Hoshizaki Automobile Alarm KMS 1400MLH User Manual

Hoshizaki America, Inc.  
Hoshizaki  
Modular Crescent Cuber  
Serenity Series  
Model  
KMS-1400MLH  
Including  
Condensing Unit Model SRK-14H/3  
SERVICE MANUAL  
“A Superior Degree  
of Reliability”  
Number: 73162  
Issued: 2-28-2008  
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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  
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I. Specifications  
A. Icemaker  
1. KMS-1400MLH – SRK-14H  
AC SUPPLY VOLTAGE  
208-230/60/1 ( 3 wire with neutral for 115V )  
AMPERAGE  
15 A ( 5 Min. Freeze AT 104°F / WT 80°F )  
MINIMUM CIRCUIT AMPACITY  
MAXIMUM FUSE SIZE  
APPROXIMATE ICE PRODUCTION  
PER 24 HR.  
20 A  
20 A  
Ambient  
WATER TEMP. (°F)  
Temp.(°F)  
50  
70  
90  
lbs./day ( kg/day )  
Reference without *marks  
70  
80  
90  
* 1284 (582)  
1252 (568)  
1242 (564)  
1170 (531)  
1242 (564)  
1188 (539)  
* 1142 (518)  
1121 (509)  
1164 (528)  
1097 (497)  
1054 (478)  
974 (442)  
100  
SHAPE OF ICE  
Crescent Cube  
ICE PRODUCTION PER CYCLE  
APPROXIMATE STORAGE CAPACITY  
ELECTRIC & WATER CONSUMPTION  
ELECTRIC W (kWH/100 lbs.)  
WATER gal./24HR (gal./100 lbs.)  
EXTERIOR DIMENSIONS (WxDxH)  
24 lbs. ( 10.9 kg ) 1248 pcs.  
N/A  
90/70°F  
2522 ( 5.3 )  
270 ( 23.6 )  
KMS-1400MLH : 30" x 24" x 28" ( 762 x 610 x 711 mm )  
SRK-14H : 50" x 17" x 28" ( 1270 x 432 x 711 mm )  
KMS-1400MLH : Stainless steel; Galvanized steel ( Rear )  
SRK-14H : Galvanized steel  
KMS-1400MLH : Net 143 lbs. (65kg ), Shipping 177 lbs. (80kg)  
SRK-14H : Net 230 lbs. (104kg ), Shipping 273 lbs. (124kg)  
Permanent Connection  
70/50°F  
2354 ( 4.4 )  
560 ( 43.6 )  
EXTERIOR FINISH  
WEIGHT  
CONNECTIONS - ELECTRIC  
- WATER SUPPLY  
Inlet  
1/2" FPT  
- DRAIN  
Outlet  
3/4" FPT  
- CONDENSATE DRAIN  
CUBE CONTROL SYSTEM  
HARVESTING CONTROL SYSTEM  
ICE MAKING WATER CONTROL  
COOLING WATER CONTROL  
BIN CONTROL SYSTEM  
COMPRESSOR  
CONDENSER  
EVAPORATOR  
REFRIGERANT CONTROL  
5/8" OD Pipe  
Float Switch  
Hot Gas and Water, Thermistor and Timer  
Timer Controlled, Overflow Pipe  
N/A  
Mechanical Level Switch and Timer  
Hermetic, Model CS18K6E-PFV  
Air cooled, Fin and Tube type  
Vertical type, Stainless Steel and Copper  
Thermostatic Expansion Valve  
Condensing Pressure Regulator  
R-404A, 16 lb. 5 oz. ( 7400 g )  
( Icemaker 7 oz.; Comp/Cond unit 15 lbs. 14 oz. )  
High 467 PSIG, Low 230 PSIG  
High Voltage Cut-out ( Internal )  
Auto-reset Overload Protector ( Internal )  
Auto-reset High Pressure Control Switch  
Float Switch  
REFRIGERANT CHARGE  
DESIGN PRESSURE  
P.C. BOARD CIRCUIT PROTECTION  
COMPRESSOR PROTECTION  
REFRIGERANT CIRCUIT PROTECTION  
LOW WATER PROTECTION  
ACCESSORIES -SUPPLIED  
-REQUIRED  
N/A  
Ice Storage Bin or Dispenser  
OPERATING CONDITIONS  
VOLTAGE RANGE  
AMBIENT TEMP.  
187 - 253 V  
KMS-1400MLH  
45 - 100° F  
( Outdoor use ) -20 - 122° F  
45 - 90° F  
SRK-14H  
WATER SUPPLY TEMP.  
WATER SUPPLY PRESSURE  
10 - 113 PSIG  
Note: We reserve the right to make changes in specifications and design without prior  
notice.  
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2. KMS-1400MLH – SRK-14H3  
Intentionally Left Blank  
Note: We reserve the right to make changes in specifications and design without prior  
notice.  
