Hoshizaki America, Inc.
Hoshizaki
Cubelet Icemaker / Dispenser
Models
DCM-750BAH
DCM-750BAH-OS
DCM-750BWH
DCM-750BWH-OS
SERVICE MANUAL
“A Superior Degree
of Reliability”
®
Number: 73166
Issued: 10-8-2008
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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....................................................................................................................... 5
B. Ice Making Unit........................................................................................................... ꢀꢀ
a) DCM-750BAH, DCM-750BWH......................................................................... ꢀ5
3. Controls and Adjustments .................................................................................... ꢀ8
3. Freeze Cycle ........................................................................................................ ꢁ7
ꢁ. Portion Dispense................................................................................................... 33
3
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B. Removal and Replacement of Compressor................................................................ 48
ꢀ. Upper Bearing Wear Check ................................................................................. 5ꢀ
K. Removal and Replacement of Drain Valve................................................................. 60
L. Removal and Replacement of Dispensing System..................................................... 6ꢀ
c) Sanitizing Solution.............................................................................................. 65
4
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I. Specifications
A. Icemaker
1. DCM-750BAH
AC SUPPLY VOLTAGE
COMPRESSOR
GEAR MOTOR
115/60/1
120 V
120 V
120 V
120 V
120 V
120 V
20 A
20 A
20 A
20 A
Ambient
Temp.(°F)
70
13.2 RLA
3 FLA
0.85 FLA
1.8 FLA (Total)
0.9 FLA
60 LRA
1/4 HP
1/15 HP
110 W
FAN MOTOR
AGITATING MOTOR
DISPENSING MOTOR
OTHER
MAXIMUM FUSE SIZE
MAX. HACR BREAKER (USA ONLY)
MAX. CIRC. BREAKER (CANADA ONLY)
MINIMUM CIRCUIT AMPACITY
APPROXIMATE ICE PRODUCTION
PER 24 HR.
55 W
0.6 A
WATER TEMP. (°F)
70
50
90
lbs./day ( kg/day )
Reference without *marks
* 803 (364) 770 (349)
684 (310) 645 (293)
573 (260) * 567 (257)
726 (329)
608 (276)
509 (231)
80
90
100
480 (218) 452 (205) * 423 (192)
SHAPE OF ICE
ICE QUALITY
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
POTABLE WATER
Cubelet (Compressed Flake Ice)
Approx. 90%, Ice (90/70°F, Conductivity 200 µs/cm)
95 lbs.
90/70°F
1481 (6.3)
68 (12)
70/50°F
1449 (4.3)
96 (12)
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
34-1/16" x 28-1/2" x 48-1/16" (865 x 723 x 1221 mm)
Stainless Steel; Galvanized Steel (Rear)
Net 375 lbs. ( 170 kg ), Shipping 405 lbs. ( 184 kg )
Permanent Connection
Inlet 1/2" FPT
- DRAIN
Drain Pan 3/4" FPT
Bin Drain 3/4" FPT
ICE MAKING SYSTEM
Auger type
HARVESTING SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Direct Driven Auger ( 1/4 HP Gear Motor )
Float Switch
N/A
Mechanical Bin Control ( Proximity Sw. )
Hermetic, Model RS55C2E-CAA-219
Air-cooled, Fin and tube type
Copper Tube on Cylinder
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
GEAR MOTOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES - SUPPLIED
- REQUIRED
Thermostatic Expansion Valve
R-404A,
1 lb. 7.1 oz. (660 g)
High 460 PSIG, Low 290 PSIG
High Voltage Cut-off Relay
Auto-reset Overload Protector
Manual reset Circuit Breaker
Auto-reset High Pressure Control Switch
Float Switch and Timer
Spare Fuse
Legs
OPERATING CONDITIONS
VOLTAGE RANGE
104 - 127 V
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 100° F
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
5
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2. DCM-750BAH-OS
AC SUPPLY VOLTAGE
COMPRESSOR
GEAR MOTOR
115/60/1
120 V
120 V
120 V
120 V
120 V
120 V
20 A
20 A
20 A
20 A
Ambient
Temp.(°F)
70
13.2 RLA
3 FLA
0.85 FLA
1.8 FLA (Total)
0.9 FLA
60 LRA
1/4 HP
1/15 HP
110 W
FAN MOTOR
AGITATING MOTOR
DISPENSING MOTOR
OTHER
MAXIMUM FUSE SIZE
MAX. HACR BREAKER (USA ONLY)
MAX. CIRC. BREAKER (CANADA ONLY)
MINIMUM CIRCUIT AMPACITY
APPROXIMATE ICE PRODUCTION
PER 24 HR.
55 W
0.6 A
WATER TEMP. (°F)
70
50
90
lbs./day ( kg/day )
Reference without *marks
* 803 (364) 770 (349)
684 (310) 645 (293)
573 (260) * 567 (257)
726 (329)
608 (276)
509 (231)
80
90
100
480 (218) 452 (205) * 423 (192)
SHAPE OF ICE
ICE QUALITY
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
POTABLE WATER
Cubelet (Compressed Flake Ice)
Approx. 90%, Ice (90/70°F, Conductivity 200 µs/cm)
95 lbs.
90/70°F
1481 (6.3)
68 (12)
70/50°F
1449 (4.3)
96 (12)
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
34-1/16" x 28-1/2" x 48-1/16" (865 x 723 x 1221 mm)
Stainless Steel; Galvanized Steel (Rear)
Net 375 lbs. ( 170 kg ), Shipping 405 lbs. ( 184 kg )
Permanent Connection
Inlet 1/2" FPT
- DRAIN
Drain Pan 3/4" FPT
Bin Drain 3/4" FPT
ICE MAKING SYSTEM
Auger type
HARVESTING SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
DISPENSER CONTROL SYSTEM
BIN CONTROL SYSTEM
COMPRESSOR
Direct Driven Auger ( 1/4 HP Gear Motor )
Float Switch
N/A
Photoelectric Sensor (Infrared)
Mechanical Bin Control ( Proximity Sw. )
Hermetic, Model RS55C2E-CAA-219
Air-cooled, Fin and tube type
Copper Tube on Cylinder
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
GEAR MOTOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES - SUPPLIED
- REQUIRED
Thermostatic Expansion Valve
R-404A,
1 lb. 7.1 oz. (660 g)
High 460 PSIG, Low 290 PSIG
High Voltage Cut-off Relay
Auto-reset Overload Protector
Manual reset Circuit Breaker
Auto-reset High Pressure Control Switch
Float Switch and Timer
Spare Fuse
Legs
OPERATING CONDITIONS
VOLTAGE RANGE
104 - 127 V
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 100° F
45 - 90° F
10 - 113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
6
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3. DCM-750BWH
AC SUPPLY VOLTAGE
COMPRESSOR
GEAR MOTOR
AGITATING MOTOR
DISPENSING MOTOR
OTHER
MAXIMUM FUSE SIZE
MAX. HACR BREAKER (USA ONLY)
MAX. CIRC. BREAKER (CANADA ONLY)
MINIMUM CIRCUIT AMPACITY
APPROXIMATE ICE PRODUCTION
PER 24 HR.
115/60/1
120 V
120 V
120 V
120 V
120 V
20 A
20 A
20 A
20 A
13.2 RLA
3 FLA
1.8 FLA (Total)
0.9 FLA
0.6 A
60 LRA
1/4 HP
110 W
55 W
Ambient
Temp.(°F)
70
WATER TEMP. (°F)
70
50
90
lbs./day ( kg/day )
Reference without *marks
* 744 (337) 719 (326)
696 (316) 684 (310)
662 (300) * 654 (297)
708 (321)
673 (305)
640 (291)
80
90
100
630 (286) 620 (281) * 573 (260)
SHAPE OF ICE
ICE QUALITY
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
POTABLE WATER
Cubelet (Compressed Flake Ice)
Approx. 90%, Ice (90/70°F, Conductivity 200 µs/cm)
95 lbs.
90/70°F
70/50°F
1383 (5.1)
89 (12)
1410 (4.5)
78 (12)
WATER-COOLED CONDENSER
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
606 (81.4)
325 (49.7)
34-1/16" x 28-1/2" x 48-1/16" (865 x 723 x 1221 mm)
Stainless Steel; Galvanized Steel (Rear)
Net 375 lbs. ( 170 kg ), Shipping 405 lbs. ( 184 kg )
Permanent Connection
Inlet 1/2" FPT
Condenser Inlet 1/2" FPT
Condenser Outlet 1/2" FPT
- DRAIN
Drain Pan 3/4" FPT
Bin Drain 3/4" FPT
Auger type
ICE MAKING SYSTEM
HARVESTING SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Direct Driven Auger ( 1/4 HP Gear Motor )
Float Switch
Water Regulating Valve
Mechanical Bin Control ( Proximity Sw. )
Hermetic, Model RS55C2E-CAA-219
Air-cooled, Fin and tube type
Copper Tube on Cylinder
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
GEAR MOTOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES - SUPPLIED
- REQUIRED
Thermostatic Expansion Valve
R-404A,
1 lb. 2.7 oz. (530 g)
High 460 PSIG, Low 290 PSIG
High Voltage Cut-off Relay
Auto-reset Overload Protector
Manual reset Circuit Breaker
Auto-reset High Pressure Control Switch
Float Switch and Timer
Spare Fuse
Legs
OPERATING CONDITIONS
VOLTAGE RANGE
104 - 127 V
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 100° F
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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4. DCM-750BWH-OS
AC SUPPLY VOLTAGE
COMPRESSOR
GEAR MOTOR
AGITATING MOTOR
DISPENSING MOTOR
OTHER
MAXIMUM FUSE SIZE
MAX. HACR BREAKER (USA ONLY)
MAX. CIRC. BREAKER (CANADA ONLY)
MINIMUM CIRCUIT AMPACITY
APPROXIMATE ICE PRODUCTION
PER 24 HR.
115/60/1
120 V
120 V
120 V
120 V
120 V
20 A
20 A
20 A
20 A
10 RLA
3 FLA
1.8 FLA (Total)
0.9 FLA
0.6 A
60 LRA
1/4 HP
110 W
55 W
Ambient
Temp.(°F)
70
WATER TEMP. (°F)
70
50
90
lbs./day ( kg/day )
Reference without *marks
* 744 337 719 326 708 321
696 316 684 310 673 305
662 300 * 654 297 640 291
630 286 620 281 * 573 260
80
90
100
SHAPE OF ICE
ICE QUALITY
APPROXIMATE STORAGE CAPACITY
ELECTRIC & WATER CONSUMPTION
ELECTRIC W (kWH/100 lbs.)
POTABLE WATER
Cubelet (Compressed Flake Ice)
Approx. 88%, Ice (90/70°F, Conductivity 200 µs/cm)
95 lbs.
90/70°F
70/50°F
1410 (4.5)
78 (12)
1383 (5.1)
89 (12)
WATER - COOLED CONDENSER
gal./24HR (gal./100 lbs.)
