Hoshizaki America, Inc.
Hoshizaki
Modular Crescent Cuber
Serenity Series
Model
KMS-1401MLJ
Including
Condensing Unit Models
SRK-14J/3
SERVICE MANUAL
“A Superior Degree
of Reliability”
Number: 73192
Issued: 12-28-2011
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IMPORTANT
This manual should be read carefully before the icemaker is serviced. Read
the warnings and guidelines contained in this booklet carefully as they provide
essential information for the continued safe use, service, and maintenance of the
icemaker. Retain this booklet for any further reference that may be necessary.
CONTENTS
Important Safety Information ................................................................................................. 5
I. Specifications...................................................................................................................... 7
A. Icemaker ....................................................................................................................... 7
1. KMS-1401MLJ with SRK-14J................................................................................... 7
2. KMS-1401MLJ with SRK-14J3 ............................................................................... 8
B. Condensing Unit............................................................................................................ 9
1. SRK-14J................................................................................................................... 9
2. SRK-14J3 .............................................................................................................. 10
II. General Information..........................................................................................................11
A. Construction................................................................................................................11
1. Icemaker ................................................................................................................11
2. Condensing Unit ................................................................................................... 12
B. Sequence of Operation ............................................................................................... 13
1. Sequence Cycles and Shutdown ........................................................................... 13
a) 1-Minute Fill Cycle............................................................................................ 13
b) Initial Harvest Cycle ........................................................................................ 13
c) Freeze Cycle ................................................................................................... 13
d) Pump-Out Cycle............................................................................................... 14
e) Harvest Cycle .................................................................................................. 14
f) Shutdown......................................................................................................... 14
2. Sequence Flow Chart............................................................................................ 15
C. Control Board.............................................................................................................. 16
1. Control Board Layout ............................................................................................. 17
2. LED Lights and Audible Alarm Safeties ................................................................. 18
3. Controls and Adjustments...................................................................................... 19
a) Default Dip Switch Settings.............................................................................. 19
b) Harvest Timer (S4 dip switch 1 & 2)................................................................. 19
c) Pump-Out Timer (S4 dip switch 3 & 4)............................................................. 20
d) Pump-Out Frequency Control (S4 dip switch 5 & 6)......................................... 20
e) Harvest Pump Timer (S4 dip switch 7)............................................................. 21
f) Factory Use (S4 dip switch 8)........................................................................... 21
g) Freeze Timer (S4 dip switch 9 & 10) ................................................................ 21
h) Float Switch Selector (S5 dip switch 1)............................................................ 22
i) Refill Counter (S5 dip switch 2 through 5)......................................................... 22
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D. Control and Service Switches ..................................................................................... 23
1. Control Switch........................................................................................................ 23
2. Service Switch....................................................................................................... 23
a) DRAIN.............................................................................................................. 23
b) CIRC. ............................................................................................................... 23
c) WASH............................................................................................................... 23
III. Technical Information...................................................................................................... 24
A. Water Circuit and Refrigeration Circuit........................................................................ 24
B. Wiring Diagrams.......................................................................................................... 25
1. KMS-1401MLJ with SRK-14J................................................................................. 25
2. KMS-1401MLJ with SRK-14J3 .............................................................................. 26
3. Wire Harness Connections.................................................................................... 27
C. Performance Data ....................................................................................................... 28
1. KMS-1401MLJ with SRK-14J................................................................................. 28
2. KMS-1401MLJ with SRK-14J3 .............................................................................. 29
IV. Service Diagnosis........................................................................................................... 30
A. Diagnostic Procedure.................................................................................................. 30
B. Control Board Check................................................................................................... 34
C. Bin Control Check and Cleaning................................................................................. 35
1. Bin Control Check .................................................................................................. 35
2. Bin Control Cleaning.............................................................................................. 36
D. Float Switch Check and Cleaning ............................................................................... 37
1. Float Switch Check ................................................................................................ 37
2. Float Switch Cleaning............................................................................................ 38
E. Thermistor Check........................................................................................................ 39
F. Diagnostic Charts ........................................................................................................ 40
1. No Ice Production................................................................................................... 40
2. Freeze-Up.............................................................................................................. 41
3. Low Ice Production ................................................................................................ 43
V. Replacement of Components .......................................................................................... 44
A. Service for Refrigerant Lines....................................................................................... 44
1. Refrigerant Recovery ............................................................................................. 44
2. Brazing .................................................................................................................. 45
3. Evacuation and Recharge (R-404A)...................................................................... 45
B. Important Notes for Component Replacement............................................................ 47
VI. Cleaning and Maintenance ............................................................................................ 48
A. Cleaning and Sanitizing Instructions........................................................................... 48
1. Cleaning Procedure................................................................................................ 49
2. Sanitizing Procedure - Following Cleaning Procedure........................................... 50
B. Maintenance................................................................................................................ 51
C. Preparing the Icemaker for Periods of Non-Use.......................................................... 52
VII. Disposal......................................................................................................................... 54
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Important Safety Information
Throughout this manual, notices appear to bring your attention to situations which could
result in death, serious injury, damage to the icemaker, or damage to property.
WARNING
NOTICE
IMPORTANT
Indicates a hazardous situation which could result in death or
serious injury.
Indicates a situation which could result in damage to the
appliance or property.
Indicates important information about the use and care of the
appliance.
WARNING
This icemaker should be destined only to the use for which it has been expressly
conceived. Any other use should be considered improper and therefore dangerous.
The manufacturer cannot be held responsible for injury or damage resulting from
improper, incorrect, and unreasonable use. Failure to service and maintain the
appliance in accordance with this manual will adversely affect safety, performance,
component life, and warranty coverage and may result in costly water damage.
To reduce the risk of death, electric shock, serious injury, or fire, follow basic
precautions including the following:
• Only qualified service technicians should install and service this icemaker.
• This icemaker must be installed in accordance with applicable national, state, and
local codes and regulations. Failure to meet these code requirements could result in
death, electric shock, serious injury, fire, or damage to the appliance.
• To reduce the risk of electric shock, do not touch the control switch or service switch
with damp hands.
• Before Servicing the KMS or SRK: To reduce the risk of electric shock, move
the control switch to the "OFF" position and turn off the power supply to the
SRK condensing unit. Place the KMS disconnect (if applicable) in the "OFF"
position. Lockout/Tagout to prevent the power supply from being turned back on
inadvertently.
• Do not make any alterations to the icemaker. Alterations could result in electric
shock, injury, fire, or damage to the icemaker.
• This appliance is not intended for use by persons (including children) with reduced
physical, sensory, or mental capabilities, or lack of experience and knowledge,
unless they have been given supervision or instruction concerning use of the
appliance by a person responsible for their safety.
• Children should be properly supervised around this appliance.
• Do not climb, stand, or hang on the icemaker or allow children or animals to do so.
Serious injury could occur or the icemaker could be damaged.
• Do not use combustible spray or place volatile or flammable substances near the
icemaker. They might catch fire.
• Keep the area around the icemaker clean. Dirt, dust, or insects in the icemaker
could cause harm to individuals or damage to the icemaker.
5
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WARNING, continued
For KMS
• Power supply and ground connection are supplied from the SRK remote condensing
unit via the wire harness provided. Do not connect the wire harness leads to an
external power source.
• Wire harness routing (conduit) and disconnect (if required) must meet national,
state, and local electrical code requirements. Failure to meet these code
requirements could result in death, electric shock, serious injury, fire, or damage to
the appliance.
• THE ICEMAKER MUST BE GROUNDED. Failure to properly ground the icemaker
could result in death, serious injury, or damage to the appliance.
For SRK
• Electrical connection must be hard-wired and must meet national, state, and local
electrical code requirements. Failure to meet these code requirements could result
in death, electric shock, serious injury, fire, or damage to the appliance.
• The remote condensing unit requires an independent power supply of proper
capacity. See the nameplate for electrical specifications. Failure to use an
independent power supply of proper capacity can result in a tripped breaker, blown
fuses, damage to existing wiring, or component failure. This could lead to heat
generation or fire.
• THE REMOTE CONDENSING UNIT MUST BE GROUNDED. Failure to properly
ground the remote condensing unit could result in death, serious injury, or damage
to the appliance.
NOTICE
• Follow the instructions in this manual carefully to reduce the risk of costly water
damage.
• In areas where water damage is a concern, install in a contained area with a floor
drain.
• Install the icemaker in a location that stays above freezing. Normal operating
ambient temperature must be within 45°F to 100°F (7°C to 38°C).
• Do not leave the icemaker on during extended periods of non-use, extended
absences, or in sub-freezing temperatures. To properly prepare the icemaker for
these occasions, follow the instructions in "VI.C. Preparing the Icemaker for Periods
of Non-Use."
• Do not place objects on top of the icemaker.
• The dispenser unit/storage bin is for ice use only. Do not store anything else in the
dispenser unit/storage bin.
6
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I. Specifications
A. Icemaker
1. KMS-1401MLJ with SRK-14J
AC SUPPLY VOLTAGE
115VAC Supplied by SRK-14J via Factory Supplied
Wire Harness
APPROXIMATE ICE PRODUCTION
PER 24 HR.
lb./day ( kg/day )
Ambient
Temp.(°F)
70
WATER TEMP. (°F)
70
1379 (626)
1325 (601)
*1280 (581)
1252 (568)
50
90
*1420 (644)
1389 (630)
1379 (626)
1344 (609)
1278 (580)
1199 (544)
1162 (527)
1054 (478)
Reference without *marks
80
90
100
SHAPE OF ICE
Crescent Cube
ICE PRODUCTION PER CYCLE
ELECTRIC & WATER CONSUMPTION
KMS/SRK COMBINED ELECTRIC W (kWH/100 lb.)
WATER gal./24HR (gal./100 lb.)
CEE TIER
25.8 lb. (11.7 kg) 1248pcs.
