft, float, and retainer rod with
cleaning solution. Clean the inside of the rubber boot and hose with cleaning
solution. Rinse the parts thoroughly with clean water.
d. Reassemble the float switch assembly and replace it and the rubber boot in their
correct positions. Reconnect the vent tube and the flush tube.
7) Pour the cleaning solution into the water tank.
8) Fully open the cleaning valve on the left side wall of the machine compartment.
9) Move the control switch on the control box to the "WASH" position.
ꢀ0) Replace the insulation panel and the front panel in their correct positions.
ꢀꢀ) Turn on the power supply to start the washing process.
ꢀꢁ) Turn off the power supply after 30 minutes.
ꢀ3) Remove the front panel.
ꢀ4) Disconnect one end of the pump tubing to drain the water tank. After the water tank has
drained, reconnect the pump tubing.
ꢀ5) Move the control switch to the "ICE" position.
ꢀ6) Close the cleaning valve.
Note: The icemaker will not operate unless the cleaning valve is completely closed.
ꢀ7) Replace the front panel in its correct position.
ꢀ8) Turn on the power supply to fill the water tank with water.
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ꢀ9) Turn off the power supply after 3 minutes.
ꢁ0) Remove the front panel and fully open the cleaning valve.
ꢁꢀ) Move the control switch to the "WASH" position.
ꢁꢁ) Replace the front panel in its correct position.
ꢁ3) Turn on the power supply to rinse off the cleaning solution.
ꢁ4) Turn off the power supply after 5 minutes.
ꢁ5) Remove the front panel.
ꢁ6) Disconnect one end of the pump tubing to drain the water tank. After the water tank has
drained, reconnect the pump tubing.
ꢁ7) Repeat steps ꢀ5 through ꢁ6 three more times to rinse thoroughly.
Note: If you do not sanitize the icemaker, go to step ꢀ0 in "ꢁ. Sanitizing Procedure."
2. Sanitizing Procedure - Following Cleaning Procedure
ꢀ) Dilute a 5.ꢁ5% sodium hypochlorite solution (chlorine bleach) with warm water. (Add
ꢀ.5 fl. oz. (44 ml) of sanitizer to 3 gal. (ꢀꢀ l) of water.)
ꢁ) Remove the insulation panel.
3) Pour the sanitizing solution into the water tank.
4) Replace the insulation panel and the front panel in their correct positions.
Note: Make sure that the control switch is in the "WASH" position and the cleaning
valve is open.
5) Turn on the power supply to start the sanitizing process.
6) Turn off the power supply after ꢀ5 minutes.
7) Remove the front panel.
8) Disconnect one end of the pump tubing to drain the water tank. After the water tank has
drained, reconnect the pump tubing.
9) Repeat steps ꢀ5 through ꢁ6 in "ꢀ. Cleaning Procedure" two times to rinse thoroughly.
ꢀ0) Close the cleaning valve.
ꢀꢀ) Move the control switch to the "ICE" position.
ꢀꢁ) Replace the front panel and the base cover in their correct positions.
ꢀ3) Clean the storage bin liner using a neutral cleaner. Rinse thoroughly after cleaning.
ꢀ4) Turn on the power supply to start the automatic icemaking process.
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B. Maintenance
This icemaker must be maintained individually, referring to the instruction manual and
labels provided with the icemaker.
WARNING
ꢀ. Only qualified service technicians should attempt to service or maintain this
icemaker.
ꢁ. Disconnect power before performing service or maintenance.
1. Stainless Steel Exterior
To prevent corrosion, wipe the exterior occasionally with a clean, soft cloth. Use a damp
cloth containing a neutral cleaner to wipe off oil or dirt buildup.
2. Storage Bin and Scoop
• Wash your hands before removing ice. Use the plastic scoop provided (bin accessory).
• The storage bin is for ice use only. Do not store anything else in the storage bin.
• Clean the scoop and the storage bin liner using a neutral cleaner. Rinse thoroughly
after cleaning.
3. Air Filters (air-cooled model)
Plastic mesh air filters remove dirt and dust from the air, and keep the condenser from
getting clogged. As the filters get clogged, the icemaker’s performance will be reduced.
Check the filters at least twice a month. When they are clogged, use warm water and a
neutral cleaner to wash the filters.
4. Condenser (air-cooled and remote air-cooled models)
Check the condenser once a year, and clean the coil if required by using a brush or
vacuum cleaner. More frequent cleaning may be required depending on location.
C. Preparing the Icemaker for Long Storage
CAUTION
ꢀ. When storing the icemaker for an extended time or in sub-freezing
temperatures, follow the instructions below to prevent damage.
ꢁ. To prevent damage to the water pump seal, do not operate the icemaker
with the control switch in the "WASH" position when the water tank is empty.
When the icemaker is not used for two or three days under normal conditions, it is sufficient
to move the control switch to the "OFF" position. When storing the icemaker for an
extended time or in sub-freezing temperatures, follow the instructions below.
1. Remove the water from the icemaker water supply line:
ꢀ) Turn off the power supply, then remove the front panel.
ꢁ) Move the control switch on the control box to the "OFF" position.
3) Close the icemaker water supply line shut-off valve, then open the icemaker water
supply line drain valve.
4) Allow the line to drain by gravity.
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5) Attach a compressed air or carbon dioxide supply to the icemaker water supply line
drain valve.
6) Move the control switch to the "ICE" position.
7) Replace the front panel in its correct position, then turn on the power supply.
8) Blow the icemaker water supply line out using the compressed air or carbon dioxide
supply.
9) Close the icemaker water supply line drain valve.
2. Drain the water tank:
ꢀ) Turn off the power supply, then remove the front panel.
ꢁ) Move the control switch to the "OFF" position.
3) Remove the base cover, then disconnect one end of the pump tubing to drain the water
tank. See Fig. 8. After the water tank has drained, reconnect the pump tubing.
4) Replace the base cover and the front panel in their correct positions.
5) Remove all ice from the storage bin. Clean the storage bin liner using a neutral cleaner.
Rinse thoroughly after cleaning.
3. On water-cooled model, remove the water from the water-cooled condenser:
ꢀ) Make sure the power supply is off, then remove the front panel and right side panel.
ꢁ) Close the condenser water supply line shut-off valve. If connected to a closed loop
system, also close the condenser return line shut-off valve.
3) Open the condenser water supply line drain valve. If connected to a closed loop
system, also open the condenser return line drain valve.
4) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
5) Open the water regulating valve by using a screwdriver to pry up on the spring retainer
underneath the spring. While holding the valve open, blow out the condenser using the
compressed air or carbon dioxide supply until water stops coming out.
6) Close the drain valve(s).
7) Replace the right side panel and front panel in their correct positions.
Disconnect This
End of Pump
Tubing to Drain
Water Tank
Fig. 8
Base Cover
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