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
606 (81.4)
325 (49.7)
34-1/16" x 28-1/2" x 48-1/16" (865 x 723 x 1221 mm)
Stainless Steel; Galvanized Steel (Rear)
Net 375 lbs. ( 170 kg ), Shipping 405 lbs. ( 184 kg )
Permanent Connection
Inlet 1/2" FPT
Condenser Inlet
1/2" FPT
- DRAIN
Drain Pan 3/4" FPT
Bin Drain 3/4" FPT
Auger type
Condenser Outlet 1/2" FPT
ICE MAKING SYSTEM
HARVESTING SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
DISPENSER CONTROL SYSTEM
BIN CONTROL SYSTEM
COMPRESSOR
Direct Driven Auger ( 1/4 HP Gear Motor )
Float Switch
Water Regulating Valve
Photoelectric Sensor (Infrared)
Mechanical Bin Control ( Proximity Sw. )
Hermetic, Model RS55C1E-PAA
Water-cooled, Double tube type
Copper Tube on Cylinder
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
REFRIGERANT CHARGE
DESIGN PRESSURE
P.C. BOARD CIRCUIT PROTECTION
COMPRESSOR PROTECTION
GEAR MOTOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES - SUPPLIED
- REQUIRED
Thermostatic Expansion Valve
R-404A,
1 lb. 2.7 oz. (530 g)
High 460 PSIG, Low 290 PSIG
High Voltage Cut-off Relay
Auto-reset Overload Protector
Manual reset Circuit Breaker
Auto-reset High Pressure Control Switch
Float Switch and Timer
Spare Fuse
Legs
OPERATING CONDITIONS
VOLTAGE RANGE
104 - 127 V
AMBIENT TEMP.
WATER SUPPLY TEMP.
WATER SUPPLY PRESSURE
45 - 100° F
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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II. General Information
A. Construction
1. DCM-750BAH(-OS)
Expansion Valve
Evaporator Assembly
Spout A
Inlet Water Valve
Float Switch
Spout B
Storage Bin
Reservoir
Bin Control Switch
Control Box
Power Switch
Agitator (L)
Agitator (R)
Gear Motor
Door Switch
Dispensing Auger
Drain Water Valve
Agitating Motor (L)
Agitating Motor (R)
Control Switch
Dispense Mode
Switch
Dispensing Motor
Compressor
Air-Cooled Condenser
Shutter Assembly
Spout Cover
Dispensing Water Valve
Drier
9
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2. DCM-750BWH(-OS)
Evaporator Assembly
Expansion Valve
Inlet Water Valve
Spout A
Spout B
Storage Bin
Float Switch
Reservoir
Control Box
Bin Control Switch
Power Switch
Door Switch
Agitator (L)
Agitator (R)
Gear Motor
Dispensing Auger
Drain Water Valve
Agitating Motor (L)
Control Switch
Agitating Motor (R)
Dispensing Motor
Dispense Mode
Switch
Shutter Assembly
Compressor
Water-Cooled Condenser
Dispensing Water Valve
Spout Cover
Drier
ꢀ0
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B. Ice Making Unit
1. DCM-750BAH(-OS)
Cubelet Cutter
Extruding Head
and Upper Bearing
Allen Head Cap Screw
Washer
Extruding Head Heater
Auger
Cylinder
Evaporator
Insulation
Mechanical Seal
Capacitor
Allen Head Cap Screw
with Washer
Housing and
Lower Bearing
O-Ring
Hex Head Bolt
with Washer
Gear Motor
ꢀꢀ
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C. Sequence of Operation
The steps in the sequence are as outlined below. When power is supplied, the power
switch is in the "ON" position, the door switch is engaged, and the control switch is in the
"ICE" position, the "POWER" LED on the control board comes on.
1. Fill Cycle
WV opens and the reservoir fills with water until UF/S closes. Note: GM will not start
unless UF/S is closed. For details, see "IV. Service Diagnosis".
2. Ice Purge Cycle (60 seconds)
"GM" LED is on. WCR energizes, closing the low water safety circuit and de-energizing
the WV. GM, GMPR, HCR, and HTR energize. GM runs for 60 seconds to clear any ice
from the evaporator.
3. Freeze Cycle
"COMP", "GM" LEDs are on. Comp and FMS energize. As the water in the evaporator
cools, ice starts forming within 4 to 6 minutes. This time frame depends on the inlet water
and ambient temperature conditions. UF/S and LF/S operate WCR and WV as needed
to continue the icemaking process. This continues until BC shuts the icemaker down or
power is turned off to the icemaker.
4. Drain Cycle
ꢀꢁ hour DT activates, "FLUSH" LED is on after ꢀ50 second shutdown sequence. Comp
and FMS de-energize 90 seconds after the ꢀꢁ hour DT activates, GM, GMPR, HCR,
and HTR de-energize 60 seconds later. DV then energizes and remains energized for
ꢁ0 minutes.
5. Shutdown
BC is activated and a ꢀ50 second shutdown sequence begins. After BC has been
open for 90 seconds, Comp and FMS de-energize, AM energizes for 0.6 seconds, and
60 seconds later GM, GMPR, HCR, and HTR de-energize.
Legend: AM–agitating motors; BC–bin control; Comp–compressor; DT–drain timer;
FMS–self-contained fan motor; GM–gear motor; GMPR–gear motor
protect relay; HCR–heater control relay; HTR–extruding head heater;
LF/S–lower float switch; UF/S–upper float switch; WCR–water control relay;
WV–inlet water valve
ꢀꢁ
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ꢀ3
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D. Control Board
• A Hoshizaki exclusive solid-state control board is employed in DCM-750BAH,
DCM-750BAH-OS, DCM-750BWH, and DCM-750BWH-OS Cubelet Icemaker /
Dispensers.
• All models are pretested and factory-adjusted.
CAUTION
ꢀ. 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 board.
3. Do not touch the electronic devices on the control board or the back of the
control board to prevent damage to the control board.
4. Do not change wiring and connections. Especially, never misconnect
terminals.
5. Always replace the whole control board if it goes bad.
6. Do not short out power supply to test for voltage.
ꢀ4
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1. Control Board Layout
a) DCM-750BAH, DCM-750BWH
Dispensing
Components
See "III.
B. Wiring
Diagrams"
for details.
Flush Switch
Must be left in the "P" position,
otherwise the internal drain
Bin Control,
Control
Switch,
Low Water
Safety
High
Pressure
Switch
timer will not operate.
ꢀ0.5V
Transformer
Counter Reset Button (not
used in this application)
Microprocessor (board revision level
indicated by last ꢁ digits on label)
"DM" LED
(X4 Relay)
Portion Control
Timer
"POWER" LED
(lights when
power is supplied
to the board)
Shutter Solenoid,
Dispensing Auger
Motor
"AM" LED
(X3 Relay)
Agitating Motor
"COMP" LED
(Xꢁ Relay)
Compressor,
Fan Motor
"GM" LED
(Xꢀ Relay)
Gear Motor
"FLUSH" LED
(X5 Relay)
Drain Valve
ꢁ4V Supply Out
Gear Motor
Protect Relay
Circuit
ꢀꢀ5V In
ꢀꢀ5V In
ꢀꢀ5V In
Gear Motor
ꢀꢀ5V Out
Drain Valve
ꢁ4V Out
ꢁ4V In
Dispensing Motor
ꢀꢀ5V Out
Agitating Motors
ꢀꢀ5V Out
Control Board
Part Number ꢁAꢀ59ꢁ-0ꢀ
ꢀ5
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b) DCM-750BAH-OS, DCM-750BWH-OS
Flush Switch
Must be left in the "P" position,
otherwise the internal drain
timer will not operate.
Bin Control,
Control Switch,
Low Water Safety
Dispensing Components
See "III.B. Wiring Diagrams"
for details.
High
ꢀ0.5V
Transformer
Counter Reset Button (not
used in this application)
Pressure
Switch
Portion Control
Timer
"POWER" LED
(lights when
power is supplied
to the board)
Microprocessor (board revision level
indicated by last ꢁ digits on label)
"WTR" LED
(X5 Relay)
Dispensing
Water Valve
"ICE" LED
"AM" LED
(X4 Relay)
(X3 Relay)
"GM" LED
(Xꢀ Relay)
Gear Motor
Shutter Solenoid,
Dispensing Auger
Motor
Agitating Motor
"COMP" LED
(Xꢁ Relay)
Compressor,
Fan Motor
"FLUSH" LED
(X6 Relay)
Drain Valve
ꢁ4V Supply Out
Gear Motor
Protect Relay
Circuit
ꢁ4V In ꢀꢀ5V In
ꢀꢀ5V In
ꢀꢀ5V In
Gear Motor
ꢀꢀ5V Out
Drain Valve
ꢁ4V Out
ꢁ4V In
Dispensing
Water Valve
ꢁ4V Out
Agitating Motors
ꢀꢀ5V Out
Dispensing Motor
ꢀꢀ5V Out
Control Board
Part Number ꢁAꢁ649-0ꢀ
ꢀ6
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2. Features
The control board provides the following safeguards:
• Provides component protection during low water supply.
• Purges remaining ice in the evaporator at startup and shutdown.
• Provides short cycle protection for the compressor.
a) LED Lights
The "POWER" LED indicates control voltage and will remain on unless a control
voltage problem occurs. An LED illuminates for each relay as it is energized. For more
information, see "II.C. Sequence of Operation."
Icemaking
Energized
Components
WV
GM, HTR
GM, HTR,
Comp, FMS
DV
Time LEDs are Frequency LEDs are
On On
N/A As Needed
Cycle (Relay)
LED
Fill
POWER only
GM
Ice Purge (Xꢀ)
Freeze (Xꢀ, Xꢁ)
Drain Valve (X6)
60 seconds
N/A
GM, COMP
FLUSH
N/A
N/A
ꢁ0 Minutes
Every ꢀꢁ Hours
Dispensing
Energized
Component
Time LEDs are Frequency LEDs are
Relay
LED
On
On
Push Button
DM
Opti Serv
60 seconds
maximum
Ice Dispense (X4)
IDM
N/A
ICE
Every ꢀꢁ seconds of
accumulative dispense
time
Agitating Motors (X3) AM
Water Dispense (X5)
AM
.6 seconds
N/A
WTR
WTR
N/A
(Opti Serv Only)
Legend: AM–agitating motors, Comp–compressor; DV–drain valve; FMS–self-contained
fan motor; GM–gear motor; HTR–extruding head heater; IDM–ice dispensing
motor, shutter solenoid; WTR–dispensing water valve; WV–inlet water valve
ꢀ7
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3. Controls and Adjustments
a) Portion Control
When the dispense mode switch is placed in the "PORTION" position, a variable resistor
(located on the control board) controls the ice dispense time.
The figures on the label indicate dispensing time (sec.). When shipped, the portion
control is set at the minimum dispensing time (0.6 sec.).
DCM-750BAH(-OS), DCM-750BWH(-OS). . . . . . .Approximately 0.7ꢁ oz.
Amount of ice dispensed per second.
DCM-750BAH(-OS), DCM-750BWH(-OS) . . . . . . Approximately ꢀ.ꢁ oz.
4. Control Board Check Procedure
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.
a) Power Supply
ꢀ. Move the control switch to the "ICE" position. The "POWER" LED should come on.
If the "POWER" LED is off, check that the power supply is on, the power switch is
in the "ON" position, the door switch is engaged, and the control switch is in the
"ICE" position. Check the transformer ꢀ0.5V secondary circuit and fuse. If the ꢀ0.5V
secondary circuit (K4 pins ꢀ and ꢁ) has proper voltage and the "POWER" LED is off,
the control board is bad and should be replaced.
If the secondary circuit does not have proper voltage, see "IV.C.ꢀ.[ꢀ] The icemaker will
not start (Fill Cycle)" for further details.
b) Ice Making Components
ꢀ. Confirm the reservoir is full of water. If no water is in the reservoir, make sure that the
control switch is not in the "DRAIN" position and that the unit is not in the ꢀꢁ hour drain
cycle. Also check the water supply line, water shutoff valve, and water filters. In the fill
cycle, the "POWER" LED is the only LED lit on the control board. If no water is filling
the reservoir, check for ꢁ4V at connector Kꢁ terminal 7 to neutral and connector K3
(DBU) to neutral. If there is ꢁ4V at connector Kꢁ terminal 7 to neutral and no voltage at
K3 (DBU) to neutral, the control board is bad and should be replaced. See "IV.C.ꢀ.[ꢀ]
The icemaker will not start (Fill Cycle)" for further details.