90/70°F
2510(4.70)
70/50°F
2410(4.07)
682(48.0)
250(19.5)
1
ENERGY STAR
YES
EXTERIOR DIMENSIONS (WxDxH)
EXTERIOR FINISH
WEIGHT
CONNECTIONS - ELECTRIC
- WATER SUPPLY
30"x24"x28" (762x610x711 mm)
Stainless Steel, Galvanized Steel (Rear)
Net 143 lb. (65 kg), Shipping 177 lb. (80 kg)
Wire Harness Connection from SRK to KMS
Inlet
1/2" FPT
- DRAIN
Outlet
3/4" FPT
-CONDENSATION DRAIN OUTLET
-REFRIGERATION
5/8" OD Hard Tube
1 1/16" - 12 UNF Fitting (#10 Parker)
1 1/8" - 12 UNF Fitting (#11 Parker)
Liquid Line
Suction Line
Float Switch
CUBE CONTROL SYSTEM
HARVESTING CONTROL SYSTEM
ICE MAKING WATER CONTROL
COOLING WATER CONTROL
BIN CONTROL SYSTEM
COMPRESSOR
Hot Gas and Water, Thermistor and Timer
Timer Controlled, Overflow Pipe, and Float Switch
N/A
Mechanical Bin Control
In SRK
CONDENSER
EVAPORATOR
REFRIGERANT CONTROL
Air-Cooled Remote Condensing Unit SRK-14J
Vertical Type, Stainless Steel and Copper
Thermostatic Expansion Valve
Headmaster (C.P.R.) in SRK-14J (160 PSI)
R404A, 16 lb. 5 oz. (7400g)
(Icemaker 0 lb. 7.1 oz. (200g))
(Cond. Unit 15 lb. 14 oz. (7200g))
High 467PSIG, Low 230PSIG
High Voltage Cut-Out (Internal)
Auto-Reset High-Pressure Switch in SRK-14J
Auto-Reset Discharge Line Thermostat in SRK-14J
Float Switch
REFRIGERANT CHARGE
DESIGN PRESSURE
CONTROL BOARD CIRCUIT PROTECTION
REFRIGERANT CIRCUIT PROTECTION
LOW WATER PROTECTION
ACCESSORIES -SUPPLIED
-REQUIRED
N/A
Dispenser Unit or Ice Storage Bin
SRK-14J Remote Condensing Unit
VOLTAGE RANGE
OPERATING CONDITIONS
187-253VAC
AMBIENT TEMP.
WATER SUPPLY TEMP.
45-100°F
45-90°F
WATER SUPPLY PRESSURE
10-113 PSIG
Note: We reserve the right to make changes in specifications and design without prior
notice.
7
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2. KMS-1401MLJ with SRK-14J3
Data Pending
Note: We reserve the right to make changes in specifications and design without prior
notice.
8
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B. Condensing Unit
1. SRK-14J
AC SUPPLY VOLTAGE
208-230/60/1 ( 3 wire with neutral for 115V )
(115VAC Supplied to KMS via Factory Wire Harness)
13.5 A ( 5 Min. Freeze AT 104°F / WT 80°F )
20 A
AMPERAGE
MINIMUM CIRCUIT AMPACITY
MAXIMUM FUSE SIZE
20 A
EXTERIOR DIMENSIONS (WxDxH)
DIMENSIONS INCLUDING LEGS (WxDxH)
EXTERIOR FINISH
50" x 17" x 28" ( 1270 x 432 x 711 mm )
52-3/8" x 19-1/2" x 43" ( 1330 x 495 x 1092 mm )
Galvanized steel
WEIGHT
Net 230 lb. (104 kg)
Shipping 275 lb. (125 kg)
CONNECTIONS - ELECTRIC
Main Power Supply: Permanent Connection
SRK to KMS: Wire Harness Connection
- REFRIGERANT
Liquid Line
1 1/16" - 12 UNF Fitting (#10 Parker)
Suction Line 1 1/8" - 12 UNF Fitting (#11 Parker)
Hermetic, Model CS16K6E-PFV-255
COMPRESSOR
CONDENSER
Air Cooled, Fin and Tube Type
Auto-Reset Overload Protector (Internal)
Thermal Protection
COMPRESSOR PROTECTION
FAN MOTOR PROTECTION
REFRIGERANT CIRCUIT PROTECTION
Auto-Reset High-Pressure Switch
Auto-Reset Discharge Line Thermostat
Headmaster (C.P.R.) (160 PSI)
16 lb. 5 oz. (7400g))
REFRIGERANT CONTROL
REFRIGERANT CHARGE
(Condensing Unit 15 lb. 14 oz. (7200g))
(Icemaker 0 lb. 7.1 oz. (200g))
High 467 PSIG, Low 230 PSIG
DESIGN PRESSURE
OPERATING CONDITIONS
VOLTAGE RANGE
AMBIENT TEMP. (Outdoor use)
Leg
187 - 253VAC
-20 - 122°F
ACCESSORIES -SUPPLIED
2 pcs
8 pcs
8 pcs
Hex Head Bolt w/Washer
Hex Nut
M8x16
M8
-REQUIRED
Compatible KMS Icemaker
Note: We reserve the right to make changes in specifications and design without prior
notice.
9
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2. SRK-14J3
Data Pending
Note: We reserve the right to make changes in specifications and design without prior
notice.
10
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II. General Information
A. Construction
1. Icemaker
Spray Tubes
Hot Gas Valve
Wash Valve
Harvest Water Valve (WV2)
Liquid Line Valve
Service Valve
(High Side)
Drier
Service Valve
(Low Side)
Thermistor
Control Board
Control Box
Fill/Refill Water Valve (WV1)
Control Switch
Service Switch
Fuse
Switch Box
Drain Water Valve
Pump Motor
Float Switch
Bin Control
Switch Cover
Switch Mount
Switch Bracket
Extension Bracket
Bin Control
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2. Condensing Unit
SRK-14J Control Box
SRK-14J3 Control Box
Fuse
Fuse
Condenser
Headmaster (C.P.R.)
Hot Gas Valves
Liquid Line Valve
Shut-Off Valve
(Low Side)
Check Valve
Fan Motors and Fan Blades
Shut-Off Valve (High Side)
High Pressure Switch
Compressor
Receiver
Thermostat (Discharge Pipe)
Accumulator
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B. Sequence of Operation
1. Sequence Cycles and Shutdown
The steps in the sequence are as outlined below. When power is supplied, the red
"POWER OK" LED and the green "BC CLOSED" LED on the CB turn on (If yellow
"BC OPEN" LED is on, the icemaker will not start. In this case clear ice away from BC
actuator paddle in the storage bin area). A 5-second delay occurs at startup. Note that
the order of the green sequence LEDs from the outer edge of the board is 1, 4, 3, 2.
a) 1-Minute Fill Cycle
LED 4 is on. WV1 opens and the fill period begins. After 1-minute, CB checks for closed
F/S. If F/S is closed, the harvest cycle begins. If not, WV1 will remain energized through
additional 1-minute cycles until water enters the water tank and F/S closes. This serves
as a low water safety to protect the water pump.
b) Initial Harvest Cycle
LEDs 1, 4 and 2 are on. Comp, FMRs, HGVs, X10 relay, WV2, X12 relay, and X13
relay energize. WV1 de-energizes. CB monitors the warming of the evaporator via the
thermistor located on the suction line. When the thermistor reaches 48°F (9°C), CB
reads 3.9 kΩ from the thermistor and turns harvest termination over to the adjustable
harvest timer (S4 dip switch 1 & 2). The harvest timer has settings of 60, 90, 120, and
180 seconds. The pump-out timer (S4 dip switch 3 & 4) acts in place of the harvest timer
during cycles with a pump-out (S4 dip switch 5 & 6). WV2 and X12 relay are energized
during harvest for a maximum of 6 minutes or the length of harvest minus 50 seconds,
whichever is shorter. 50 seconds before the harvest timer terminates, harvest pump timer
starts. LED 4 turns off, WV2 and X12 relay de-energize.
Harvest Pump Timer: LEDs 1, 3, and 2 are on. Comp, FMRs, HGVs, X10 relay, and
X13 relay continue. LED 4 turns off, WV2 and X12 relay de-energize. LED 3 turns on and
X11 relay energizes, allowing PM to energize for the last 50 seconds of harvest. NOTICE!
S4 dip switch 7 must remain in the factory default position of 7 on. Otherwise,
PM will not energize during the last 50 seconds of harvest. The minimum total
time allowed by CB for a complete harvest cycle is 2 minutes. At the end of harvest,
CB checks position of F/S and proceeds to the freeze cycle if it is closed or calls for a
1-minute fill if it is open.
c) Freeze Cycle
LED 1 and LED 4 are on. Comp, FMRs, and PM remain energized. LLVs energize. WV1
and LED 4 energize for 1 min. HGVs, X10, X11, and X13 relays de-energize. For the first
5 minutes, CB will not terminate the freeze cycle. At the end of 5 minutes, F/S assumes
control of the freeze cycle. As ice builds on the evaporator, the water level in the water
tank lowers. Freeze continues until F/S opens, provided the 5-minute minimum freeze
timer has terminated.
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d) Pump-Out Cycle
LEDs 1, 3, and 2 are on. Comp and FMRs remain energized, HGVs and X10 relay
energize. LLVs de-energize. PM stops for 2 seconds, then X11 relay energizes, allowing
PM and DV to energize for 10 or 20 seconds (S4 dip switch 3 & 4). Water is removed
from the bottom of the water tank and sent down the drain. At the same time, water flows
through the small F/S tube to power flush F/S. When the pump-out timer terminates,
pump-out is complete.
The 1st pump-out occurs after the 11th freeze cycle, then every 10th cycle thereafter.
The pump-out frequency control is factory set, and generally no adjustment is required.
However, where water quality is bad and the icemaker needs a pump-out more often,
the pump-out frequency can be adjusted. The pump-out frequency control (S4 dip
switch 5 & 6) can be set to have a pump-out occur every cycle, or every 2, 5, or
10 cycles. Timing of the first pump-out is dependent on S4 dip switch 5 & 6 settings. See
the table below.
S4 Dip Switch Setting
Pump-Out
Frequency
1st Pump-Out
No. 5
OFF
ON
No. 6
OFF
OFF
ON
Every cycle
Every 2 cycles
Every 5 cycles
Every 10 cycles
After 2nd freeze cycle
After 3rd freeze cycle
After 6th freeze cycle
After 11th freeze cycle
OFF
ON
ON
e) Harvest Cycle
LEDs 1, 4, and 2 are on. Same as the initial harvest cycle. See "II.B.1.b) Initial Harvest
Cycle."
Note: Icemaker continues to cycle until BC is satisfied or power is turned off. The
icemaker always restarts at the 1-minute fill cycle.
f) Shutdown
When BC is activated (BC open), the yellow "BC OPEN" LED comes on. The icemaker
then shuts down as outlined in the table below.