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B. Condensing Unit  
1. SRK-14H  
AC SUPPLY VOLTAGE  
208-230/60/1 ( 3 wire with neutral for 115V )  
( Connection to icemaker )  
15 A ( 5 Min. Freeze AT 104°F / WT 80°F )  
20 A  
AMPERAGE  
MINIMUM CIRCUIT AMPACITY  
MAXIMUM FUSE SIZE  
20 A  
EXTERIOR DIMENSIONS ( WxDxH )  
50" x 17" x 28" ( 1270 x 432 x 711 mm )  
DIMENSIONS INCLUDING LEGS ( WxDxH ) 52-3/8" x 19-1/2" x 43" ( 1330 x 495 x 1092 mm )  
EXTERIOR FINISH  
WEIGHT  
Galvanized steel  
Net 230 lbs. ( 104 kg )  
Permanent - Connection  
Suction line  
Shipping 273 lbs. ( 124 kg )  
CONNECTIONS - ELECTRIC  
- REFRIGERANT  
1-1/8-12 UNF Fitting ( # 11 Parker )  
1-1/16-12 UNF Fitting ( # 10 Parker )  
Liquid line  
COMPRESSOR  
Hermetic, Model CS18K6E-PFV  
Air cooled, Fin and Tube type  
CONDENSER  
COMPRESSOR PROTECTION  
FAN MOTOR PROTECTION  
REFRIGERANT CIRCUIT PROTECTION  
REFRIGERANT CONTROL  
REFRIGERANT CHARGE  
DESIGN PRESSURE  
Auto-reset Overload Protector ( Internal )  
Thermal Protection  
Auto-reset High Pressure Control Switch  
Condensing Pressure Regulator  
15 lbs. 14 oz.  
( 7200 g )  
High 467 PSIG, Low 230 PSIG  
VOLTAGE RANGE  
AMBIENT TEMP. ( Outdoor use )  
Leg  
OPERATING CONDITIONS  
187 - 253 V  
-20 - 122° F  
ACCESSORIES -SUPPLIED  
2 pcs  
Hex. Head Bolt w/Washer  
Hex. Nut  
M8 x 16  
M8  
16 pcs  
16 pcs  
Note: We reserve the right to make changes in specifications and design without prior  
notice.  
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2. SRK-14H3  
Intentionally Left Blank  
Note: We reserve the right to make changes in specifications and design without prior  
notice.  
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II. General Information  
A. Construction  
1. Icemaker  
Spray Tubes  
Hot Gas Valve  
Liquid Line Valve  
Service  
Valve  
(High Side)  
Drier  
Wash Valve  
Thermistor  
Service  
Valve  
(Low Side)  
Harvest Water Valve  
Fill Water Valve  
Control Box  
Control Board  
Pump Motor  
Float Switch  
Bin Control Switch  
Control Switch  
Drain Water Valve  
Service Switch  
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2. Condensing Unit  
Condenser  
Liquid Line Valve  
Hot Gas Valve  
Headmaster  
(C.P. Regulator)  
Shut-off Valve  
(Low Side)  
Control Box  
Junction Box  
Fan Motor and Fan Blade  
Shut-off Valve (High Side)  
Compressor  
Receiver Tank  
Accumulator  
Thermostat (Discharge Pipe)  
11  
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B. Sequence of Operation  
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 control board come on (If the  
yellow BC OPEN LED is on, the unit will not start. In this case clear ice away from the  
bin control actuator in the 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, ꢀ.  
1. One Minute Fill Cycle  
LED 4 is on. FWV opens and the fill period begins. After 1 minute, the board checks  
for a closed LF/S. If LF/S is closed, the harvest cycle begins. If not, FWV will remain  
energized through additional 1 minute cycles until water enters the sump and LF/S  
closes. This serves as a low water safety to protect the water pump.  
2. Initial Harvest Cycle  
LEDs 1, 4 and ꢀ are on. Comp, FMR, HGVs, HWV and X1 relay energize, FWV closes.  
The control board monitors the warming of the evaporator via the thermistor located  
on the suction line. When the thermistor reaches 48°F (9°C), the control board reads a  
3.9 kΩ signal from the thermistor and turns harvest termination over to the adjustable  
harvest timer which is factory set for normal conditions. The timer has settings of 60,  
90, 1ꢀ0, and 180 seconds (S4 dip switch 1 & ꢀ). When the harvest timer completes its  
count down, the harvest cycle is complete and the freeze cycle starts. The minimum  
total time allowed by the board for a complete harvest cycle is ꢀ minutes. HWV is open  
during harvest for a maximum of 6 minutes or the length of harvest minus 50 seconds,  
whichever is shorter. LED 4 goes off when HWV closes. PM energizes and runs for the  
last 50 seconds of harvest. LED 3 comes on when PM energizes. At the end of harvest,  
the control board checks the position of LF/S and proceeds to the freeze cycle if it is  
closed or calls for a 1-minute fill if it is open.  