ꢁ. When the reservoir is full, the "GM" LED comes on and the gear motor starts. If the
"GM" LED does not come on or the gear motor does not start, check that the following
safety circuits are closed: a) high pressure switch (DCM-750BAH and DCM-750BWH,
connector K4 terminals 9 and ꢀ0, DCM-750BAH-OS and DCM-750BWH-OS, connector
K4 terminals 5 and 6), b) low water safety/bin control/ice making switch circuit
(connector K4 terminals 3 and 4). Next, check for ꢀꢀ5/ꢀꢁ0V at connector Kꢀ "COM"
and Kꢀ "NO" on the control board to neutral. If the "GM" LED is on and there is voltage
at Kꢀ "COM" to neutral and no voltage at Kꢀ "NO" to neutral, the control board is
bad and should be replaced. See wiring diagram "III.C.ꢁ. Ice Purge Cycle" for further
details.
ꢀ8
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3. 60 seconds after the "GM" LED comes on, the "COMP" LED comes on, and the
compressor and fan motor start. If the "COMP" LED does not come on 60 seconds
after the gear motor starts, check that the gear motor protect relay contacts (connector
Kꢁ terminals ꢀ and ꢁ) have closed. If the "COMP" LED is on and the compressor and
fan motor did not start, check for ꢀꢀ5/ꢀꢁ0V at Xꢁ (LBU) and Xꢁ (BR) on the control
board to neutral. If the "COMP" LED is on and there is voltage at Xꢁ (BR) to neutral
and no voltage at Xꢁ (LBU) to neutral, the control board is bad and should be replaced.
See wiring diagram "III.C.3. Freeze Cycle" for further details.
c) Dispensing Components DCM-750BAH, DCM-750BWH
ꢀ. Ice Dispense "Continuous": Pressing the ice dispense switch closes terminals 6 and 5
at the K4 connector. The "DM" LED comes on and the dispensing motor energizes. If
the "DM" LED does not turn on, check continuity through the ice dispense switch and
the dispense mode switch. If the LED is on and the dispensing motor does not start,
check for ꢀꢀ5/ꢀꢁ0V at connector Kꢁ terminals 3 and 6 to a neutral. With voltage at
terminal 3 and not at terminal 6, the control board is bad and should be replaced.
Note: The agitating motor will operate .6 seconds every ꢀꢁ seconds of accumulative
dispense time. See "III.D.ꢀ. Continuous Dispense."
ꢁ. Ice Dispense "Portion": Pressing the ice dispense switch closes terminals 6 and 7 at
the K4 connector. The "DM" LED comes on and the dispinsing motor energizes. If the
"DM" LED does not turn on, check continuity through the ice dispense switch and the
dispense mode switch. If the LED is on and the dispensing motor does not start, check
for ꢀꢀ5V at connector Kꢁ terminals 3 and 6 to a neutral. With voltage at terminal 3 and
not at terminal 6, the control board is bad and should be replaced.
Note: The agitating motor will operate .6 seconds every ꢀꢁ seconds of accumulative
dispense time. See "III.D.ꢁ. Portion Dipsense."
d) Dispensing Components DCM-750BAH-OS, DCM-750BWH-OS
See "IV.C.5. Opti Serve (OS) Sensors."
ꢀ9
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E. Float Switch
Depending on local water conditions, scale may build up on the float switch. Scale on the
switch can cause the floats to stick. In this case, the float switch should be cleaned and
checked.
First, remove the switch from the water tank. Soak the switch assembly in ice machine
cleaner. While not necessary, the floats can be removed from the shaft during cleaning.
If you remove them, note that the blue float is on top. The floats must be installed with
the magnets inside them towards the top of the switch. Installing the floats upside down
will affect the timing of the float switch operation. Once clean, rinse and wipe the cleaner
off. Next, check the switch with an ohm meter. This float switch has three wires (the
black wire is common) and two separate switches. Check the upper switch by ohming
out the black and red wires. When the float is up, the switch should be closed. Check the
lower switch by ohming out the black and blue wires in the same manner. If either switch
fails, the assembly should be replaced.
Red (upper)
Black (common)
Blue (lower)
Magnet (towards top)
Upper Float (blue)
Spring Retainer Clip
Magnet (towards top)
Lower Float (white)
Plastic Retainer Clip
ꢁ0
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III. Technical Information
A. Water Circuit and Refrigeration Circuit
1. DCM-750BAH(-OS)
Spout
Inlet Water Valve
Water Supply
Float Switch
Water Level
Reservoir
Overflow
Evaporator
Drier
Expansion Valve
To Drain
Drain Valve
Gear Motor
Dispensing Water Valve
High Pressure Switch
Fan
Air-Cooled Condenser
Access Valve
Access Valve
Compressor
Refrigeration Circuit
Water Circuit
ꢁꢀ
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2. DCM-750BWH(-OS)
Spout
Inlet Water Valve
Water Supply
Float Switch
Water Level
Evaporator
Reservoir
Overflow
Drier
Expansion Valve
To Drain
Drain Valve
Gear Motor
Dispensing Water Valve
Water Supply In
High Pressure Switch
Water Supply Out
Water-Cooled Condenser
Water Regulating
Valve
Access Valve
Access Valve
Compressor
Refrigeration Circuit
Water Circuit
ꢁꢁ
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B. Wiring Diagrams
1. DCM-750BAH, DCM-750BWH
*
WIRE COLOR CODE
BK
BR
BLACK
BROWN
BU
BLUE
DBU
GY
LBU
O
DARK BLUE
GRAY
LIGHT BLUE
ORANGE
PINK
P
R
RED
V
VIOLET
W
WHITE
* High Pressure Switch
Y
YELLOW
WHITE/BLACK
WHITE/BROWN
WHITE/BLUE
WHITE/ORANGE
WHITE/RED
W/BK
W/BR
W/BU
W/O
W/R
Air-Cooled Model Water-Cooled Model
Cut-out
Cut-in
412 21 PSIG
384 21 PSIG
0
0
327 21 PSIG
284 21 PSIG
ꢁ3
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2. DCM-750BAH-OS, DCM-750BWH-OS
*
WIRE COLOR CODE
BK
BR
BLACK
BROWN
BU
BLUE
DBU
GY
LBU
O
DARK BLUE
GRAY
LIGHT BLUE
ORANGE
PINK
P
R
RED
V
VIOLET
W
WHITE
* High Pressure Switch
Y
YELLOW
WHITE/BLACK
WHITE/BROWN
WHITE/BLUE
WHITE/ORANGE
WHITE/RED
W/BK
W/BR
W/BU
W/O
W/R
Air-Cooled Model Water-Cooled Model
Cut-out
Cut-in
412 21 PSIG
384 21 PSIG
0
0
327 21 PSIG
284 21 PSIG
ꢁ4
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C. Sequence of Electrical Circuit – Ice Making
1. Fill Cycle
With the power switch in the "ON" position and the control switch in the "ICE" position,
the inlet water valve energizes and the reservoir fills with water until the upper float
switch closes.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
LBU LIGHT BLUE
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
ꢁ5
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2. Ice Purge Cycle
Upper float switch closes, water control relay energizes, inlet water valve closes, gear
motor starts, gear motor protect relay energizes.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
ꢁ6
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3. Freeze Cycle
Compressor and fan motor start 60 seconds after gear motor starts.
DCM-750BAH,
DCM-750BWH
DCM-750BAH-OS,
DCM-750BWH-OS
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
LBU LIGHT BLUE
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
ꢁ7
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4. 12 Hour Drain Cycle / Drain Switch
ꢀꢁ hour timer initiates cycle or the control switch is moved to the "DRAIN" position.
90 seconds after initiation, the compressor and condenser fan motor stop, 60 seconds
later the gear motor stops. Once the gear motor protect relay de-energizes, the drain
water valve opens. In the ꢀꢁ hour drain cycle, the drain water valve remains open for
ꢁ0 minutes. When the drain cycle is initiated manually using the control switch, the drain
valve remains open until the control switch is moved to the "ICE" position.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
ꢀꢁ Hour Drain Cycle
Manual Drain Cycle
ꢀꢁ Hour Drain Cycle
Manual Drain Cycle
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
ꢁ8
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5. Shutdown
The bin control switch is activated and a ꢀ50 second shutdown sequence begins. After
the bin control has been open for 90 seconds, the compressor and fan motor stop, the
agitating motor operates for 0.6 seconds, and 60 seconds later the gear motor stops.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
LBU LIGHT BLUE
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
ꢁ9
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6. Low Water Safety
Upper float switch fails to close within 90 seconds after the lower float switch opens, the
ꢀ50 second shutdown sequence begins. The inlet water valve remains open until the
upper float switch closes.
DCM-750BAH,
DCM-750BWH
DCM-750BAH-OS,
DCM-750BWH-OS
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
30
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7. High Pressure Switch
When the high pressure switch opens, the compressor stops immediately, 60 seconds
later the gear motor stops. To restart, allow time for the high pressure switch to close,
then move the power switch to the "OFF" position and then back to the "ON" position.
DCM-750BAH,
DCM-750BWH
DCM-750BAH-OS,
DCM-750BWH-OS
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
3ꢀ
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D. Sequence of Electrical Circuit – Dispensing
1. Continuous Dispense
Agitating motor energizes for .6 seconds for every ꢀꢁ seconds of accumulative dispense
time. Maximum dispense time per dispense switch activation is 60 seconds. After
60 seconds, the dispense switch must be disengaged and engaged again.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
3ꢁ
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2. Portion Dispense
Agitating motor energizes for .6 seconds for every ꢀꢁ seconds of accumulative dispense
time. A variable resistor which controls the amount of ice dispensed is located on
the control board. The figures on the label indicate dispensing time (sec.). See "II.
D.3.a) Portion Control." When shipped, the portion control is set at the minimum
dispensing time (0.6 sec.).
DCM-750BAH(-OS), DCM-750BWH(-OS) . . . . . . . . . . . . Approximately 0.7ꢁ oz.
Amount of ice dispensed per second.
DCM-750BAH(-OS), DCM-750BWH(-OS) . . . . . . . . . . . . Approximately ꢀ.ꢁ oz.
DCM-750BAH-OS,
DCM-750BWH-OS
DCM-750BAH,
DCM-750BWH
WIRE COLOR CODE
BK BLACK
BR BROWN
BU BLUE
DBU DARK BLUE
GY GRAY
O
P
R
V
W
Y
ORANGE
PINK
RED
VIOLET
WHITE
YELLOW
W/BK WHITE/BLACK
W/BR WHITE/BROWN
W/BU WHITE/BLUE
W/O WHITE/ORANGE
W/R WHITE/RED
LBU LIGHT BLUE
33
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E. Performance Data
1. DCM-750BAH(-OS)
APPROXIMATE
ICE PRODUCTION
PER 24 HR.