Cycle at Bin
Shutdown
Control Activation
Fill Cycle
15 seconds after activation.
Harvest Cycle
At the end of the harvest cycle, or up to 15 seconds into the freeze cycle if activated
at the end of the harvest cycle.
Freeze Cycle
15 seconds after activation if activated at least 15 seconds before the 5-minute short
cycle protection timer terminates. Otherwise, at the end of the next harvest cycle.
Legend: CB–control board; Comp–compressor; DV–drain valve; FMRs–fan
motors-remote; F/S–float switch; HGVs–hot gas valves; LLVs–liquid line
valves; PM–pump motor; WV1–fill/refill water valve; WV2–harvest water valve
14
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2. Sequence Flow Chart
15
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C. Control Board
• A Hoshizaki exclusive control board is employed in the Hoshizaki icemakers.
• All models are pretested and factory adjusted.
• For a control board check procedure, see "IV.B. Control Board Check."
NOTICE
• 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
icemaker when handling or replacing the control board.
• Do not touch the electronic devices on the control board or the back of the control
board.
• Do not change wiring and connections. Do not misconnect terminals.
• Do not short out power supply to test for voltage.
• Always replace the whole control board assembly if it goes bad.
16
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1. Control Board Layout
"G" Control Board
• "ALARM RESET" Button
• S4 Dip Switch
• "OUTPUT TEST" Button
(used to test relays on control board)
• Bin Control Switch
Closed LED (green)
• Bin Control Switch
Open LED (yellow)
• K3 (white) Connector
Harvest Control
(thermistor)
• Part Number
• Alarm Buzzer
• K4 (red) Connector
Bin Control
• S5 Dip Switch
• Power LED (red)
(lights when
10.5VAC is supplied
to K2 connector)
• K5 (black) Connector
Float Switch
• Relay LEDs
(4) (indicate which
relays are energized
and which K1
connector pins are
energized
• Label
(control board revision
level indicated on label
on side of relay)
• K1 Connector
• LED 2 (X2 Relay)
LED 2 on:
K1 Connector Pin #2
LED 2 off:
Pins #1 through #10
#1, 9 Magnetic Contactor,
X13 Relay (holding
circuit during Harvest
Pump Timer), and
K1 Connector Pin #3
Drain Valve (during
Pump-Out)
• LED 3 (X3 Relay)
LED 3 on:
#2 Hot Gas Valves (KMS and
SRK) and X10 Relay
#3 Liquid Line Valves
#4 Pump Motor (freeze)
#5 X11 Relay (Pump Motor
in Harvest Pump Timer
and Drain Valve in
K1 Connector Pin #5
(energized during harvest
pump timer)
LED 3 off:
K1 Connector Pin #4
(energized in freeze)
• LED 4 (X4 Relay)
K1 Connector Pin #6
Pump-Out)
• K2 Connector
Control Transformer
(10.5VAC)
#6 Fill Water Valve (Initial Fill
and Freeze Fill only);
Harvest Water Valve and
X12 Relay (Harvest only)
#7, 10 Supply Voltage
#8 Open
• LED 1 (X1 Relay)
K1 Connector Pin #1, #9
"G" Control Board
Part Number 2A3792-01
17
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2. LED Lights and Audible Alarm Safeties
At startup, a 5-second delay occurs while the control board conducts an internal timer
check. A beep occurs when the control switch is moved to the "ICE" position. The red
LED indicates proper control voltage and remains on unless a control voltage problem
occurs. The green LEDs 1 through 4 energize and sequence from initial startup as listed
in the table below. Note that the order of the LEDs from the outer edge of the control
board is 1, 4, 3, 2. For details, see "II.B. Sequence of Operation."
Time LEDs are On
Max.
Energized
Components
Sequence Step
LED
Min.
Avg.
1-Minute Fill Cycle
Harvest Cycle
4
WV1
Comp, FMRs
WV2, HGVs
Comp, FMRs,
PM, HGVs
1 minute
3 to 5 minutes
1, 4, 2
2 minutes
0 seconds
5 minutes
20 minutes
50 seconds
Harvest Pump Timer
Freeze Cycle
1, 3, 2
harvest pump
timer setting
30 to 35 minutes
1 (and 4 for first Comp, FMRs,
1 min.)
freeze timer
setting
PM, LLVs
(WV1 for first 1
min.)
Pump-Out Cycle
1, 3, 2
Comp, FMRs,
PM, HGVs, DV
10 seconds
20 seconds
The built in safeties shut down the icemaker and have alarms as listed below.
No. of Beeps
(every 3 sec.)
Type of Alarm
Notes
1
High Evaporator Temp.
(temperature > 127°F (53°C))
Check for harvest problem (stuck HGVs or relay), hot
water entering icemaker, stuck HM, or shorted thermistor.
2
3
Harvest Backup Timer
(harvest > 20 min. for two cycles LLVs leaking by, low charge, or inefficient Comp.
in a row)
Freeze Timer
(freeze > specified setting for
two cycles in a row)
Check for open thermistor, HGVs not opening, TXVs or
Check for a F/S stuck closed (up), WV1 or WV2 leaking
by, HGVs leaking by, PM not pumping, TXVs not
feeding properly, LLVs not opening, low charge, HM not
Timer is factory set using S4 dip bypassing, or inefficient compressor.
switch 9 & 10
To reset the above safeties, press the "ALARM RESET" button with the power supply on.
6
Low Voltage
(92Vac 5% or less)
High Voltage
Red LED will turn off if voltage protection operates.
The control voltage safeties automatically reset when
voltage is corrected.
7
(147Vac 5% or more)
Legend: Comp–compressor; DV–drain valve; FMRs–fan motors-remote;
F/S–float switch; HGVs–hot gas valves; HM–headmaster (C.P.R.);
LLVs–liquid line valves; PM–pump motor; TXVs–thermostatic expansion
valves; WV1–fill/refill water valve; WV2–harvest water valve
18
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3. Controls and Adjustments
NOTICE
Dip switches are factory set. Failure to maintain factory settings may adversely
affect performance and warranty coverage. For more information, contact Hoshizaki
Technical Support at 1-800-233-1940.
a) Default Dip Switch Settings
The dip switches are factory-adjusted to the following positions:
S4 Dip Switch
Dip Switch No.
1
2
3
4
5
6
7
8
9
10
KMS-1401MLJ OFF OFF OFF ON ON ON ON OFF OFF OFF
S5 Dip Switch (Do Not Adjust)
1
2
3
4
5
Dip Switch No.
KMS-1401MLJ ON ON OFF OFF OFF
S4 Dip Switch
S5 Dip Switch
Do Not Adjust
Freeze Timer (9 & 10)
Factory Use (8)
Refill Counter
(2 through 5)
Harvest Pump Timer (7) (Do not adjust)
Pump-Out Frequency Control (5 & 6)
Float Switch
Selector (1)
Pump-Out Timer (3 & 4)
Harvest Timer (1 & 2)
b) Harvest Timer (S4 dip switch 1 & 2)
The harvest timer starts counting when the thermistor reads 48°F (9°C) at the evaporator
outlet and the control board reads the thermistor's 3.9 kΩ signal. The harvest timer is
factory set, and generally no adjustment is required. However, a setting longer than the
factory setting may be advised in cases where the flush provided at harvest needs to be
prolonged for extra cleaning. Before changing this setting, contact Hoshizaki Technical
Support at 1-800-233-1940 for recommendations. Keep in mind that setting the harvest
timer to a longer setting decreases 24-hour production.
Note that the pump-out timer (S4 dip switch 3 & 4) acts in place of the harvest timer
during cycles with a pump-out. For details, see "II.C.3.c) Pump-Out Timer (S4 dip switch
3 & 4)."
Dip Switch Setting
Time (seconds)
No. 1
OFF
ON
No. 2
OFF
OFF
ON
60
90
OFF
ON
120
180
ON
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c) Pump-Out Timer (S4 dip switch 3 & 4)
The 1st pump-out occurs after the 11th freeze cycle, then every 10th cycle thereafter.
When a pump-out is called for, the X10 relay is energized and the X13 relay is
de-energized to allow the drain valve to energize. The pump motor stops for 2 seconds,
then the X11 relay energizes, allowing the pump motor and drain valve to energize.
Water is removed from the bottom of the water tank and sent down the drain. At the
same time, water flows through the small float switch tube to power flush the float switch.
The pump-out drains the water tank for the time determined by the pump-out timer. The
pump-out timer also acts in place of the harvest timer during cycles with a pump-out. The
pump-out timer is factory set, and generally no adjustment is required. The pump-out
timer control can be set to pump-out for 10 or 20 seconds.
Inlet Water Valve
S4 Dip Switch Setting Time (seconds)
T1
10
10
10
20
No. 3
OFF
ON
No. 4
OFF
OFF
ON
T2
150
180
120
180
closed
closed
open if refill = 0; closed if refill 1 or greater
closed
OFF
ON
ON
T1: Time to drain the water tank
T2: Harvest timer at pump-out
d) Pump-Out Frequency Control (S4 dip switch 5 & 6)
The pump-out frequency control is factory-adjusted to drain the water tank every
10 cycles, and generally no adjustment is required. However, where water quality is bad
and the icemaker needs a more frequent pump-out, the pump-out frequency can be
adjusted as shown in the table below.
Timing of the first pump-out is dependent on S4 dip switch 5 & 6 settings. See the table
below.
S4 Dip Switch Setting
Pump-Out
Frequency
1st Pump-Out
No. 5
OFF
ON
No. 6
OFF
OFF
ON
Every cycle
Every 2 cycles
Every 5 cycles
Every 10 cycles
After 2nd freeze cycle
After 3rd freeze cycle
After 6th freeze cycle
After 11th freeze cycle
OFF
ON
ON
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e) Harvest Pump Timer (S4 dip switch 7)
NOTICE
Factory set for proper operation. Do not adjust. Adjustment outside of the factory
default setting may result in damage to the icemaker.
Depending on the harvest pump timer setting, the pump motor either stays off or is
energized the last 50 seconds of harvest. When the pump motor is energized, water
circulates over the evaporator. The harvest water valve is open during harvest for a
maximum of 6 minutes or the length of harvest minus 0 or 50 seconds (determined by
the harvest pump timer setting), whichever is shorter.