3. Freeze Cycle  
LED 1 is on. Comp, FMR and PM continue to run, LLVs open, HGVs close. For the first  
5 minutes, the control board will not terminate the freeze cycle. As ice builds and LF/S  
opens, FWV opens (LED 4 is on when FWV is open). The refill will last until U/FS closes  
or for 60 seconds, whichever is shorter. After UF/S closes, FWV closes 3 seconds later.  
The KMS-1400MLH refills 1 time. After the refill, the freeze continues until LF/S opens  
again. The freeze cycle is then terminated, provided the 5 minute freeze timer has  
expired.  
4. Pump-Out Cycle  
The 1st pump out occurs after the 11th freeze cycle and every 10th cycle thereafter.  
LEDs 1, 3, and ꢀ are on. Comp and FMR continue to run, DWV opens, HGVs open,  
LLVs close. PM stops for ꢀ seconds. PM restarts, pumping water from the water tank  
through the DWV and down the drain. At the same time, water flows through the vent  
tube to power flush the F/S. After 10 seconds, the pump out is complete. The pump-out  
frequency control is factory-adjusted to drain the water tank every 10 cycles, and 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. See "II.C.3.d) Pump-Out  
Frequency Control."  
1ꢀ  
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5. Normal Harvest Cycle  
LEDs 1, 4 and ꢀ are on. Comp, FMR and HGVs remain energized. HWV and X1 relay  
energize, PM stops. As the evaporator warms, the thermistor reaches 48°F (9°C). The  
control board then receives the thermistor's 3.9 kΩ signal and starts the harvest timer.  
When the harvest timer completes its count down, the harvest cycle is complete. The  
minimum total time allowed by the board for a complete harvest cycle is ꢀ minutes. HWV  
is energized during harvest for a maximum of 6 minutes or the length of harvest minus  
50 seconds, whichever is shorter. LED 4 goes off when HWV closes. PM energizes and  
runs for the last 50 seconds of harvest. LED 3 comes on when PM energizes. At the  
end of harvest, the control board checks the position of LF/S and proceeds to the freeze  
cycle if it is closed or calls for a 1-minute fill if it is open.  
The unit continues to cycle through freeze and harvest cycles until the bin control  
activates (opens) and shuts the unit down.  
Note: To prevent incomplete batches of ice from forming on the evaporator, the control  
board will only shut down the machine within the first 5 minutes of the freeze  
cycle. If ice pushes the bin control actuator in (open) after the first five minutes of  
the freeze cycle, the control board will allow the machine to complete the freeze  
cycle and the following harvest cycle before shutting down the machine.  
Legend: Comp–compressor; DWV–drain water valve; FMR–remote fan motor; F/S–float  
switch; FWV–fill water valve; HGV–hot gas valve; HWV–harvest water valve;  
LF/S–lower float switch contacts; LLV–liquid line valve; PM–pump motor;  
UF/S–upper float switch contacts  
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C. Control Board  
• A HOSHIZAKI exclusive solid-state control is employed in the KMS-1400MLH Modular  
Crescent Cuber.  
• All models are pretested and factory-adjusted.  
CAUTION  
1. Fragile, handle very carefully.  
ꢀ. A 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 when handling or replacing the board.  
3. Do not touch the electronic devices on the board or the back of the board to  
prevent damage to the board.  
4. Do not change wiring and connections. Do not misconnect K3, K4 and K5,  
because the same connector is used for the thermistor, mechanical bin  
control and float switch.  
5. Always replace the whole board assembly if it goes bad.  
6. Do not short out power supply to test for voltage.  
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1. Control Board Layout  
Control Products "G" Control Board  
Output Test Button  
(used to test relays on board)  
S4 Dip  
Switch  
Alarm Reset Button  
Bin Control Switch  
Closed LED (green)  
Connector K3  
Harvest Control  
(thermistor)  
Bin Control Switch  
Open LED (yellow)  
Connector K4  
Mechanical Bin  
Control  
S5 Dip Switch  
(factory set -  
do not adjust)  
Connector K5  
Float Switch  
Part Number  
Alarm Buzzer  
LED ꢀ (green)  
Hot Gas Valves (HGV)  
Label  
(board revision level  
indicated on label  
on side of relay)  
Power LED (red)  
(lights when power  
is supplied to the  
board)  
Connector K1  
Pins #1 through #10  
#1, 9 Magnetic Contactor  
#ꢀ Hot Gas Valves (HGV)  
Water Valve Relay  
#3 Liquid Line Valves (LLV)  
#4 Pump Motor (icemaking)  
#5 Pump Motor (harvest)  
#6 Fill Water Valve (FWV)  
#7 10 Supply Voltage  
#8 Open  
LED 3 (green)  
Pump Motor (PM)  
(PM on, but LED off,  
at freeze cycle)  
LED 4 (green)  
Fill Water Valve  
(FWV) (when LED ꢀ  
is off)  
Harvest Water Valve  
(HWV) (when LED ꢀ  
is on)  
Switch for "C" board  
and "ALPINE" board  
(service boards only)  
LED 1 (green)  
Compressor (Comp)  
Connector Kꢀ  
Transformer  
Control Board  
Part Number ꢀA379ꢀ-01 (factory); 2A3792-02 (service)  
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2. Features  
a) Maximum Water Supply Period – 6 minutes  
The harvest water valve will be open during harvest for 6 minutes or the length of  
harvest minus 50 seconds, whichever is shorter.  