Ambient
Temp. (°F)
70
Water Temp. (°F)
70
*803 *(364) 770 (349) 726 (329)
684 (310) 645 (293) 608 (276)
573 (260) *567 *(257) 509 (231)
480 (218) 452 (205) *423 *(192)
50
90
80
90
100
70
80
90
100
70
80
90
lbs./day (kg/day)
APPROXIMATE ELECTRIC
CONSUMPTION
*1449 --
1454
1467
*1481 --
1488 --
--
--
1458
1472
1483
*1490
87
--
--
--
1463
1476
1486
--
--
--
watts
--
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
*96 *(364) 92 (349)
82 (310) 77 (293)
(329)
(276)
(231)
73
69 (260) *68 *(257) 61
gal./day (l/day)
EVAPORATOR OUTLET TEMP.
100
70
80
90
100
70
80
90
100
70
80
58 (218)
*30 *(-1)
54 (205) *51 *(192)
30
32
(-1)
(0)
30
32
(-1)
(0)
30
32
33
(-1)
(0)
(1)
*32
33
*(0)
(1)
33
*33
(1)
*(1)
°F (°C)
HEAD PRESSURE
*249 *(17.5) 249 (17.5) 249 (17.5)
280 (19.6) 280 (19.6) 280 (19.6)
310 (21.8) *310 *(21.8) 310 (21.8)
346 (24.3) 346 (24.3) *346 *(24.3)
PSIG (kg/cm²G)
SUCTION PRESSURE
*44 *(3.1) 44
(3.1)
(3.3)
44
47
(3.1)
(3.3)
(3.4)
47
49
52
(3.3)
47
90
100
(3.4) *49 *(3.4) 49
(3.7) 52
PSIG ( kg/cm²G )
(3.7) *52 *(3.7)
TOTAL HEAT OF REJECTION
8314 BTU/h (AT 90°F /WT 70°F)
Note:
ꢀ. The data without *marks should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
34
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2. DCM-750BWH(-OS)
APPROXIMATE
ICE PRODUCTION
PER 24 HR.
Ambient
Temp. (F)
70
Water Temp. (F)
70
50
90
* 744
696
662
630
337
316
300
286
--
--
--
--
0.63
0.62
0.62
0.61
-7
719
326
310
297
281
--
--
--
--
0.73
0.73
0.73
0.73
-7
708
673
640
321
305
291
260
--
--
--
--
1.02
1.04
1.05
1.10
-7
80
90
100
70
80
90
100
70
80
90
100
70
684
* 654
620
1383
1383
* 1383
1383
160
lbs./day ( l/day)
APPROXIMATE ELECTRIC
CONSUMPTION
* 573
1382
1382
1382
* 1382
225
228
232
* 242
19
* 1410
1410
1410
1410
* 139
137
135
134
* 19
19
watts
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
(TOTAL)
gal. / day (kl/day)
EVAPORATOR OUTLET TEMP.
°F (°C)
160
* 160
160
19
80
-7
19
-7
19
-7
90
100
70
80
90
100
70
19
19
-7
-7
* 19
19
267
267
* 267
267
-7
-7
19
-7
-7
* 19
266
266
266
* 266
51
HEAD PRESSURE
* 265
265
265
265
* 50
18.6
18.6
18.6
18.6
3.5
18.8
18.8
18.8
18.8
3.5
18.7
18.7
18.7
18.7
3.6
PSIG (kg/cm2G)
SUCTION PRESSURE
PSIG (kg/cm2G)
50
80
90
100
50
50
50
3.5
3.5
3.5
50
* 50
50
3.5
3.5
3.5
51
51
* 51
3.6
3.6
3.6
WATER FLOW FOR CONDENSER
21 gal/h (AT 90°F /WT 70°F)
Less than 7 PSIG
7945 BTU/h (AT 90°F /WT 70°F)
1469 BTU/h (AT 90°F /WT 70°F)
PRESSURE DROP OF COOLING WATER LINE
HEAT OF REJECTION FROM CONDENSER
HEAT OF REJECTION FROM COMPRESSOR
Note:
ꢀ. The data without *marks should be used for reference only.
ꢁ. We reserve the right to make changes in specifications and design without prior
notice.
35
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IV. Service Diagnosis
A. Diagnostic Procedure
This diagnostic procedure is a sequence check that allows you to diagnose the electrical
system and components. Before proceeding, check for correct installation, adequate
water supply (minimum of ꢀ0 PSIG, maximum of ꢀꢀ3 PSIG) and proper voltage per unit
nameplate. Always choose a white neutral wire to establish a good neutral connection
when checking voltages. LEDs on the control board correspond to the components as
they energize.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the upper and lower front panels. Confirm the power switch is in the "ON" position and
the door switch is engaged.
ꢁ) Turn on the power supply, then move the control switch to the "ICE" position. The
"POWER" LED is on. The "POWER" LED will not come on if the door switch is not
engaged.
3) Fill Cycle – The inlet water valve energizes. The reservoir fills. The lower float switch
closes. Nothing occurs at this time. The reservoir continues to fill until the upper float
switch closes, energizing the water control relay, which closes the low water safety
circuit and de-energizes the inlet water valve. Diagnosis: Check that the inlet water
valve fills the reservoir. If not, check for water supply line shut-off valve closed, clogged
water filters, clogged inlet water valve screen, power circuit to the inlet water valve
(power switch, door switch, power protect relay contacts, transformer, fuses, high
pressure switch, bin control, control switch, float switch, water control relay contacts),
and the coil on the inlet water valve. Check that the inlet water valve shuts off when
the upper float switch closes. If not, check the float switch, water control relay, and inlet
water valve.
4) Ice Purge Cycle – "GM" LED is on (60 second short cycle protection). The 60 second
timer starts, the water control relay remains energized, the gear motor, gear motor
protect relay, heater control relay, and heater energize. Diagnosis: Check that the
gear motor starts. If not, check that the water control relay is energized (inlet water
valve should be closed). Check the low water safety circuit on the water control relay
(terminals 4 and 6), check for ꢀꢀ5/ꢀꢁ0V at the Kꢀ connector "COM" terminal to neutral
and "NO" terminal to neutral on the control board (see wiring diagram), check the gear
motor fuse (overload protector), thermal protector, gear motor capacitor, and motor
windings. If the gear motor starts, but the auger does not turn, check the gear motor
coupling between the auger and the gear motor. If the compressor starts at the same
time the gear motor starts, check the Xꢁ compressor relay on the control board.
5) Freeze Cycle – "COMP", "GM" LEDs are on. The compressor and fan motor energize,
the water control relay, gear motor, gear motor protect relay, heater control relay, and
heater remain energized. Ice production begins 4 to 6 minutes after the compressor
and fan motor start depending on ambient and water temperature conditions. The
upper float switch and lower float switch operate the water control relay and inlet
water valve as needed to continue the icemaking process. Diagnosis: Check that
the compressor and fan motor are running. If not, check for voltage on and to the
compressor (Xꢁ relay on the control board). Check that the gear motor protect relay
circuit terminals 3 and 5 are closed, check the compressor internal overload (thermal
protector), the compressor capacitors, fan capacitor, and voltage to the fan motor.
36
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6) Refill /Low Water Safety – As ice is produced, the water level in the reservoir drops.
As the water level drops, the upper and lower float switches open. First, the upper
float switch opens. Nothing occurs at this time. When the lower float switch opens,
refill begins. The water control relay de-energizes, the 90 second low water safety
timer begins, and the inlet water valve energizes. The compressor, fan motor, and
gear motor continue to run. When the upper float switch closes, the water control relay
energizes, the 90 second low water safety timer terminates, and the inlet water valve
de-energizes.
If the upper float switch fails to close within 90 seconds after the inlet water valve
energizes, a ꢀ50 second shutdown sequence begins. 90 seconds after the 90 second
low water safety timer is complete, the compressor and fan motor de-energize,
60 seconds later the gear motor de-energizes. The inlet water valve continues until the
upper float switch closes. Diagnosis – Check that the reservoir fills. If not, check the
water supply line, clogged water filters, dirty or sticking float switches, inlet water valve
screen, water control relay contacts, voltage to the inlet water valve, and inlet water
valve solenoid or drain valve leaking.
7) Drain Cycle – "FLUSH" LED is on. ꢀꢁ hour timer activates the flush cycle and a
ꢀ50 second shutdown sequence begins. 90 seconds after the ꢀꢁ hour timer activates,
the compressor and fan motor de-energize, 60 seconds later the gear motor
de-energizes. The drain valve then energizes and remains energized for ꢁ0 minutes.
Once the ꢁ0 minute drain timer is complete, the ꢀꢁ hour drain cycle timer resets and
the fill cycle begins.
8) Shutdown – The bin fills and activates the bin control. A ꢀ50 second shutdown
sequence begins. After the bin control has been open for 90 seconds, the compressor
and fan motor stop, the agitating motor energizes for 0.6 seconds, and 60 seconds later
the gear motor stops. Diagnosis: Check that the bin control paddle is activated and
that the bin control switch opens. If the compressor and gear motor fail to stop, check
the bin control (proximity) switch and control board relays.
B. Ice Production Check
To check production, prepare a bucket or pan to catch the ice and a set of scales to
weigh the ice. After the icemaker has operated for ꢀ0 to ꢁ0 minutes, catch the ice
production for ꢀ0 minutes. Weigh the ice to establish the batch weight. Multiply the
batch weight by ꢀ44 for the total production in ꢁ4 hours. When confirming production or
diagnosing low production, see "III.E. Performance Data."
37
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C. Diagnostic Charts
1. No Ice Production
Problem
Possible Cause
Remedy
[ꢀ] The icemaker will not a) Power Supply
start. (Fill Cycle)
ꢀ.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
specifications.
4.Refer to nameplate and
correct.
b) Water Supply
ꢀ.Water supply off or
pressure too low.
ꢀ.Check and get
recommended pressure.
c) Power Switch
(Control Box)
ꢀ."OFF" position.
ꢁ.Bad contacts.
ꢀ.Move to "ON" position.
ꢁ.Check for continuity and
replace.
d) Door Switch
ꢀ.Door switch not
engaged.
ꢀ.Engage door switch.
ꢁ.Bad contacts.
ꢁ.Check for continuity and
replace.
e) Power Protect Relay
ꢀ.Voltage not within
specifications.
ꢀ.Refer to nameplate and
correct.
ꢁ.Bad contacts.
ꢁ.Check for continuity and
replace.
f) Transformer
g) Fuses (ꢁ)
ꢀ.Coil winding open.
ꢀ.Blown.
ꢀ.Replace.
ꢀ.Check for short circuit and
replace.
h) Control Switch
ꢀ."OFF" or "DRAIN"
position.
ꢀ.Move to "ICE" position.
ꢁ.Bad contacts.
ꢀ.Bad contacts.
ꢁ.Coil winding open.
ꢁ.Check for continuity and
replace.
i) Water Control Relay
j) Inlet Water Valve
ꢀ.Check for continuity and
replace.
ꢁ.Replace.
ꢀ.Clean.
ꢀ.Mesh filter or orifice
clogged.
ꢁ.Coil winding open.
ꢁ.Replace.
3.Wiring to inlet water
valve.
3.Check for loose or open
connection. Repair or
replace.
k) Float Switch
l) Bin Control
ꢀ.Bad contacts.
ꢀ.Check for continuity and
replace.
ꢁ.Float does not move ꢁ.Clean or replace.
freely.
ꢀ.Open.
ꢀ.Bin full, check for
continuity on proximity
switch.
ꢁ.Actuator sticking.
ꢁ.Adjust or replace.
3.Proximity switch open. 3.Replace.
38
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Problem
Possible Cause
Remedy
[ꢀ] The icemaker will
not start. (Fill Cycle)
(continued)
m)High Pressure Switch ꢀ.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 "3.[ꢁ]a) Fan Motor."
6.Refrigerant line or
6.Remove the restriction or
components restricted. component and replace
the drier.