When S4 dip switch 7 is in the on position and harvest begins, X10 relay energizes
and allows the harvest water valve, X12, and X13 relays to energize. A lockout circuit is
created using the X10, X12, and X13 relays. This prevents the drain valve from energizing
during harvest pump timer. See "III.B. Wiring Diagram."
50 seconds before harvest termination, LED 4 goes off de-energizing WV2 (harvest
water valve) and X12 relay. X13 relay remains energized through the holding circuit
through X10 and X13 relays. Next, LED 3 on the control board turns on and X11 relay
energizes, allowing the pump motor to energize. The pump motor is energized the last
50 seconds of harvest.
S4 Dip Switch Setting
Pump Motor
Time (seconds)
No. 7
ON
50
0
OFF
f) Factory Use (S4 dip switch 8)
Factory set for proper operation. Do not adjust. This must be left in the factory default
position.
g) Freeze Timer (S4 dip switch 9 & 10)
NOTICE
Adjust to proper specification, or the icemaker may not operate correctly.
The freeze timer setting determines the maximum allowed freeze time to prevent possible
freeze-up issues. Upon termination of freeze timer, the control board initiates the harvest
cycle. After 2 consecutive freeze timer terminations, the control board shuts down the
icemaker. In this case, see "IV.F.3. Low Ice Production" for possible solutions.
The freeze timer is factory set, and generally no adjustment is required. Before changing
this setting, contact your local Hoshizaki distributor or Hoshizaki Technical Support for
recommendations.
Dip Switch Setting
Time
(minutes)
No. 9
OFF
OFF
ON
No. 10
OFF
ON
60
50
70
60
OFF
ON
ON
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h) Float Switch Selector (S5 dip switch 1)
NOTICE
Do not adjust. This must be left in the factory default position or the icemaker will
not operate correctly.
On icemakers with a double float switch, the float switch selector determines which float
switch (upper or lower) the control board monitors for refill initiation during the freeze
cycle, and the refill counter (S5 dip switch 2 through 5) determines the number of refills.
The KMS-1401MLJ uses a single float switch with a double float switch, upper float
switch refill initiation float switch selector setting and is set for 1 refill. When the freeze
cycle starts, the control board monitors the upper float switch. If an upper float switch
exists, refill is initiated by an open upper float switch and is terminated by a closed upper
float switch. There is a maximum refill time of 1 minute. In a single float switch application
with a double float switch setting, no upper float switch exists, therefore the control board
reads an open upper float switch immediately when the freeze cycle starts and initiates
a refill. Since there is no upper float switch to close and terminate the refill, the refill lasts
for the maximum 1-minute. During the 1-minute refill, LED 4 is on.
S5 Dip Switch Setting
Refill Initiation with
Double Float Switch
Float Switch Type
No. 1
OFF
ON
Single or Double
Double
Lower Float Switch
Upper Float Switch
i) Refill Counter (S5 dip switch 2 through 5)
NOTICE
Do not adjust. These must be left in the factory default position or the icemaker will
not operate correctly.
Factory set. S5 dip switch 2 through 5 allows for refills during the freeze cycle.
The KMS-1401MLJ is factory set for 1 refill. Do not adjust.
S5 Dip Switch Setting
No. of Refills
No. 2
No. 3
No.4
No. 5
ON
OFF
OFF
OFF
1 Refill
Note: When refill set > 0, water valve is off during pump-out even if S4 dip switch 3 & 4
are set to 3 off and 4 on. See "II.C.3.c) Pump-Out Timer (S4 dip switch 3 & 4)."
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D. Control and Service Switches
2 switches are used to control the operation of the icemaker. These switches are referred
to as control switch and service switch. They are located on the KMS switch box.
1. Control Switch
The control switch has three positions: "OFF" for power off; "ICE" for icemaking, and
"SERVICE" to activate the service switch.
2. Service Switch
When the control switch is in the "SERVICE" position, the control switch supplies power
to the service switch and water pump. The service switch has three positions: "DRAIN,"
"CIRC." and "WASH."
Note:
1. When the service switch is active (control switch in the "SERVICE" position), power
is supplied to the water pump in all three positions.
2. When the control switch is in the "OFF" or "ICE" position, the service switch is
de-activated. In this state, it can be left in any position.
a) DRAIN
This icemaker utilizes a pump-out drain system. When the control switch is in the
"SERVICE" position and the service switch is placed in the "DRAIN" position, power is
supplied to the water pump and drain valve.
b) CIRC.
When the service switch is active and placed in the "CIRC." position, power is
supplied to the water pump only. This water pump operation is used during cleaning to
circulate cleaner for extended periods of time over the outside surface of the evaporator.
c) WASH
This icemaker utilizes a solenoid operated wash (bypass) valve. When the service switch
is active and placed in the "WASH" position, power is supplied to the pump motor and
wash valve. This operation is used to circulate cleaner and sanitizer over both the inside
and outside of the evaporator.
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III.Technical Information
A. Water Circuit and Refrigeration Circuit
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B. Wiring Diagrams
1. KMS-1401MLJ with SRK-14J
*
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2. KMS-1401MLJ with SRK-14J3
*
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3. Wire Harness Connections
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C. Performance Data
1. KMS-1401MLJ with SRK-14J
APPROXIMATE ICE
PRODUCTION PER 24 HR.
WATER TEMP. (ºF/ºC)
70/21
AMBIENT TEMP.
(ºF/ºC)
70/21
80/27
50/10
90/32
1420
644
630
1379
1325
626
601
1278
1199
580
544
1389
90/32
100/38
70/21
80/27
90/32
1379
1344
626
609
1280
581
568
1162
1054
527
478
lbs./day kg./day
1252
APPROXIMATE ELECTRIC
CONSUMPTION
2410
2432
2439
2454
2439
2478
2510
2523
2492
2537
2567
2620
watts
100/38
70/21
80/27
90/32
APPROXIMATE WATER
CONSUMPTION PER 24 HR.
682
585
555
411
2.58
2.22
2.10
1.56
555
388
250
243
2.10
1.47
0.94
0.92
492
386
220
193
1.86
1.46
0.83
0.73
gal./day m3/day
100/38
70/21
80/27
90/32
100/38
70/21
FREEZING CYCLE TIME
24
25
25
26
4.6
25
26
27
28
3.9
27
29
30
33
3.6
min.
HARVEST CYCLE TIME
80/27
90/32
100/38
4.0
3.9
3.1
3.0
2.2
2.2
3.1
2.2
2.1
min.
HEAD PRESSURE
70/21
80/27
90/32
178
192
197
12.5
13.5
13.8
197
221
242
13.8
15.6
17.0
219
241
263
15.4
17.0
18.5
PSIG kg/cm2G
100/38
200
14.1
247
17.4
283
19.9
SUCTION PRESSURE
70/21
80/27
90/32
46
47
47
3.2
3.3
3.3
47
49
51
3.3
3.5
3.6
50
52
54
3.5
3.7
3.8
PSIG kg/cm2G
100/38
48
3.4
52
3.6
56
3.9
TOTAL HEAT OF REJECTION FROM CONDENSER
CONDENSER VOLUME
28,800 BTU/h [AT 90ºF (32ºC) / WT 70ºF (21ºC)]
226 CU. IN (SRK-14J)
Note:
1. Pressure data is recorded at 5 minutes into freezing cycle. The data not in bold
should be used for reference only.
2. We reserve the right to make changes in specifications and design without prior
notice.
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2. KMS-1401MLJ with SRK-14J3
Data Pending
Note:
1. Pressure data is recorded at 5 minutes into freezing cycle. The data not in bold
should be used for reference only.
2. We reserve the right to make changes in specifications and design without prior
notice.
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IV. Service Diagnosis
WARNING
• This icemaker should be diagnosed and repaired only by qualified service
personnel to reduce the risk of death, electric shock, serious injury, or fire.
• Risk of electric shock. Use extreme caution and exercise safe electrical practices.
• Moving parts (e.g., fan blade) can crush and cut. Keep hands clear.
• CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after the icemaker is serviced. Make sure that none have fallen
into the dispenser unit/storage bin.
• Make sure all food zones in the icemaker and dispenser unit/storage bin are clean
after service. For cleaning procedures, see "VI. Cleaning and Maintenance."
A. Diagnostic Procedure
The diagnostic procedure is basically a sequence check which can be used at icemaker
startup or for system diagnosis. This procedure allows you to diagnose electrical system
and component failures. Before conducting the diagnostic procedure, check for correct
installation, proper voltage per unit nameplate, and adequate water supply. Check CB
using the steps in "IV.B. Control Board Check." Check the dip switch settings to assure
that S4 dip switch 3, 4, 7, 8, 9, 10 and S5 dip switch 1 through 5 are in the factory default
position. S4 dip switch 1, 2, 5, 6 are cleaning adjustments and the settings are flexible.
For factory default settings, see "II.C.3.a) Default Dip Switch Settings." As you go through
the procedure, check to assure the components energize and de-energize correctly. If
not, those components and controls are suspect.
1) Turn off the power supply, then access the control box. Clear any ice from BC.
2) Turn on the power supply, then move the control switch to the "ICE" position. A 5-second
delay occurs. The red "POWER OK" LED and the green "BC CLOSED" LED on CB
come on. If the yellow "BC OPEN" LED is on, check BC. See "IV.C. Bin Control Check
and Cleaning."
3) 1-Minute Fill Cycle – LED 4 is on. WV1 energizes. After 1 minute, CB checks for a
closed F/S. If F/S is closed, the harvest cycle begins. If closed, continue to step 4. If
F/S is open, WV1 remains energized through additional 1-minute fill cycles until water
enters the water tank and F/S closes (low water safety protection during initial start up
and at the end of each harvest). Diagnosis: Confirm that water enters the water tank.
If not, check that the water supply shut-off valve is open and screens or external filters
are clear. Check supply voltage at WV1 solenoid. If no voltage is present, see "IV.B.
Control Board Check." If voltage is present, check solenoid continuity. If the water tank
fills, but the icemaker fails to start harvest, check for open F/S. See "IV.D. 1. Float Switch
Check." Check termination of 1-minute timer in CB. See "IV.B. Control Board Check."
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4) Initial Harvest Cycle – LEDs 1, 4, and 2 are on. Comp, FMRs, HGVs, X10 relay, WV2,
X12, and X13 relays energize. WV1 de-energizes. CB monitors the warming of the
evaporator via the thermistor located on the suction line. When the thermistor reaches
48°F (9°C), CB reads 3.9 kΩ from the thermistor and turns harvest termination over to
the harvest timer (S4 dip switch 1 & 2). The harvest timer has settings of 60, 90, 120,
and 180 seconds. The pump-out timer (S4 dip switch 3 & 4) acts in place of the harvest
timer during cycles with a pump-out (S4 dip switch 5 & 6). WV2 and X12 relay are
energized during harvest for a maximum of 6 minutes or the length of harvest minus
50 seconds, whichever is shorter. 50 seconds before the harvest timer terminates,
harvest pump timer starts. LED 4 turns off, WV2 and X12 relay de-energize.
Harvest Pump Timer – LEDs 1, 3, and 2 are on. Comp, FMRs, HGVs, and X10
relay continue. LED 4 turns off, WV2 and X12 relay de-energize (CB K1 connector pin
#6 (O wire)). LED 3 turns on and X11 relay energizes (CB K1 connector pin #5 (DBU
wire)), allowing PM to energize for the last 50 seconds of harvest (S4 dip switch 7
setting). NOTICE! S4 dip switch 7 must remain in the factory default position of
7 on. Otherwise, PM will not energize during the last 50 seconds of harvest. The
minimum total time allowed by CB for a complete harvest cycle is 2 minutes. At the end
of harvest, CB checks the position of F/S and proceeds to the next cycle if it is closed,
or calls for a 1-minute fill cycle if it is open.
Diagnosis: Check that evaporator is warming and Comp, FMRs, and HGVs remain
energized. WV2 is energized during harvest for a maximum of 6 minutes or the length
of harvest minus 50 seconds (Harvest Pump Timer (S4 dip switch 7)), whichever is
shorter. Average initial harvest cycle at factory setting is 2 to 3 minutes. 1.5 minutes after
initial harvest begins, touch Comp discharge line. Is it hot? If not, check that Comp is
energized, refrigerant pressures are in range, HGVs are energized and open, LLVs are
de-energized and closed. If discharge line is hot, place a thermometer on the suction
line next to the thermistor. Has it warmed to 48°F (9°C) or warmer? Confirm thermistor
status. See "IV.E. Thermistor Check." If temperature has been reached, check that
WV2 de-energizes (LED 4 off) and X11 relay energizes (LED 3 on), allowing PM to
energize and circulate water over the evaporator for the last 50 seconds of harvest. If
not, make sure S4 dip switch 7 is in the factory default position. Check CB K1 connector
pin #5 (DBU wire) and X11 relay for 115VAC. If 1-minute fill cycle starts after harvest,
see "IV.D. Float Switch Check and Cleaning." If the thermistor reading is in proper range
and CB fails to terminate the harvest cycle and initiate the freeze cycle, replace CB.
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5) Freeze Cycle – LED 1 and 4 are on. Comp, FMRs, and PM remain energized (CB K1
connector pin #5 (DBU wire) de-energizes and K1 connector pin #4 (R wire) energizes
to prevent PM interruption). LLVs energize. WV1 and LED 4 energize for 1 min. HGVs,
X10, X11, and X13 relays de-energize.
Refill – LEDs 1 and 4 are on. The KMS-1401MLJ uses a single F/S with a double
F/S, UF/S refill initiation float switch selector setting (S5 dip switch 1) and is set for
1 refill (S5 dip switch 2 through 5). When the freeze cycle starts, CB monitors UF/S.
No UF/S exists on the KMS-1401MLJ, therefore CB reads an open UF/S immediately
when the freeze cycle starts and initiates a refill (CB energizes WV1 through X10 relay).
Since there is no UF/S to close and terminate the refill, the refill lasts for the maximum
1-minute. During the 1-minute refill, LED 4 is on. Comp, FMRs, LLVs, and PM remain
energized.
Freeze Termination – LED 1 is on. The icemaker is held in freeze by a 5-minute short
cycle protection timer. When F/S opens, the freeze cycle terminates.
Diagnosis: Minimum freeze time is 5 minutes. During the first 5 minutes of freeze,
confirm that Comp, FMRs, PM, and LLVs are energized, WV1 is energized for 1 min.,
and HGVs and WV2 are de-energized and not bypassing. The evaporator temperature
should be dropping. Make sure TXVs and HM are operating properly. Check that DV is
not leaking by (water flowing down the potable drain). Check for proper unit pressures
(see "III.C. Performance Data") or an inoperative Comp. Disconnect the black K5 F/S
connector. When 5 or more minutes have elapsed in the freeze cycle, the icemaker
should switch out of the freeze cycle. After the icemaker switches out of freeze,
reconnect the black K5 F/S connector to CB. If the icemaker remains in freeze with F/S
disconnected, replace CB. To check F/S, see "IV.D. Float Switch Check and Cleaning."
Note: Normal freeze cycle will last 30 to 35 minutes depending on model and
conditions. Cycle times and pressures should follow performance data provided in
this manual. See "III.C. Performance Data."
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6) Pump-Out Cycle – LEDs 1, 3, and 2 are on (10/20 second pump-out) – The 1st
pump-out occurs after the 11th freeze cycle, then every 10th cycle thereafter. Comp
and FMRs remain energized. HGVs and X10 relay energize. LLVs de-energize.
PM de-energizes for 2 seconds, then X11 relay energizes, allowing PM and DV to
energize for 10 seconds. PM energized through X11 relay (energized) terminal #4 (BR
wire) and terminal #6 (R wire), then through control switch terminal #6 (R wire) and
terminal #5 (R wire). DV energized through X10 relay (energized) terminal #5 (V wire)
and terminal #3 (Y wire), then through X13 relay (de-energized) terminal #6 (Y wire)
and terminal #2 (LBU wire), then through X11 relay (energized) terminal #3 (LBU wire)
and terminal #5 (GY wire). This pump-out removes contaminants from the water tank
through DV and allows for a power flush of F/S. Diagnosis: PM Operation: If PM does
not come on, check CB K1 connector pin #5 (DBU wire) (X11 relay coil voltage) to a
neutral (W wire) for 115VAC. If LED 3 is on and 115VAC is not present, replace CB. If
115VAC is present, X11 relay should energize and X11 terminals #4 (BR wire) and #6
(R wire) should be closed. Check X11 relay terminal #6 (R wire) for 115VAC to a neutral
(W wire). If 115VAC is not present, check X11 relay coil and contact continuity. If 115VAC
is present and PM is still not energized, check control switch continuity between
terminal #5 (R wire) and #6 (R wire). If closed, check PM windings and capacitor. DV
Operation: If water does not pump out, check CB K1 connector pin #1 (V wire) (power
supply for DV operation) and CB K1 connector pin #2 (P wire) (X10 relay coil voltage
for DV operation) to a neutral (W wire) for 115VAC. If 115VAC is not present on either
circuit, replace CB. If 115VAC is present, X10 relay terminals #1 (Y wire) and #5 (V
wire) should be closed. Check X10 relay terminal #3 (Y wire) to a neutral (W wire) for
115VAC. If 115VAC is not present on terminal #3 (Y wire), check X10 relay coil and
contact continuity. If 115VAC is present on X10 relay terminal #3 (Y wire), go to X13
relay and check X13 relay terminal #2 (LBU wire) to a neutral (W wire) for 115VAC. If
115VAC is not present, check X13 relay contact continuity between terminal #2 (LBU
wire) and terminal #6 (Y wire). If contacts are open, confirm X13 is de-energized. If
115VAC is present, check X11 relay terminal #5 (GY wire) to a neutral (W wire) for
115VAC. If 115VAC is not present, check continuity between X11 relay (energized)
terminal #3 (LBU wire) and terminal #5 (GY wire). If 115VAC is present on X11 terminal
#5 (GY wire), check continuity on DV coil. Next, remove DV housing and check/clean
DV assembly, make sure that the drain line is not clogged.
7) Normal Harvest Cycle – Same as the initial harvest cycle. Return to step 4.
Note: Icemaker continues to cycle until BC is satisfied or power is switched off. The
icemaker always restarts at the 1-minute fill cycle.
Legend: CB–control board; Comp–compressor; DV–drain valve; FMRs–fan
motors-remote; F/S–float switch; HGVs–hot gas valves; HM–headmaster
(C.P.R.); LLVs–liquid line valves; PM–pump motor; TXVs–thermostatic
expansion valves; UF/S–upper float switch; WV1–fill/refill water valve;
WV2–harvest water valve; X10–WV1 and WV2 control relay; X11–drain
valve/harvest pump timer relay; X12–drain valve lockout relay 1; X13–drain
valve lockout relay 2
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B. Control Board Check
Before replacing CB that does not show a visible defect and that you suspect is bad,
always conduct the following check procedure. This procedure will help you verify your
diagnosis.
Alarm Reset: If CB is in alarm (beeping), press the "ALARM RESET" button on CB
while CB is beeping. WARNING! Risk of electric shock. Care should be
taken not to touch live terminals. Once reset, the icemaker starts at the
1-minute fill cycle. For audible alarm information, see "II.C.2. LED Lights
and Audible Alarm Safeties."
1) Check the dip switch settings to assure that S4 dip switch 3, 4, 7, 8, 9, 10, and S5 dip
switch 1 through 5 are in the factory default position. S4 dip switch 1, 2, 5, 6 are
cleaning adjustments and the settings are flexible. For factory default settings, see
"II.C.3.a) Default Dip Switch Settings."
2) Move the control switch to the "ICE" position. If the red "POWER OK" LED is on,
control voltage is good, continue to step 3. If the red "POWER OK" LED is off, check
CT secondary circuit. CT output is 10.5VAC at 115VAC primary input. If the secondary
circuit has proper voltage and the red LED is off, replace CB.
If the secondary circuit does not have proper voltage, check CT primary circuit. Check
for 115VAC at CB K1 connector pin #10 (BR wire) to a neutral (W wire) for 115VAC.
(Always choose a neutral (W wire) to establish a good neutral connection when
checking voltages.) For additional checks, see "IV.F.1. No Ice Production."
3) The "OUTPUT TEST" button provides a relay sequence test. Make sure the control
switch is in the "ICE" position, then press the "OUTPUT TEST" button. The correct
lighting sequence is 1, 4, 3, 2. Note that the order of the LEDs from the outer edge of
CB is 1, 4, 3, 2. Components (e.g., compressor) will cycle during the test. Following the
test, the icemaker begins operation at the 1-minute fill cycle. If the LEDs do not light as
described above, replace CB.