7.Condenser water
pressure too low or off
(water-cooled model
only).
7.Check and get
recommended pressure.
8.Water regulating
valve set too high
(water-cooled model
only).
8.Adjust it lower.
n) Plug and Receptacle
(Control Box)
ꢀ.Disconnected.
ꢁ.Loose terminal.
ꢀ.Connect.
ꢁ.Repair terminal
connection.
o) Control Board
a) Water Supply
b) Float Switch
ꢀ.Defective.
ꢀ.See "II.D.4. Control Board
Check Procedure."
[ꢁ] Fill cycle will not
terminate.
ꢀ.Water supply off or
pressure too low.
ꢀ.Check and get
recommended pressure.
ꢀ.Connector
ꢀ.Reconnect.
disconnected.
ꢁ.Float does not move ꢁ.Clean or replace.
freely.
3.Defective switch.
ꢀ.Contacts sticking.
ꢁ.Coil winding open.
3.Check and replace.
ꢀ.Replace.
c) Water Control Relay
ꢁ.Replace.
d) Drain Valve
e) Hoses
ꢀ.Valve seat won't seal ꢀ.Clean or replace.
and water leaking.
ꢀ.Disconnected or
damaged.
ꢀ.Reconnect or replace.
f) Control Board
ꢀ.Defective.
ꢀ.See "II.D.4. Control Board
Check Procedure."
39
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Problem
Possible Cause
Remedy
[3] Ice purge cycle will
not start.
a) Water Control Relay
ꢀ.Low water safety
circuit open
ꢀ.Replace.
(bad contacts ).
b) Control Switch
c) Bin Control
ꢀ.Bad contacts.
ꢀ.Check for continuity and
replace.
ꢀ.Open.
ꢀ.Bin full, check for
continuity on proximity
switch.
d) Control Board
ꢀ.Fails to operate gear ꢀ.See "II.D.4. Control Board
motor relay.
Check Procedure."
e) Gear Motor Fuse
ꢀ.Blown.
ꢀ.Check gear motor
amperage, bearing
wear (see "V.F.ꢀ. Upper
Bearing Wear Check"),
and supply voltage.
f) Gear Motor Thermal
Protector
ꢀ.Open.
ꢀ.Check gear motor
bearings, supply voltage.
g) Gear Motor
ꢀ.Open windings.
ꢀ.Replace.
ꢁ.Auger coupling broke. ꢁ.Replace.
3.Locked bearings.
ꢀ.Open coil.
3.Replace.
ꢀ.Replace.
ꢁ.Replace.
[4] Freeze cycle will not a) Gear Motor Protect
start (compressor).
Relay
ꢁ.Open contacts.
ꢀ.Defective.
b) Control Board
ꢀ.See "II.D.4. Control Board
Check Procedure."
c) Starter (Start Relay)
ꢀ.Bad contacts.
ꢀ.Check for continuity and
replace.
ꢁ.Coil winding open.
3.Loose connections.
ꢁ.Replace.
3.Tighten.
ꢀ.Replace.
d) Start Capacitor or Run ꢀ.Defective.
Capacitor
e) Compressor
ꢀ.Power supply not
within specifications.
ꢀ.Refer to nameplate and
correct.
ꢁ.Wiring to compressor. ꢁ.Check for loose or open
connection, repair or
replace.
3.Defective.
3.Replace.
4.Replace.
4.Compressor locked
and internal motor
protector tripped.
[5] All components
run, but no ice is
produced.
a) Refrigerant
ꢀ.Low charge.
ꢀ.See "V.B. Service for
Refrigerant Lines."
ꢁ.Refrigerant line or
component restricted.
ꢁ.Remove the restriction or
component and replace
the drier.
3.Air or moisture
trapped.
3.Recover refrigerant,
replace drier, evacuate,
and recharge.
b) Expansion Valve
c) Compressor
ꢀ.Bulb loose.
ꢀ.Secure bulb.
ꢁ.Operating erratically. ꢁ.Check and replace.
ꢀ.Defective.
ꢀ.Replace.
40
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Problem
Possible Cause
Remedy
[5] All components
run, but no ice is
d) Evaporator
ꢀ.Defective.
ꢀ.Replace.
e) Water Supply Line
(water-cooled model
only)
ꢀ.Condenser water
pressure too low or
off and high pressure
control opens and
closes frequently.
ꢀ.Check and get
recommended pressure.
produced. (continued)
f) Water Regulating Valve ꢀ.Water regulating
ꢀ.Clean, adjust, or replace.
(water-cooled model
only)
valve set too high or
clogged (water-cooled
model only).
2. Low Ice Production
Problem
Possible Cause
a)Evaporator
b)Bin Control
Remedy
[ꢀ] Low ice production.
ꢀ.Dirty or defective.
ꢀ.Clean or replace.
ꢀ.Clean or replace.
ꢀ.Erratic, sticking,
defective.
c)Drain Valve
ꢀ.Leaking water.
ꢀ.Bulb loose.
ꢀ.Clean or replace.
ꢀ.Secure bulb.
d)Expansion Valve
ꢁ.Operating erratically. ꢁ.Check and replace.
e)Refrigerant Charge
f) Refrigerant Line
ꢀ.Low charge.
ꢀ.See "V.B. Service for
Refrigerant Lines."
ꢁ.Overcharge.
ꢁ.See "V.B. Service for
Refrigerant Lines."
ꢀ.Refrigerant line or
component restricted.
ꢀ.Repair/replace the
clogged line/component
and replace the drier.
g)High-Side Pressure
Too High
ꢀ.Dirty air filter or
condenser.
ꢀ.Clean.
ꢁ.Ambient (or
ꢁ.Reduce temperature.
condenser) water
temperature too warm.
3.Fan motor slow rpm. 3.See "3. [ꢁ] a) Fan Motor."
4.Fan motor capacitor. 4.Check and replace.
5.Condenser water
pressure too low or off
(water-cooled model
only).
5.Check and get
recommended pressure.
6.Water regulating
valve set too high or
clogged (water-cooled
model only).
6.Clean, adjust, or replace.
h)Compressor
ꢀ.Inefficient compressor. ꢀ.Replace
ꢁ.Faulty thermal
ꢁ.Replace compressor.
protector (overload).
3.Faulty capacitor/
starter.
3.Replace.
4ꢀ
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3. Other
Problem
Possible Cause
Remedy
[ꢀ] Icemaker will not stop a)Bin Control
ꢀ.Actuator sticking.
ꢀ.Adjust or replace.
ꢁ.Replace.
when bin is filled with
ice.
ꢁ.Proximity switch
closed.
[ꢁ] Abnormal noise.
a)Fan Motor (except
ꢀ.Bearing worn out.
ꢀ.Replace.
water-cooled model)
ꢁ.Fan blade deformed. ꢁ.Replace fan blade.
3.Fan blade does not
move freely.
3.Replace.
b)Compressor
ꢀ.Bearings worn out, or ꢀ.Replace.
cylinder valve broken.
ꢁ.Mounting pad out of
position.
ꢁ.Reinstall.
c)Refrigerant Lines
d)Auger
ꢀ.Rub or touch other
lines or surfaces.
ꢀ.Reposition.
ꢀ.Bearings or auger
worn out.
ꢀ.Replace bearings or
auger. See "V.F. Removal
and Replacement of
Evaporator Assembly
Components."
e)Gear Motor
f) Evaporator
ꢀ.Bearing or gear worn ꢀ.Replace.
out / damaged.
ꢀ.Scale on inside wall
of evaporator freezing
cylinder.
ꢀ.Use "SCALE AWAY" or
"LIME-A-WAY" solution to
clean periodically.
See "VI. A. Cleaning and
Sanitizing Instructions." If
the water is found hard by
testing, install a softener.
ꢁ.Evaporator defective. ꢁ.Replace.
g)Extruding Head Heater ꢀ.Heater Control Relay ꢀ.Replace.
defective.
ꢁ.Heater defective.
ꢁ.Replace.
[3] Overflow from
reservoir (water does
not stop).
a)Water Supply
ꢀ.Water pressure too
high.
ꢀ.Install a pressure reducing
valve.
b)Inlet Water Valve
c)Float Switch
ꢀ.Diaphragm does not ꢀ.Clean or replace.
close.
ꢀ.Bad contacts.
ꢀ.Check for continuity and
replace.
d)Water Control Relay
ꢀ.Bad contacts.
ꢀ.Replace
4ꢁ
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Problem
Possible Cause
Remedy
[4] Gear motor overload a)Power Supply
protector operates
ꢀ.Not within
specifications.
ꢀ.Refer to nameplate and
correct.
frequently or fuse
blows frequently.
b)Evaporator Assembly ꢀ.Bearings or auger
worn out.
ꢀ.Replace bearings or
auger. See "V.F.ꢀ. Upper
Bearing Wear Check."
c)Bin Control
ꢀ.Bad contacts.
ꢀ.Check for continuity and
replace.
ꢁ.Actuator does not
move freely.
ꢁ.Clean actuator or replace
bin control assembly.
d)Safety Switch and
Relay
ꢀ.Switch misaligned,
contacts bad.
ꢀ.Check and correct or
replace.
e)Control Board
ꢀ.Erratic operation of
gear motor relay.
ꢀ.See "II.D.4. Control Board
Check Procedure."
4. Dispensing
Problem
Possible Cause
Remedy
[ꢀ] No ice dispensed.
a) Power Supply
ꢀ. "OFF" position.
ꢁ. Loose connection.
3. Bad contacts.
ꢀ. Move to "ON" position.
ꢁ. Tighten.
3. Check for continuity and
replace.
4.
Not within
specifications.
4.Refer to nameplate and
correct.
b) Ice Storage
ꢀ. No ice or little ice in
storage bin.
ꢀ. Make ice.
ꢁ. Ice bridge or ice block ꢁ. Melt ice, resupply with
formed.
new ice.
3.Agitating motor
defective.
3.Check, replace.
c) Ice Dispense Switch
d) Shutter Assembly
ꢀ. Opti Serve sensor
defective. (OS only)
ꢁ. Bad contacts. (push
button only)
ꢀ. See "5. Opti Serve (OS)
Sensors."
ꢁ. Check for continuity and
replace.
ꢀ. Broken part.
ꢀ. Check and replace.
ꢁ. Open windings on
solenoid.
ꢁ. Check continuity and
replace.
e) Dispense Gear Motor ꢀ. Thermal protector is
tripped.
ꢀ. Allow to cool.
ꢁ. Gear motor winding
open.
ꢁ. Replace.
3. Bearing worn out.
3. Replace.
4. Wiring to gear motor. 4. Check for loose
connection or open
circuit, and replace wiring
as needed.
5. Defective capacitor.
ꢀ. Bad alignment of
auger.
5. Replace.
ꢀ. Realign.
f) Auger Mechanism
g)
Control Board
ꢀ.Defective.
ꢀ.See "II.D.4. Control
Board Check Procedure."
43
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Problem
Possible Cause
Remedy
[ꢁ] Abnormal noise.
a) Gear Motor or Gear
Head
ꢀ. Bearing worn out.
ꢀ. Replace.
b) Auger Mechanism
ꢀ. Bad alignment of
auger.
ꢀ. Realign.
ꢁ. Foreign matter
ꢁ. Remove foreign matter.
interrupting agitator.
c) Dispense Water
Solenoid
ꢀ. Vibration due to
loosening screws.
ꢀ. Apply thread sealant to
the parts and tighten.
[3] No water dispensed. a) Power Supply
b) Water Supply
ꢀ. "OFF" position.
ꢀ. Move to "ON" position.