4) To verify voltage output from CB to the components, slide the CB K1 connector out far
enough to allow multimeter lead contact. With the icemaker in the cycle to be tested,
check output voltage from the corresponding pin on CB K1 connector to ground. If
output voltage is not found and the appropriate LED is on, replace CB.
Legend: CB–control board; CT–control transformer.
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C. Bin Control Check and Cleaning
This icemaker uses a BC with a lever-actuated proximity switch to control the ice level in
the storage bin. No adjustment is required.
1. Bin Control Check
To check BC, follow the steps below.
1) Turn off the power supply.
2) Remove the front panel, then move the control switch to the "OFF" position.
3) Remove the top and right side panels. Remove the control box cover, then clear any ice
away from BC.
4) Check BC wire harness connections. See Fig. 1.
5) Disconnect BC connector from CB K4 (red) connector.
6) Check for continuity across the wires of BC connector. When the actuator paddle is
not engaged, BC switch is closed. If open, check that the wire harness connector is
properly connected and that the actuator paddle is not sticking. Clean if necessary. See
"IV.C.2. Bin Control Cleaning." If BC switch still reads open, replace BC.
7) Press and hold the actuator paddle; check for continuity across the wires of BC
connector. When the actuator paddle is engaged, BC switch is open. If closed, check
that the actuator paddle is not restricted. Clean if necessary. See "IV.C.2. Bin Control
Cleaning." If BC switch still reads closed, replace BC.
8) Reconnect BC connector to CB K4 (red) connector, then move the control switch to the
"ICE" position. Turn on the power supply.
9) Check that the green "BC CLOSED" LED on CB is on.
10) Allow the icemaker to cycle on. Press and hold the actuator paddle. The yellow "BC
OPEN" LED should be on and the icemaker should shut down according to the chart
below. If it does not, replace CB.
Cycle at Bin
Shutdown
Control Activation
Fill Cycle
15 seconds after activation.
Harvest Cycle
At the end of the harvest cycle, or up to 15 seconds into the freeze cycle if activated
at the end of the harvest cycle.
Freeze Cycle
15 seconds after activation if activated at least 15 seconds before the 5-minute short
cycle protection timer terminates. Otherwise, at the end of the next harvest cycle.
Legend: BC–bin control; CB–control board
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2. Bin Control Cleaning
Scale may build up on BC. Scale can cause the actuator paddle and magnet to stick. In
this case, BC should be cleaned.
WARNING
CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after the icemaker is serviced. Make sure that none have fallen
into the dispenser unit/storage bin.
1) Turn off the power supply.
2) Remove the front panel, then move the
control switch to the "OFF" position.
To Control Board
K4 (red) Connector
3) Remove the top and right side panels.
Remove the control box cover, then clear
any ice away from BC.
Bin Control
Proximity Switch
4) Disconnect BC connector from CB K4
(red) connector, then remove BC from the
icemaker.
Actuator Paddle
5) Remove the actuator paddle from the
switch mount. See Fig. 1.
6) Wipe down BC with a mixture of 1 part
Hoshizaki "Scale Away" and 25 parts warm
water. Rinse the parts thoroughly with
clean water.
7) Reassemble BC and replace it in its correct
position.
Note: If the magnet was removed for
cleaning, be sure to replace it in its
correct position.
Bin Control
Proximity Switch
Open (bin full,
icemaker off or
shutting down)
Bin Control Proximity
Switch Closed
(calling for ice)
8) Reconnect BC connector to CB K4 (red)
connector.
9) Move the control switch to the "ICE"
position.
10) Replace the control box cover, right side,
top, and front panels in their correct
positions.
Switch Mount
11) Turn on the power supply to start the
automatic icemaking process.
Actuator Paddle
Magnet
Fig. 1
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D. Float Switch Check and Cleaning
F/S is used to determine that there is sufficient water in the water tank after the 1-minute
fill cycle and after each harvest cycle. F/S is also used to determine that the appropriate
volume of water has been converted into ice before switching out of the freeze cycle. No
adjustment is required.
1. Float Switch Check
To check F/S, follow the steps below.
1) Turn off the power supply.
2) Remove the front panel.
3) Place the control switch in the "SERVICE" position. Then place the service switch in the
"DRAIN" position.
4) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
5) Turn off the power supply.
6) Remove the front panel, then move the control switch to the "OFF" position.
7) Remove the top and right side panels.
8) Remove the control box cover, then disconnect F/S connector from CB K5 (black)
connector.
9) Check for continuity across F/S leads. With the water tank empty, F/S should be open. If
open, continue to step 10. If closed, follow the steps in "IV.D.2. Float Switch Cleaning."
After cleaning F/S, check it again. Replace if necessary.
10) Reconnect F/S connector to CB K5 (black) connector, then replace the control box
cover, right side, and top panels in their correct positions.
11) Move the control switch to "ICE" position. Replace the front panel.
12) Turn on the power supply.
13) As water fills the water tank, F/S contacts should close. After 1 minute, the 1-minute fill
cycle should end and the initial harvest cycle should begin.
14) Once the harvest cycle starts, turn off the power supply.
15) Remove the front panel, then move the control switch to the "OFF" position.
16) Remove the top and right side panels.
17) Remove the control box cover, then disconnect F/S connector from CB K5 (black)
connector.
18) Check for continuity across F/S leads. With the water tank full, F/S should be closed. If
F/S is closed and the icemaker will not switch from the 1-minute fill cycle to the initial
harvest cycle, replace CB.
19) If open, confirm that the water tank is full. If the water tank is not full, check the water
supply, water filters, and fill/refill water valve. If the water tank is full, follow the steps in
"IV.D.2. Float Switch Cleaning." After cleaning F/S, check it again. Replace if necessary.
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20) Reconnect F/S connector to CB K5 (black) connector, then replace the control box
cover, right side, and top panels in their correct positions.
21) Move the control switch to the "ICE" position.
22) Replace the front panel in its correct position.
23) Turn on the power supply to start the automatic icemaking process.
Legend: CB–control board; F/S–float switch
2. Float Switch Cleaning
Depending on local water conditions, scale may build up on F/S. Scale can cause F/S to
stick. In this case, F/S should be cleaned.
1) Turn off the power supply.
2) Remove the front panel.
3) Place the control switch in the "SERVICE" position. Then place the service switch in the
"DRAIN" position.
4) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
5) Turn off the power supply.
6) Remove the front, top, and right side panels, then move the control switch to the "OFF"
position.
7) Disconnect the vent tube and the flush tube from the top of F/S housing, then remove
F/S assembly. Remove the rubber boot from the bottom of F/S assembly. See Fig. 2.
8) Remove the retainer rod from the bottom of F/S assembly, then remove the float. Be
careful not to bend the retainer rod excessively when removing it.
9) Wipe down F/S assembly's housing, shaft, float, and retainer rod with a mixture of 1 part
Hoshizaki "Scale Away" and 25 parts warm water. Clean the inside of the rubber boot
and hose with cleaning solution. Rinse the parts thoroughly with clean water.
10) Reassemble F/S assembly and replace
it and the rubber boot in their correct
positions. Reconnect the vent tube and the
flush tube.
Flush Tube
Vent Tube
11) Replace the right side and top panels in
their correct positions.
12) Move the control switch to the "ICE"
position.
Shaft
Float Switch
Housing
13) Replace the front panel in its correct
position.
14) Turn on the power supply to start the
automatic icemaking process.
Float
Retainer Rod
Fig. 2
Legend: CB–control board; F/S–float switch
Rubber Boot
and Hose
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E.Thermistor Check
To check thermistor resistance, follow the steps below.
1) Turn off the power supply.
2) Remove the front panel, then move the control switch to the "OFF" position.
3) Remove the top and right side panels, then remove the control box cover.
4) Remove the thermistor.
5) Immerse the thermistor sensor portion in a glass containing ice and water for 2 or
3 minutes.
6) Disconnect the thermistor connector from CB K3 (white) connector and check
resistance between thermistor leads. Normal range is 4.7 to 6.2 kΩ. If outside the
normal range, replace the thermistor. See "V.B. Important Notes for Component
Replacement." If within the normal range, continue to next step.
7) Replace the thermistor in its correct position. See "V.B. Important Notes for Component
Replacement."
8) Reconnect the thermistor connector to CB K3 (white) connector.
9) Replace the control box cover, right side, and top panels in their correct positions.
10) Move the control switch to the "ICE" position.
11) Replace the front panel in its correct position.
12) Turn on the power supply.
13) Once the harvest cycle starts (Comp energizes), begin timing the harvest cycle.
14) The harvest timer and harvest cycle should terminate within 2 to 5 minutes. If the
harvest cycle does not terminate within 2 to 5 minutes, replace CB.
Legend: CB–control board; Comp–compressor
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F. Diagnostic Charts
1. No Ice Production
No Ice Production - Possible Cause
1. Power Supply
a) Off, blown fuse, or tripped breaker.
b) Not within specifications.
2. Main Transformer
(208-230VAC/115VAC) (3 Phase
Only)
a) Voltage tap switch not set to proper voltage.
b) Coil winding open or shorted.
3. Water Supply
a) Water supply off or improper water pressure.
b) External water filters clogged.
a) Blown.
4. Fuse (SRK Control Box)
5. High-Pressure Switch (SRK)
a) Dirty condenser.
b) Condensing unit fan(s) not operating.
c) Headmaster (C.P.R.) open.
d) Refrigerant overcharged.
e) Bad contacts.
f) Refrigerant lines or components plugged.
a) Ambient temperature too warm.
b) Compressor or compressor components faulty.
c) Defective.
6. Discharge Line Thermostat
(SRK)
d) Hot gas valves open.
e) Dirty condenser.
f) Condensing unit fan not operating.
a) Disconnected or loose connection.
7. Wire Harness
(From SRK to KMS)
8. Fuse (KMS Switch Box)
9. Control Switch
a) Blown.
a) In "SERVICE" or "OFF" position.
b) Bad contacts.
10. Control Transformer
(115VAC/10.5VAC)
a) Coil winding open or shorted.
11. Control Board
a) In alarm.
See "IV.B. Control Board Check"
b) Yellow "BC OPEN" LED on (bin full).
c) Defective.
12. Bin Control
a) Tripped with bin filled with ice.
b) Actuator does not move freely.
c) Defective.
See "IV.C. Bin Control Check and
Cleaning"
13. Fill/Refill or Harvest Water Valve a) Screen or orifice clogged.
b) Coil winding open.
c) Water valve open in freeze cycle.
14. Float Switch
a) Float does not move freely.
b) Defective.
See "IV.D. Float Switch Check
and Cleaning"
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No Ice Production - Possible Cause
15. Compressor
a) Compressor relay/magnetic contactor contacts bad or coil winding
open.
b) Start capacitor or run capacitor defective (single phase only).
c) Internal protector open.
d) Start relay contacts bad or coil winding open (single phase only).
e) Protector tripped.
f) Compressor defective.
16. Hot Gas Valves (KMS & SRK)
a) Closed in harvest cycle.
b) Open in freeze cycle.
17. Thermistor
a) Loose, disconnected, or defective.
See "IV.E. Thermistor Check"
18. Pump Motor
a) Motor winding open.
b) Bearing worn out or locked rotor.
c) Defective capacitor.
d) Mechanical seal worn out.
a) Bulb loose.
19. Thermostatic Expansion Valve
b) Operating erratically.
20. Liquid Line Valves (KMS & SRK) a) Closed in freeze cycle.
b) Open in harvest cycle.
21. Fan Motors-Remote
a) Motor winding open.
b) Bearing worn out or locked rotor.
c) Defective capacitor.
22. Headmaster (C.P.R.)
23. Water System
a) Defective.
a) Water leaks causing short freeze time.
2. Freeze-Up
Defrost and clean the icemaker prior to diagnosing freeze-up. See "VI.A. Cleaning and
Sanitizing Instructions." Fill out a freeze-up checklist. The freeze-up checklist can be found
in the Hoshizaki Technician's Pocket Guide or contact your local distributor for a copy of the
freeze-up checklist.
Freeze-Up - Possible Cause
Harvest Cycle
1. Evaporator
a) Scaled up.
b) Damaged.
2. Cube Guides
a) Out of position.
b) Damaged.
3. Spray Tubes and/or Spray
Guides
a) Dirty.
b) Out of position.
a) Low water pressure.
b) External water filters clogged.
4. Water Supply
c) Insufficient water line size.
Minimum 3/8" nominal ID copper water tubing or equivalent.
5. Harvest Water Valve
a) Screen or orifice clogged.
b) Defective.
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Freeze-Up - Possible Cause
6. Float Switch
a) Dirty, sticking.
b) Defective.
See "IV.D. Float Switch Check
and Cleaning"
7. Refrigerant Charge
a) Low.
8. Control Board
a) Harvest timer (S4 dip switch 1 & 2) set too short.
b) Harvest pump timer (S4 dip switch 7) not in factory default position.
See "II.C.3. Controls and
Adjustments" and "IV.B. Control
Board Check"
c) Defective.
9. Bin Control
a) Actuator does not move freely.
See "IV.C. Bin Control Check and
Cleaning"
10. Thermistor
a) Loose, disconnected, or defective.
See "IV.E. Thermistor Check"
11. Thermostatic Expansion Valve
12. Hot Gas Valves (KMS & SRK)
a) Defective.
a) Closed or restricted.
13. Liquid Line Valves (KMS & SRK) a) Open.
Freeze Cycle
a) Scaled up.
b) Damaged.
1. Evaporator
2. Spray Tubes and/or Spray
Guides
a) Dirty.
b) Out of position.
3. Refrigerant Charge
a) Low.
4. Control Board
a) Freeze timer (S4 dip switch 9 & 10) set incorrectly.
b) Defective.
See "IV.B. Control Board Check"
5. Fill/Refill or Harvest Water Valve a) Leaking by.
6. Float Switch
a) Float does not move freely.
See "IV.D. Float Switch Check
and Cleaning"
b) Defective.
7. Pump Motor
a) RPM too slow.
b) Impeller damaged.
a) Bulb loose or defective.
a) Defective.
8. Thermostatic Expansion Valve
9. Headmaster (C.P.R.)
10. Liquid Line Valves (KMS & SRK) a) Restricted.
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3. Low Ice Production
Low Ice Production - Possible Cause
Long Harvest Cycle
a) Scaled up.
a) Dirty.
1. Evaporator
2. Spray Tubes and/or Spray
Guides
b) Out of position.
3. Refrigerant Charge
4. Water Supply
a) Low.
a) Low water pressure.
b) External water filters clogged.
c) Insufficient water line size.
Minimum 3/8" nominal ID copper water tubing or equivalent.
d) Too cold.
5. Control Board
a) Thermistor connection loose (K3).
b) Defective.
See "IV.B. Control Board Check"
6. Thermistor
a) Loose, disconnected, or defective.
See "IV.E. Thermistor Check"
7. Hot Gas Valves (KMS & SRK)
8. Harvest Water Valve
9. Compressor
a) Erratic or closed.
a) Screen or orifice clogged.
a) Inefficient or off.
10. Liquid Line Valves (KMS & SRK) a) Erratic or open.
11. Termostatic Expansion Valve
(TXV)
a) Defective.
12. Headmaster (C.P.R.)
a) Defective.
Long Freeze Cycle
1. Evaporator
a) Scaled up, dirty.
a) Scaled up, dirty.
b) Float sticking.
2. Float Switch
See "IV.D. Float Switch Check
and Cleaning"
c) Defective switch.
3. Fill/Refill or Harvest Water Valve a) Leaking by.
4. Hot Gas Valves (KMS & SRK)
5. Condenser
a) Erratic or open.
a) Clogged.
6. Control Board
a) Float switch connection loose (K5).
b) Defective.
See "IV.B. Control Board Check"
7. Refrigerant Charge
a) Low.
8. Thermostatic Expansion Valve
(TXV)
a) Bulb loose.
b) Defective.
9. Compressor
10. Pump Motor
a) Inefficient or off.
a) RPM too slow.
11. Liquid Line Valves (KMS & SRK) a) Erratic or restricted.
12. Headmaster (C.P.R.) a) Defective.
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V. Replacement of Components
WARNING
• This icemaker should be diagnosed and repaired only by qualified service
personnel to reduce the risk of death, electric shock, serious injury, or fire.
• Move the control switch to the "OFF" position and turn off the power supply
before servicing. Lockout/Tagout to prevent the power from being turned back on
inadvertently.
• CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after the icemaker is serviced. Make sure that none have fallen
into the dispenser unit/storage bin.
• Make sure all food zones in the icemaker and dispenser unit/storage bin are clean
after service. For cleaning procedures, see "VI. Cleaning and Maintenance."
A. Service for Refrigerant Lines
WARNING
• Repairs requiring the refrigeration circuit to be opened must be performed by
properly trained and EPA-certified service personnel.
• 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 (140 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
NOTICE
• Always recover the refrigerant and store it in an approved container. Do not
discharge the refrigerant into the atmosphere.
• Do not leave the system open for longer than 15 minutes when replacing or
servicing parts. The Polyol Ester (POE) oils used in R-404A applications can
absorb moisture quickly. Therefore it is important to prevent moisture from
entering the system when replacing or servicing parts.
• Always install a new drier every time the sealed refrigeration system is opened.
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.
• When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed 250°F (121°C).
1. Refrigerant Recovery
The condensing unit is provided with refrigerant shutoff valves and the icemaker is provided
with refrigerant service valves. Using proper refrigerant practices, recover the refrigerant.
Recovery via the condensing unit's refrigerant shutoff valves is recommended. Store the
refrigerant in an approved container. Do not discharge the refrigerant into the atmosphere.
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2. Brazing
WARNING
• R-404A itself is not flammable at atmospheric pressure and temperatures up to
176°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.
• Do not use silver alloy or copper alloy containing arsenic.
• 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 (140 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
1) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.
Note: Because the pipes in the evaporator case are specially coated to resist corrosion,
it is important to make connections outside the evaporator case when possible. If
it is necessary to braze inside the evaporator case, use sandpaper to remove the
coating from the brazing connections before unbrazing the components.
NOTICE
• 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.
• When brazing, protect the drier by using a wet cloth to prevent the drier from
overheating. Do not allow the drier to exceed 250°F (121°C).
2) 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 (140 PSIG). DO NOT use R-404A as a mixture with
pressurized air for leak testing.
3. Evacuation and Recharge (R-404A)
The condensing unit is provided with refrigerant shutoff valves and the icemaker is
provided with refrigerant service valves. Evacuation and recharge via the condensing unit's
refrigerant shutoff valves is recommended.
1) Attach a vacuum pump to the system. Be sure to connect the charging hoses to both
high and low-side refrigerant shutoff 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.
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2) Turn on the vacuum pump. Open the gauge manifold valves, then open the high and
low-side refrigerant shutoff valves. Never allow the oil in the vacuum pump to flow
backwards.
3) Allow the vacuum pump to pull down to a 29.9" Hg vacuum. Evacuating period depends
on pump capacity.
4) Close the low-side valve and high-side valve on the gauge manifold.
5) Disconnect the gauge manifold hose from the vacuum pump and attach it to a
refrigerant service cylinder. Remember to loosen the connection and purge the air from
the hose. For the required refrigerant charge, see the nameplate on the condensing unit
or the rating label inside the icemaker. Hoshizaki recommends only virgin refrigerant or
reclaimed refrigerant which meets ARI Standard 700 (latest edition) be used.
6) A liquid charge is required when charging an R-404A system (to prevent fractionation).
Place the service cylinder on the scales; if the service cylinder is not equipped with
a dip tube, invert the service cylinder, then place it on the scales. Open the high-side
valve on the gauge manifold.
7) Allow the system to charge with liquid until the proper charge weight is met.
8) If necessary, add any remaining charge to the system through the low-side. NOTICE! To
prevent compressor damage, use a throttling valve or liquid dispensing device
to add the remaining liquid charge through the low-side refrigerant shutoff valve
with the icemaker running.
9) Close the high and low-side refrigerant shutoff valves. Close the high and low-side
gauge manifold valves, then disconnect the gauge manifold hoses.
10) Cap the refrigerant shutoff valves to prevent a possible leak.
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B. Important Notes for Component Replacement
NOTICE
When replacing a component listed below, see the notes to help ensure proper
operation.
Component
Notes
Compressor
1 Phase: Install a new start capacitor, run capacitor, and start relay.
3 Phase: Install a new magnetic contactor.
Thermostatic
• Attach the thermostatic expansion valve bulb to the suction line in the same location as
Expansion Valve
the previous bulb.
• The bulb should be between the 10 and 2 o'clock positions on the tube.