ꢀ.Water supply off or
pressure too low.
ꢀ.Check and get
recommended pressure.
c) Dispensing Water
Valve
ꢀ.
Coil winding open.
ꢀ.Replace.
ꢁ.
Wiring to dispensing ꢁ.Check for loose or open
water valve.
ꢀ.Defective.
connection. Repair or
replace.
d) Control Board
ꢀ.See "II.D.4. Control
Board Check Procedure."
e) Water Dispense Switch ꢀ. Opti Serve sensor
defective. (OS only)
ꢀ. See "5. Opti Serve (OS)
Sensors."
ꢁ. Bad contacts. (push
button only)
ꢁ. Check for continuity and
replace.
5. Opti Serve (OS) Sensors
Be sure to check all items in section "IV.C.4. Dipsensing" prior to using this chart. Use
the following charts along with the wiring diagram to troubleshoot the OS sensors.
Problem
Possible Cause
Remedy
[ꢀ] No ice dispensed.
a) OS Sensor
ꢀ. Dirty sensor.
ꢁ. Defective.
ꢀ. Clean, using Scale Away
(6 fl. oz. (0.8 l) per ꢀ gal.
(3.8 l) of water) or other
non-abrasive cleaner.
ꢁ. See chart 5a and 5b
below.
b) Dispense Mode Switch ꢀ. Wrong setting.
ꢁ.
ꢀ. Move to desired setting.
Bad contacts.
ꢁ.Check for continuity and
replace.
3. Loose connection.
ꢀ. Loose connection.
ꢁ.Defective.
3. Tighten.
ꢀ. Tighten.
c) Control Board
ꢁ.See "II.D.4. Control
Board Check Procedure"
and chart 5a and 5b
below.
44
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Problem
Possible Cause
Remedy
[ꢁ] No water dispensed. a) OS Sensor
ꢀ. Dirty sensor.
ꢁ. Defective.
ꢀ. Clean.
ꢁ. See chart 5c below.
ꢀ. Move to desired setting.
b) Dispense Mode Switch ꢀ. Wrong setting.
ꢁ.
Bad contacts.
ꢁ.Check for continuity and
replace.
3. Loose connection.
ꢀ. Loose connection.
ꢁ.Defective.
3. Tighten.
ꢀ. Tighten.
c) Control Board
ꢁ.See "II.D.4. Control
Board Check Procedure"
and chart 5c below.
5a. Ice Dispensing "Continuous" Mode
Component
Control Board
Sensor
Control Board /Other Sensor
On
Off
Solenoid
Kꢁ Pin 6 LBU
-
To
To
Neutral/GND
K5 Pin 5 Y
K5 Pin 6 W/BR
-
ꢀꢁ0VAC 0VAC
5VDC 0VDC
5VDC 5VDC
WH
BK
Sensor
K5 Pin 4 W/0
R
5b. Ice Dispensing "Portion" Mode
Component
Control Board
Sensor
Control Board /Other Sensor
On
Off
Solenoid
Kꢁ Pin 6 LBU
-
To
To
Neutral/GND
K5 Pin ꢁ W/BU
K5 Pin 3 W/BK
-
ꢀꢁ0VAC 0VAC
5VDC 0VDC
5VDC 5VDC
WH
BK
Sensor
K5 Pin ꢀ W/R
R
5c. Water Dispensing
Component
Solenoid
Control Board
Kꢁ Pin 8 DBU
Control Board /Other
K4 Pin ꢁ (LBU)
K5 Pin 8 WH
On
Off
To
To
ꢁ4VAC 0VAC
5VDC 0VDC
5VDC 5VDC
Sensor
K5 Pin 7 R
K5 Pin 9 BK
45
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V. Removal and Replacement of Components
IMPORTANT
ꢀ. Ensure all components, fasteners, and thumbscrews are securely in place
after the equipment is serviced.
ꢁ. 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.
3. 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.
4. Do not leave the system open for longer than ꢀ5 minutes when replacing or
servicing parts.
A. Service for Refrigerant Lines
WARNING
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.
1. Refrigerant Recovery
The icemaker 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.
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. Always recover the refrigerant and store it in an approved container. Do not
discharge the refrigerant into the atmosphere.
4. Do not use silver alloy or copper alloy containing arsenic.
5. 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.
46
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ꢀ) 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.
ꢁ) 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.
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 service 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.
4) Close the low-side valve and high-side valve on the service manifold.
5) Disconnect the vacuum pump and attach a refrigerant service cylinder to the high-side
line. Remember to loosen the connection and purge the air from the hose. See the
nameplate for the required refrigerant charge. Hoshizaki recommends only virgin
refrigerant or reclaimed refrigerant which meets ARI Standard No. 700-88 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 service 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 port with the unit running.
9) Close the service manifold valves and disconnect the service manifold hoses.
ꢀ0) Cap the access valves to prevent a possible leak.
47
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B. Removal and Replacement of Compressor
IMPORTANT
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.
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.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel, then remove the right side panel.
3) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
4) Recover the refrigerant and store it in an approved container.
5) Remove the terminal cover on the compressor and disconnect the compressor wiring.
6) Remove the discharge, suction, and process pipes.
7) Remove the compressor hold-down bolts, washers, and rubber grommets.
8) Remove the compressor. Unpack the new compressor package.
9) Attach the rubber grommets of the prior compressor to the new compressor.
ꢀ0) Place the compressor in position and secure it using the bolts and washers.
ꢀꢀ) Remove the drier, then place the new drier in position.
ꢀꢁ) Remove plugs from the suction, discharge, and process pipes.
ꢀ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 terminals and replace the terminal cover in its correct position.
ꢀ7) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
ꢀ8) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ9) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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C. Removal and Replacement of Expansion Valve
IMPORTANT
Sometimes moisture in the refrigeration circuit exceeds the drier capacity and
freezes up at the expansion valve. 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.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel, then remove the left side panel.
3) Recover the refrigerant and store it in an approved container.
4) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
5) Remove the insulation and the expansion valve bulb on the suction line.
6) Remove the expansion valve cover and disconnect the expansion valve.
7) Place the new expansion valve in position.
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.
CAUTION
Always protect the valve body by using a damp cloth to prevent the valve from
overheating. Do not braze with the valve body exceeding ꢁ50°F (ꢀꢁꢀ°C).
ꢀ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. See the nameplate for the required
refrigerant charge.
ꢀꢁ) Attach the expansion valve bulb to the suction line in the same location as the previous
bulb. The bulb should be at the ꢀꢁ o'clock position on the tube. Be sure to secure the
bulb with the clamp and holder and to insulate it.
ꢀ3) Place the expansion valve cover in position.
ꢀ4) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
ꢀ5) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ6) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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D. Removal and Replacement of Evaporator Assembly Components
CAUTION
Make sure the extruding head heater is installed and connected after service.
Spout A
Evaporator Assembly
Spout B
Cutter
Power Switch
Extruding Head
and
Upper Bearing
Allen Head
Cap Screw
Washer
Extruding Head
Heater
Control
Switch
Evaporator
Dispense Mode
Switch
Evaporator Strap
Allen Head Cap Screw
with Washer
Auger
Mechanical Seal
O-Ring
Housing and
Lower Bearing
Barrier/Capacitor
Hex Head Bolt
with Washer
Gear Motor
Fig. 1
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1. Upper Bearing Wear Check
To ensure that the bearing inside the extruding head does not exceed the wear
tolerance of .0ꢁ", follow the instructions below. See Fig. ꢁ.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the front cover of the storage bin. Remove spout B,
.0ꢁ" Round Stock
or Pin Gauge
Auger
then remove spout A and the cutter. See Fig. ꢀ.
3) Grasp the top of the auger and move
the auger towards you and then try to
insert a .0ꢁ" round stock or pin gauge in
between the back side of the auger shaft
and the bearing surface. Check several
locations around the auger shaft. If the
gauge goes between the shaft and the
bearing at any point or if the bearing is
scratched or cracked, both the top bearing
in the extruding head and the lower
bearing in the housing should be replaced.
Instructions for removing the extruding
head and housing are located later in this
procedure.
Extruding
Head
Fig. 2
Note: Replacing the bearing requires a bearing press adaptor. If one is not available,
replace the whole extruding head and housing.
4) Replace the cutter, spout A, spout B, and the front cover of the storage bin in their
correct positions.
5) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
6) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
2. Removal and Replacement of Extruding Head
ꢀ) Move the control switch to the "DRAIN" position and drain all of the water from the
evaporator.
ꢁ) After the water has stopped draining, move the control switch to the "OFF" position,
then turn off the power supply. Remove the front and top panels, then move the power
switch to the "OFF" position.
3) Remove the front cover of the storage bin. Remove spout B, then remove spout A and
the cutter. See Fig. ꢀ.
4) Remove the apron panel, then remove the left side panel.
5) Remove the extruding head heater, then remove the allen head cap screws and lift off
the extruding head.
6) Place the new extruding head in place and tighten down the allen head cap screws.
7) Replace the extruding head heater and cutter in their correct positions.
5ꢀ
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8) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
9) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ0) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
3. Removal and Replacement of Auger
ꢀ) Move the control switch to the "DRAIN" position and drain all of the water from the
evaporator.
ꢁ) After the water has stopped draining, move the control switch to the "OFF" position,
then turn off the power supply. Remove the front and top panels, then move the power
switch to the "OFF" position.
3) Remove the front cover of the storage bin. Remove spout B, then remove spout A.
See Fig. ꢀ.
4) Remove the apron panel, then remove the left side panel.
5) Remove the extruding head heater, then remove the allen head cap screws securing
the extruding head. Using the cutter, lift out the auger assembly.
6) Remove the cutter, extruding head, and upper part of the mechanical seal from the
auger and place them on the new auger.
7) Install the new auger assembly with the upper part of the mechanical seal attached and
tighten down the allen head cap screws.
8) Replace the extruding head heater in its correct position.
9) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
ꢀ0) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀꢀ) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
4. Removal and Replacement of Evaporator
IMPORTANT
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.
ꢀ) Move the control switch to the "DRAIN" position and drain all of the water from the
evaporator.
ꢁ) After the water has stopped draining, move the control switch to the "OFF" position,
then turn off the power supply. Remove the front and top panels, then move the power
switch to the "OFF" position.
5ꢁ
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3) Remove the apron panel, then remove the left side panel.
4) Recover the refrigerant and store it in an approved container.
5) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
6) Remove the front cover of the storage bin. Remove spout B, then remove spout A.
See Fig. ꢀ.
7) Remove the extruding head heater, then remove the allen head cap screws securing
the extruding head. Using the cutter, lift out the auger assembly.
8) Remove the evaporator strap and disconnect the water hoses.
9) Disconnect the inlet and outlet tubing.
ꢀ0) Remove the allen head cap screws securing the evaporator to the lower housing.
ꢀꢀ) Lift off the evaporator.
ꢀꢁ) Inspect the mechanical seal and O-ring prior to installing the new evaporator. The
mechanical seal consists of two parts. One moves along with the auger, and the other
is fixed on the lower housing. If the contact surfaces of these two parts are worn,
cracked, or scratched, the mechanical seal may cause water leaks and should be
replaced. Instructions for removing the mechanical seal and lower housing are located
later in this procedure.
ꢀ3) Make sure the lower mechanical seal is in place, then place the new evaporator in
position. Secure the evaporator to the lower housing using the allen head cap screws.
ꢀ4) Remove the drier, then place the new drier in position.
ꢀ5) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
ꢀ6) 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.
ꢀ7) Evacuate the system, and charge it with refrigerant. See the nameplate for the required
refrigerant charge.
ꢀ8) Install the auger assembly with the upper part of the mechanical seal attached and
tighten down the allen head cap screws.
ꢀ9) Replace the evaporator strap and reconnect the water hoses.
ꢁ0) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
ꢁꢀ) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
ꢁꢁ) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢁ3) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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5. Removal and Replacement of Mechanical Seal and Lower Housing
5a. Mechanical Seal
ꢀ) Move the control switch to the "DRAIN" position and drain all of the water from the
evaporator.
ꢁ) After the water has stopped draining, move the control switch to the "OFF" position,
then turn off the power supply. Remove the front and top panels, then move the power
switch to the "OFF" position.
3) Remove the front cover of the storage bin. Remove spout B, then remove spout A.
See Fig. ꢀ.
4) Remove the apron panel, then remove the left side panel.
5) Remove the extruding head heater and the allen head cap screws securing the
extruding head.
6) Using the cutter, lift out the auger assembly, then remove the evaporator strap.
7) The mechanical seal consists of two parts. One moves along with the auger, and the
other is fixed on the lower housing. If the contact surfaces of these two parts are worn,
cracked, or scratched, the mechanical seal may cause water leaks and should be
replaced.
8) Remove the allen head cap screws securing the evaporator to the lower housing.
9) Raise the evaporator up to access the lower housing.
ꢀ0) Remove the mechanical seal from the housing. If only replacing the mechanical seal,
proceed to step ꢀ3.
CAUTION
To help prevent water leaks, be careful not to damage the surfaces of the
O-ring or mechanical seal.
5b. Lower Housing
ꢀꢀ) Remove the O-ring and the bolts securing the housing to the gear motor and remove
the housing from the gear motor. If inspection of the upper bearing inside the extruding
head (see "V.D.ꢀ. Upper Bearing Wear Check") indicates that it is out of tolerance,
replace both it and the bearing inside the lower housing.
Note: Replacing the bearing requires a bearing press adaptor. If one is not available,
replace the whole extruding head and housing.
ꢀꢁ) Install the O-ring and mount the lower housing on the gear motor.
ꢀ3) Install the lower part of the mechanical seal on the lower housing.
ꢀ4) Lower the evaporator down and secure it to the lower housing.
ꢀ5) Install the auger assembly with the upper part of the mechanical seal attached.
ꢀ6) Replace the evaporator strap in its correct position.
ꢀ7) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
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ꢀ8) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ9) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
6. Removal and Replacement of Gear Motor
ꢀ) Move the control switch to the "DRAIN" position and drain all of the water from the
evaporator.
ꢁ) After the water has stopped draining, move the control switch to the "OFF" position,
then turn off the power supply. Remove the front and top panels, then move the power
switch to the "OFF" position.
3) Remove the front cover of the storage bin. Remove spout B, then remove spout A.
See Fig. ꢀ.
4) Remove the apron panel, then remove the left side panel.
5) Remove the evaporator strap.
6) Remove the evaporator assembly bolts securing the evaporator assembly to the gear
motor. Lift the evaporator assembly up slightly. See Fig. 3.
7) Disconnect the wiring from the gear motor, then remove the
gear motor bolts. Lift the gear motor from the drain pan.
8) Place the new gear motor in the drain pan.
9) Using the gear motor bolts and washers, secure the gear
motor.
ꢀ0) Connect the gear motor wires.
ꢀꢀ) Lower the evaporator assembly down and
secure it to the gear motor.
ꢀꢁ) Replace the evaporator strap in its correct
position.
Evaporator
ꢀ3) Replace spout A, spout B, and the front
cover of the storage bin in their correct
positions.
Evaporator
Assembly
Bolts
ꢀ4) Move the power switch to the "ON"
position, then replace the panels in their
correct positions.
Gear Motor Bolts
ꢀ5) Turn on the power supply, then move the
Gear Motor
control switch to the "ICE" position to start
the automatic icemaking process.
Drain Pan
Fig. 3
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E. Removal and Replacement of Self-Contained Air-Cooled Condenser
IMPORTANT
Always install a new drier every time the sealed refrigeration system is opened.
Do not replace the drier until after all other repairs or replacement have been
made.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel, then remove the left side panel.
3) Recover the refrigerant and store it in an approved container.
4) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
5) Remove the four bolts securing the fan motor assembly to the floor of the machine,
then move the assembly to the side.
6) Disconnect the condenser inlet and outlet piping.
7) Remove the screws securing the condenser assembly, then remove the assembly.
8) Remove the shroud from the old condenser and attach it to the new condenser.
9) 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) Replace the fan motor assembly in its correct position.
ꢀ5) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
ꢀ6) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ7) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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F. Removal and Replacement of Water-Cooled Condenser
IMPORTANT
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.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel, then remove the left side panel.
3) Recover the refrigerant and store it in an approved container.
4) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
5) Close the condenser water supply line shut-off valve, then open the condenser water
supply line drain valve.
6) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
7) 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.
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 condenser water supply line drain valve, then open the condenser water
supply line shut-off valve.
ꢀ5) Check for water leaks.
ꢀ6) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
ꢀ7) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ8) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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G. Removal and Replacement of Water Regulating Valve -
Water-Cooled Model Only
IMPORTANT
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.
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel, then remove the left side panel.
3) Recover the refrigerant and store it in an approved container.
4) Disconnect the drip tray hose from the tee. Remove the four screws securing the drip
tray, then remove the drip tray and hose.
5) Close the condenser water supply line shut-off valve, then open the condenser water
supply line drain valve.
6) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
7) 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.
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 condenser water supply line drain valve, then open the condenser water
supply line shut-off valve.
ꢀ8) Check for water leaks.
ꢀ9) Replace the drip tray and drip tray hose in their correct positions. Secure the hose to
the tee. Pour water into the drip tray and check for leaks.
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ꢁ0) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢁꢀ) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
H. Adjustment of Water Regulating Valve - Water-Cooled Model Only
The water regulating valve (also called "water regulator") is factory-adjusted. No adjustment
is required under normal use. Adjust the water regulator, if necessary, 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
to ꢀꢀ5°F (40°C to 46°C). If it does not,
rotate the adjustment screw by using a flat
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.
CW – Higher
CCW – Lower
Top View
Fig. 4
3) Check that the condenser drain temperature is stable.
I. Removal and Replacement of Fan Motor
ꢀ)Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the apron panel.
3) Disconnect the wire connectors from the fan motor leads.
4) Remove the fan motor bracket.
5) Remove the fan blade and install it onto the new fan motor.
6) Install the new fan motor onto the fan motor bracket.
7) Replace the fan motor bracket in its correct position and reconnect the wire connectors.
8) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
9) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
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J. Removal and Replacement of Inlet or Dispensing Water Valve
ꢀ) Close the water supply line shut-off valve.
ꢁ) Open the water supply line drain valve.
3) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
4) Remove the apron panel. For the inlet water valve, remove the left side panel. For the
dispensing water valve, remove the right side panel.
5) Disconnect the wire terminals from the water valve.
6) Loosen the fitting nut on the water valve. Do not lose the washer inside the fitting nut.
7) Remove the water valve bracket (inlet water valve) or water valve (dispensing water
valve).
8) Remove the old water valve and install the new water valve. Remove the supply hose
from the old water valve and place on the new water valve.
9) Replace the water valve bracket (inlet water valve) or water valve (dispensing water
valve) in its correct position.
ꢀ0) Reconnect the wire terminals.
ꢀꢀ) Reconnect the fitting nut on the water valve. Make sure the washer is in place in the
fitting nut.
ꢀꢁ) Close the water supply line drain valve and open the water supply line shut-off valve.
ꢀ3) Check for water leaks.
ꢀ4) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
ꢀ5) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
K. Removal and Replacement of Drain Valve
ꢀ) Close the water supply line shut-off valve.
ꢁ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
3) Remove the apron panel, then the right and left side panels. Next, remove the rear
panel.
4) Prepare a container to catch water from the reservoir and evaporator, then disconnect
the hose from the drain valve and allow all of the water from the reservoir and
evaporator to drain into the container.
5) Disconnect the wire terminals from the drain valve.
6) Remove the drain valve bracket.
7) Remove the old drain valve and install the new drain valve.
8) Replace the drain valve bracket in its correct position.
9) Reconnect the wires and hoses.
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ꢀ0) Open the water supply line shut-off valve.
ꢀꢀ) Turn on the power supply, move the power switch to the "ON" position, then replace the
front panel in its correct position to engage the door switch. Move the control switch to
the "ICE" position.
ꢀꢁ) Allow the icemaker to fill for two minutes.
ꢀ3) Move the control switch to the "OFF" position.
ꢀ4) Remove the front panel and check for water leaks.
ꢀ5) Move the control switch to the "DRAIN" position. Engage the door switch and
make sure that water is draining and that there are no water leaks around the hose
connection.
ꢀ6) Move the control switch to the "OFF" position and disengage the door switch.
ꢀ7) Replace the panels in their correct positions.
ꢀ8) Move the control switch to the "ICE" position to start the automatic ice making process.
L. Removal and Replacement of Dispensing System
1. Dispensing Auger and Agitator
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the front cover of the storage bin.
3) Remove the thumbscrews from the vertical plane, then loosen the thumbscrews from
the horizontal plane of the gear motor bracket. Slide the gear motor back.
Note: Hold the dispensing auger/agitator to prevent it from dropping when sliding back
the gear motor. See Fig. 5.
4) Replace the dispensing auger/agitator with the new one.
5) Assemble the removed parts in the reverse order of which they were removed.
6) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
7) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
2. Dispensing or Agitating Motor
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
ꢁ) Remove the storage bin front panel.
3) Remove the thumbscrews from the vertical plane, then loosen the thumbscrews from
the horizontal plane of the motor bracket. Slide the motor back.
Note: Hold the dispensing auger/agitator to prevent it from dropping when sliding back
the motor. See Fig. 5.
4) Remove the thumbscrews from the horizontal plane of the motor bracket.
5) Remove the motor from the bracket.
6ꢀ
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6) Install the new motor.
7) Assemble the removed parts in the reverse order of which they were removed.
8) Move the power switch to the "ON" position, then replace the panels in their correct
positions.
9) Turn on the power supply, then move the control switch to the "ICE" position to start the
automatic icemaking process.
Agitator
Agitating Motor
Dispensing Motor
Dispensing Auger
Fig. 5
6ꢁ
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VI. Cleaning and Maintenance
IMPORTANT
Ensure all components, fasteners, and thumbscrews are securely in place after
any cleaning or maintenance is done to the equipment.
A. Cleaning and Sanitizing Instructions
HOSHIZAKI recommends cleaning this unit at least twice a year. More frequent
cleaning, however, may be required in some existing water conditions.
WARNING
ꢀ. To prevent injury to individuals, do not use any ammonia type cleaners.
ꢁ. Carefully follow any instructions provided with the bottles of cleaning and
sanitizing solution.
3. Always wear liquid-proof gloves to prevent the cleaning and sanitizing
solutions from coming into contact with skin.
4. After cleaning, do not use ice made from the cleaning and sanitizing
solutions. Be careful not to leave any solution on the parts or in the storage
bin.
Extruding Head
Spout A
Spout B
Evaporator Assembly
Reservoir
Agitator (L)
Agitator (R)
Power Switch
Dispensing Auger
Control Switch
Dispense Mode Switch
Agitating Motor (L)
Dispensing Motor
Agitating Motor (R)
Fig. 6
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1. Water System
a) Cleaning Solution
Dilute 9.6 fl. oz. (0.ꢁ9 l) of recommended cleaner, Hoshizaki "Scale Away" or "LIME-A-
WAY" (Economics Laboratory, Inc.), with ꢀ.6 gal. (6.0 l) of warm water.
b) Cleaning Procedure
ꢀ) Close the water supply line shut-off valve.