• Secure the bulb with the clamp and holder, then insulate it.
Hot Gas Valves • Replace the strainer if applicable.
Liquid Line
Valves
• Use copper tube of the same diameter and length when replacing valve lines.
Fan Motor
Pump Motor
Thermistor
Install a new capacitor.
Install a new capacitor.
• Attach the new thermistor to the suction line in the same location as the previous
thermistor.
• The thermistor should be at the 12 o'clock position on the tube.
• Smoothly fill the recessed area of the thermistor holder with high thermal conductive
type sealant. Hoshizaki America part number 4A0683-01 (Silicone Heat Sink Compound
10-8108 manufactured by GC Electronics), KE-4560 RTV (manufactured by ShinEtsu
Silicones), or equivalent are recommended.
• Secure the thermistor with the holder, then insulate it.
• Be very careful to prevent damage to the leads.
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VI. Cleaning and Maintenance
This icemaker must be cleaned and maintained in accordance with the instruction
manual and labels provided with the icemaker. Consult with your local Hoshizaki Certified
Service Representative about cleaning and maintenance service.
WARNING
• Only qualified service technicians should service this icemaker.
• CHOKING HAZARD: Ensure all components, fasteners, and thumbscrews are
securely in place after any cleaning or maintenance is done to the icemaker. Make
sure that none have fallen into the dispenser unit/storage bin.
NOTICE
The dispenser unit/storage bin is for ice use only. Do not store anything else in the
dispenser unit/storage bin.
A. Cleaning and Sanitizing Instructions
This icemaker must be cleaned and sanitized at least once a year. More frequent
cleaning and sanitizing may be required in some water conditions.
WARNING
• To prevent injury to individuals and damage to the icemaker, do not use ammonia
type cleaners.
• Carefully follow any instructions provided with the bottles of cleaning and
sanitizing solution.
• Always wear liquid-proof gloves and goggles to prevent the cleaning and sanitizing
solutions from coming into contact with skin or eyes.
NOTICE
To prevent damage to the water pump seal, do not operate the icemaker with the
control switch in the "SERVICE" position when the water tank is empty.
Insulation Panel
Float Switch
Front Panel
Fig. 3
Splash Curtain
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1. Cleaning Procedure
1) Dilute 22 fl. oz. (650 ml) of Hoshizaki "Scale Away" with 4 gal. (15 l) of warm water.
2) Remove all ice from the evaporator and the dispenser unit/storage bin.
Note: To remove cubes on the evaporator, turn off the power supply and turn it back on
after 3 minutes. The harvest cycle starts and the cubes will be removed from the
evaporator.
3) Turn off the power supply.
4) Remove the front panel, then place the control switch in the "SERVICE" position. Place
the service switch in the "DRAIN" position.
5) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
6) Turn off the power supply.
7) Remove the front panel.
8) In bad or severe water conditions, clean the float switch as described below. Otherwise,
continue to step 9.
a. Remove the right side panel.
b. Disconnect the vent tube and the flush tube from the top of the float switch housing,
then remove the float switch assembly. Remove the rubber boot from the bottom of
the float switch assembly.
c. Remove the retainer rod from the bottom of the float switch assembly, then remove
the float. Be careful not to bend the retainer rod excessively when removing it.
d. Wipe down the float switch assembly's housing, shaft, float, and retainer rod with
cleaning solution. Clean the inside of the rubber boot and hose with cleaning
solution. Rinse the parts thoroughly with clean water.
e. Reassemble the float switch assembly and replace it and the rubber boot in their
correct positions. Reconnect the vent tube and the flush tube.
f. Replace the right side panel in its correct position.
9) Remove the insulation panel and splash curtain, then pour the cleaning solution into the
water tank.
10) Move the service switch to the "WASH" position.
11) Replace the splash curtain, insulation panel, and front panel in their correct positions.
12) Turn on the power supply to start the washing process.
13) Turn off the power supply after 30 minutes. Remove the front panel.
14) Move the service switch to the "DRAIN" position.
15) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
16) Turn off the power supply, then remove the front panel.
17) Move the control switch to the "ICE" position.
18) Replace the front panel in its correct position.
19) Turn on the power supply to fill the water tank with water.
20) Turn off the power supply after 3 minutes.
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21) Remove the front panel.
22) Move the control switch to the "SERVICE" position, then move the service switch to the
"WASH" position.
23) Replace the front panel in its correct position.
24) Turn on the power supply to rinse off the cleaning solution.
25) Turn off the power supply after 5 minutes.
26) Remove the front panel.
27) Move the service switch to the "DRAIN" position.
28) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
29) Turn off the power supply. Remove the front panel.
30) Repeat steps 17 through 29 three more times to rinse thoroughly.
Note: If you do not sanitize the icemaker, go to step 13 in "2. Sanitizing Procedure."
2. Sanitizing Procedure - Following Cleaning Procedure
1) Dilute 2 fl. oz. (60 ml or 4 tbs) of a 5.25% sodium hypochlorite solution (chlorine bleach)
with 4 gal. (15 l) of warm water.
2) Remove the front panel, insulation panel, and splash curtain if they are in their normal
positions.
3) Pour the sanitizing solution into the water tank.
4) Move the service switch to the "WASH" position.
5) Replace the splash curtain, insulation panel, and front panel in their correct positions.
6) Turn on the power supply to start the sanitizing process.
7) Turn off the power supply after 15 minutes. Remove the front panel.
8) Move the service switch to the "DRAIN" position.
9) Replace the front panel in its correct position, then turn on the power supply for
2 minutes.
10) Turn off the power supply. Remove the front panel.
11) Repeat steps 17 through 29 in "1. Cleaning Procedure" two times to rinse thoroughly.
12) Repeat steps 1 through 11 one more time.
13) Move the control switch to the "ICE" position.
14) Replace the front panel in its correct position.
15) Clean the dispenser unit/storage bin liner using a neutral cleaner. Rinse thoroughly after
cleaning.
16) Turn on the power supply to start the automatic icemaking process.
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B. Maintenance
This icemaker must be maintained individually, referring to the instruction manual and
labels provided with the icemaker.
WARNING
• Only qualified service technicians should service this icemaker.
• Move the control switch to the "OFF" position and turn off the power supply to
the SRK condensing unit before servicing the KMS or SRK. Place the KMS
disconnect (if applicable) in the off position. Lockout/Tagout to prevent the power
supply from being turned back on inadvertently.
1. Stainless Steel Exterior
To prevent corrosion, wipe the exterior occasionally with a clean, soft cloth. Use a damp
cloth containing a neutral cleaner to wipe off oil or dirt buildup.
2. Storage Bin Scoop
• Wash your hands before removing ice from the storage bin. Use the plastic scoop
provided (storage bin accessory).
• Clean the scoop using a neutral cleaner. Rinse thoroughly after cleaning.
3. Dispenser Unit/Storage Bin
• The dispenser unit/storage bin is for ice use only. Do not store anything else in the
dispenser unit/storage bin.
• Clean the dispenser unit/storage bin liner using a neutral cleaner. Rinse thoroughly after
cleaning.
4. Condenser
Check the condenser once a year, and clean the coil if required by using a brush or
vacuum cleaner. More frequent cleaning may be required depending on location.
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C. Preparing the Icemaker for Periods of Non-Use
NOTICE
• When storing the icemaker for an extended time or in sub-freezing temperatures,
follow the instructions below to prevent damage.
• To prevent damage to the water pump, do not operate the icemaker with the
control switch in the "SERVICE" position when the water tank is empty.
When the icemaker is not used for two or three days under normal conditions, it is sufficient
to move the control switch to the "OFF" position. When storing the icemaker for an extended
time or in sub-freezing temperatures, follow the instructions below.
1) Turn off the power supply, then remove the front panel.
2) Move the control switch on the control box to the "OFF" position. Confirm that the
service switch is in the "CIRC." position.
3) Remove the front insulation, front frame, right side panel, and control box cover.
4) Disconnect the thermistor connector from the control board K3 (white) connector, then
unplug the water pump connector at the water pump.
5) Wait 3 minutes, then move the control switch to the "ICE" position. Confirm that the bin
control switch is closed and calling for ice. The green "BC CLOSED" LED on the control
board should be on.
6) Once LED 1 and 2 on the control board energize (the order of the LEDs from the outer
edge of the control board is 1, 4, 3, 2), close the inlet water supply line shut-off valve
and open the inlet water supply line drain valve. Allow the line to drain by gravity.
7) Disconnect the harvest water valve hose in the evaporator section and blow out the
water line to the harvest water valve using compressed air or carbon dioxide. See Fig. 4.
This will clear water from the harvest water valve.
8) Move the control switch to the "OFF" position.
9) Move the service switch to the "WASH" position and the control switch to the
"SERVICE" position.
10) Using the same hose as with the harvest water valve, blow out the wash valve using
compressed air or carbon dioxide.
11) Move the service switch to the "CIRC." position and the control switch to the "OFF"
position.
12) Remove the 4 hoses connected to the water tank. Allow the water tank and hoses to
completely drain.
13) Move the control switch to the "ICE" position.
14) Using the fill/refill water valve hose, blow out the water line using compressed air or
carbon dioxide. This will clear water from the fill/refill water valve.
15) Move the control switch to the "OFF" position.
16) Disconnect the float switch flush tube from the drain hose tee. Move the service switch
to the "DRAIN" position and the control switch to the "SERVICE" position.
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17) From the tee on the drain hose, blow out the drain valve using compressed air or carbon
dioxide.
18) Move the service switch to the "CIRC." position and the control switch to the "OFF"
position.
19) Turn off the power supply.
20) Reconnect the thermistor connector to the control board K3 (white) connector.
Reconnect the water pump connector.
21) Close the inlet water supply line drain valve.
22) Remove all ice from the dispenser unit/storage bin and clean the dispenser unit/storage
bin liner using a neutral cleaner. Rinse thoroughly after cleaning.
23) Replace all removed parts and panels in their correct positions.
Harvest Water Valve Hose
Harvest Water Valve
Wash Valve
Fill/Refill Water Valve Hose
Fill/Refill Water Valve
Float Switch Flush Tube
Drain Valve
Drain Hose Tee
Suction Hose
Fig. 4
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VII. Disposal
This icemaker contains refrigerant and must be disposed of in accordance with
applicable national, state, and local codes and regulations. Refrigerant must be
recovered by properly certified service personnel.
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