ꢁ) Move the dispense mode switch to the "CONTINUOUS" position, then dispense all of
the ice from the storage bin.
3) Move the control switch to the "DRAIN" position and allow the water system to drain for
5 minutes.
Note: If the unit is running, the drain valve will not open until ꢁ.5 minutes after the
control switch is moved to the "DRAIN" position. This allows the components to
cycle down.
4) Move the control switch to the "OFF" position, then turn off the power supply. Remove
the front and top panels, then move the power switch to the "OFF" position.
5) Remove the front cover of the storage bin. Remove spout B, then remove spout A. See
Fig. 6.
6) Pour the cleaning solution over the extruding head until the evaporator assembly and
the reservoir are full and the solution starts to overflow into the drain pan.
Note: If there is excess scale on the extruding head, fill the evaporator assembly and
reservoir as described above, then use a clamp on the reservoir hose between
the reservoir and evaporator assembly to block flow. Pour additional cleaning
fluid over the extruding head until the evaporator assembly is completely full.
7) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
8) Allow the icemaker to sit for about ꢀ0 minutes before operation. If you placed a clamp
on the reservoir hose in step 6, remove it before operation.
9) Move the power switch to the "ON" position and replace the panels in their correct
positions. Turn on the power supply, then move the control switch to the "ICE" position.
Make ice using the solution until the icemaker stops making ice.
Note: This unit will not run without the front panel in position.
ꢀ0) Move the control switch to the "DRAIN" position and allow the solution to drain for
5 minutes.
ꢀꢀ) Move the control switch to the "ICE" position. Open the water supply line shut-off valve
to supply water to the reservoir.
ꢀꢁ) After the gear motor starts, move the control switch to the "DRAIN" position and allow
the water system to drain for 5 minutes.
Note: If you do not sanitize the unit, move the control switch to the "ICE" position after
the water system drains. Allow the icemaker to run for about 30 minutes, then
move the control switch to the "OFF" position. Turn off the power supply, then
remove the front panel and front cover of the storage bin. Go to step ꢀꢁ in "VI.
A.ꢁ.c) Cleaning and Sanitizing Procedure."
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ꢀ3) Move the control switch to the "OFF" position, then turn off the power supply.
ꢀ4) Close the water supply line shut-off valve.
c) Sanitizing Solution
Dilute 0.8ꢁ fl. oz. (ꢁ5 ml) of a 5.ꢁ5% sodium hypochlorite solution (chlorine bleach) with
ꢀ.6 gal. (6.0 l) of warm water.
d) Sanitizing Procedure - Following Cleaning Procedure
ꢀ) Make sure the control switch is in the "OFF" position, the power supply is off, and the
water supply line shut-off valve is closed.
ꢁ) Remove the front and top panels, then move the power switch to the "OFF" position.
3) Remove the front cover of the storage bin. Remove spout B, then remove spout A.
4) Pour the sanitizing solution over the extruding head until the evaporator assembly and
the reservoir are full and the solution starts to overflow into the drain pan.
5) Replace spout A, spout B, and the front cover of the storage bin in their correct
positions.
6) Allow the icemaker to sit for about ꢀ0 minutes before operation.
7) Move the power switch to the "ON" position and replace the panels in their correct
positions. Turn on the power supply, then move the control switch to the "ICE" position.
Make ice using the solution until the icemaker stops making ice.
8) Move the control switch to the "DRAIN" position and allow the solution to drain for
5 minutes.
9) Move the control switch to the "ICE" position. Open the water supply line shut-off valve
to supply water to the reservoir.
ꢀ0) After the gear motor starts, move the control switch to the "DRAIN" position and allow
the water system to drain for 5 minutes.
ꢀꢀ) Move the control switch to the "ICE" position to start the automatic icemaking process.
Allow the icemaker to run for about 30 minutes, then clean and sanitize the dispensing
components as outlined below.
2. Dispensing Components
Perform after cleaning and sanitizing the water system as outlined above.
a) Cleaning Solution
Dilute 9.6 fl. oz. (0.ꢁ9 l) of recommended cleaner, Hoshizaki "Scale Away" or "LIME-A-
WAY" (Economics Laboratory, Inc.), with ꢀ.6 gal. (6.0 l) of warm water.
b) Sanitizing Solution
Dilute 0.8ꢁ fl. oz. (ꢁ5 ml) of a 5.ꢁ5% sodium hypochlorite solution (chlorine bleach) with
ꢀ.6 gal. (6.0 l) of warm water.
c) Cleaning and Sanitizing Procedure
ꢀ) Move the control switch to the "OFF" position, then turn off the power supply.
ꢁ) Remove the front and top panels, then move the power switch to the "OFF" position.
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3) Remove the front cover of the storage bin.
4) Remove the motor bracket thumbscrews, first from the vertical plane and then from the
horizontal plane. While holding on to the corresponding agitator or auger, move the
agitating motor or the dispensing motor towards you. Remove the agitators and the
dispensing auger from the storage bin. See Fig. 6.
5) Remove the bin control assembly. See Fig. 7.
6) Remove the snap pin, shaft, and actuator.
7) Remove spout B, spout A, and their gaskets.
8) Remove the spout cover, ice dispensing spout, and water dispensing nozzle. See
Fig. 8. Also remove the ice guide, drain pipe holder, and drain pipe from the storage
bin.
9) Immerse the agitator, dispensing auger, and parts removed in steps 5 through 8 in the
cleaning solution and then in the sanitizing solution for about ꢀ5 minutes each. Rinse
the parts thoroughly with clean water.
ꢀ0) Wipe the shutter located above the ice dispensing spout thoroughly with a clean cloth.
ꢀꢀ) Reassemble the bin control assembly and replace all parts in the reverse order of which
they were removed.
ꢀꢁ) Pour warm water into the storage bin and melt any remaining ice. Clean the storage bin
liner and the front cover of the storage bin using a neutral cleaner. Rinse thoroughly
after cleaning. Replace the front cover of the storage bin in its correct position.
ꢀ3) Move the power switch to the "ON" position and replace the panels in their correct
positions. Turn on the power supply, then move the control switch to the "ICE" position
to start the automatic icemaking process.
Bin Control Bracket
Snap Pin
Water Dispensing Nozzle
Shaft
Ice Dispensing Spout
Spout Cover
Actuator
Fig. 7
Fig. 8
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B. Maintenance
This icemaker must be maintained individually, referring to the instruction manual and
labels provided with the icemaker. The schedule below is a guideline. More frequent
maintenance, however, may be required depending on water quality, the icemaker's
environment, and local sanitation regulations.
Consult with your local distributor about inspection and maintenance service. To obtain
Hoshizaki Technical Support at ꢀ-800-ꢁ33-ꢀ940 in the USA.
WARNING
ꢀ. Only qualified service technicians should attempt to service or maintain this
icemaker.
ꢁ. Disconnect power before performing maintenance.
Maintenance Schedule
Frequency Area
Task
Every ꢁ
Weeks
Air Filter
Inspect. Wash with warm water and neutral cleaner if dirty.
Monthly
External Water
Filters
Check for proper pressure and change if necessary.
Icemaker Exterior Wipe down with a clean, soft cloth. Use a damp cloth containing a neutral
cleaner to wipe off oil or dirt build up. Clean any chlorine staining (rust
colored spots) using a non-abrasive cleaner like Zud or Bon Ami.
Every 6
Months
Icemaker and
Storage Bin
Clean and sanitize per the cleaning and sanitizing instructions provided in
this manual.
Evaporator
Wipe down with a clean cloth and warm water. Slowly pour one cup of
Condensate Drain sanitizing solution (prepare as outlined in the sanitizing instructions in
Pan and Gear
Motor Drain Pan
this manual) into the evaporator condensate drain pan. Be careful not to
overflow the pan. This solution will flow down to the gear motor drain pan
and out the drain line to sanitize these areas. Repeat with a cup of clean
water to rinse.
Icemaker and Bin Check to make sure they are clear.
Drains
Yearly
Inlet Water Valve
and Drain Valve
Close the water supply line shut-off valve and drain the water system.
Clean the inlet water valve screen and clean and inspect the drain valve.
Water Hoses
Condenser
Icemaker
Inspect the water hoses and clean/replace if necessary.
Inspect. Clean if necessary by using a brush or vacuum cleaner.
Inspect for oil spots, loose components, fasteners, and wires.
Upper Bearing
(extruding head)
Check for wear using .0ꢁ" round stock or pin gauge. Replace both upper
bearing and lower bearing if wear exceeds factory recommendations. See
the Service Manual for details.
After
3 Years,
then Yearly Lower Bearing
and O-Ring
Upper Bearing
(extruding head);
Inspect. Replace both upper bearing and lower bearing if wear exceeds
factory recommendations. Replace the mechanical seal if the seal's contact
surfaces are worn, cracked, or scratched.
(lower housing);
Mechanical
Seal; Evaporator
Cylinder; Auger
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C. Preparing the Icemaker for Long Storage
CAUTION
When the icemaker is not used for two or three days under normal conditions,
it is sufficient to only move the control switch to the "OFF" position. When
storing the icemaker for extended time or in sub-freezing temperatures, turn
the water off and drain out all water from the water lines and remove the ice
from the storage bin. The storage bin should be cleaned and dried. Drain
the icemaker water hoses using air or carbon dioxide to prevent damage at
sub-freezing temperatures.
1. Remove the ice from the storage bin, drain the water system, and remove the water
from the icemaker/water dispenser water supply line:
ꢀ) Close the icemaker/water dispenser water supply line shut-off valve and open the
icemaker/water dispenser water supply line drain valve.
ꢁ) Move the dispense mode switch to the "CONTINUOUS" position, then dispense all of
the ice from the storage bin.
3) Move the control switch to the "DRAIN" position and allow the water system to drain for
5 minutes.
Note: If the unit is running, the drain valve will not open until ꢁ.5 minutes after the
control switch is moved to the "DRAIN" position. This allows the components to
cycle down.
4) Attach a compressed air or carbon dioxide supply to the icemaker/water dispenser
water supply line drain valve.
5) While engaging the water dispense switch, blow out the water dispense valve using the
compressed air or carbon dioxide supply. After blowing out the water dispense valve,
leave the compressed air or carbon dioxide supply flowing. Move the control switch
to the "ICE" position to open the inlet water valve and briefly blow out the valve. After
blowing out the inlet water valve, move the control switch to the "OFF" position.
6) Close the icemaker/water dispenser water supply line drain valve.
7) Turn off the power supply. then remove the front panel and move the power switch to
the "OFF" position.
8) Remove the front cover of the storage bin. Clean the storage bin liner and the front
cover of the storage bin using a neutral cleaner. Rinse thoroughly after cleaning.
Replace the front cover of the storage bin and the front panel in their correct positions.
Note: If your unit has a water-cooled condenser, leave the front panel off and go to the
next section.
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2. On water-cooled model only, remove the water from the water-cooled condenser:
ꢀ) Make sure the control switch and the power switch are in the "OFF" position and that
the power supply is off. Remove the top, apron, and left side panels.
ꢁ) Close the condenser water supply line shut-off valve and open the condenser water
supply line drain valve.
3) Attach a compressed air or carbon dioxide supply to the condenser water supply line
drain valve.
4) 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.
5) Close the condenser water supply line drain valve.
6) Replace the panels in their correct positions.
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