b) Harvest Backup Timer and Freeze Timer  
The harvest backup timer shuts down the icemaker if, for two cycles in a row, the harvest  
cycle takes more than ꢀ0 minutes to complete. The control board will signal this problem  
using ꢀ beeps every 3 seconds.  
The freeze timer shuts down the icemaker if, for two cycles in a row, the freeze cycle  
takes longer than the time specified to complete. The control board will signal this  
problem using 3 beeps every 3 seconds. The time is factory set using S4 dip switch 9 &  
10.  
The alarm reset button on the control board must be pressed with power on to reset  
either of these safeties.  
c) High Temperature Safety  
The temperature of the suction line in the refrigeration circuit is limited by the high  
temperature safety. This protects the unit from excessively high temperatures. If the  
evaporator temperature rises above 1ꢀ7 ± 7°F (53 ± 4°C), the control board reads a  
.804 kΩ signal from the thermistor and operates the safety. This shuts down the circuit  
and the icemaker automatically stops.  
The control board will signal this problem using 1 beep every 3 seconds. The alarm reset  
button on the control board must be pressed with power on to reset the safety.  
d) Low Water Safety  
The control board checks the position of the lower float switch at the end of the initial one  
minute water fill cycle and at the end of each harvest cycle. If the lower float switch is  
closed, the control board proceeds to the next cycle. If the lower float switch is open, the  
control board calls for a one minute water fill cycle. After one minute, the control board  
checks the position of the float and either proceeds to the next cycle if the lower float  
switch is closed or calls for an additional one minute fill if the switch is open. This serves  
as a low water safety to protect the water pump.  
e) High Voltage and Low Voltage Cut-outs  
High voltage and low voltage cut-outs help protect the icemaker from supply voltages  
outside of the accepted range.  
If miswiring causes excessive voltage (147Vac ±5% or more for 3 seconds) on  
the control board, the high voltage cut-out shuts down the circuit and the icemaker  
automatically stops. The control board will signal this problem using 7 beeps every 3  
seconds.  
The icemaker also automatically stops in cases of insufficient voltage (9ꢀVac ±5% or  
less). The control board will signal this problem using 6 beeps every 3 seconds.  
When the proper supply voltage is resumed, the icemaker automatically starts running  
again.  
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f) LED Lights and Audible Alarm Safeties  
The control board includes LED indicator lights, audible alarm safeties, and an output  
test. The red LED indicates control voltage and will remain on unless a control voltage  
problem occurs. At startup a 5-second delay occurs while the board conducts an internal  
timer check. A beep occurs when the control switch is moved to the "ICE" position.  
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 board is 1, 4, 3,  
ꢀ. For more information, see "II.B. Sequence of Operation."  
Time LEDs are On  
Energized  
Components  
Sequence Step  
LED  
Min.  
Max.  
Avg.  
1 Minute Fill Cycle 4  
FWV  
60 seconds  
Harvest Cycle  
1, 4 and ꢀ  
Comp, FMR ꢀ minutes ꢀ0 minutes 3 to 5 minutes  
HWV, HGV  
Last 50 seconds of harvest, HWV de-energizes and PM energizes.  
LEDs 1, 3 and ꢀ are on.  
Freeze Cycle  
1 (and 4 at Comp, FMR, 5 minutes freeze timer 30 to 35  
refills)  
PM, LLV  
setting  
minutes  
(FWV at refill)  
Pump-Out Cycle  
1, 4*, 3, and Comp, FMR, 10 seconds ꢀ0 seconds *pump-out  
HWV*, PM,  
HGV, DWV,  
timer setting  
The built in safeties shut down the unit and have alarms as listed below.  
No. of Beeps  
Type of Alarm  
Notes  
(every 3 sec.)  
1
High Evaporator Temp.  
(temperature > 1ꢀ7°F)  
(53°C)  
Check for harvest problem (stuck HGV or  
relay), hot water entering unit, stuck HM or  
shorted thermistor.  
3
Harvest Backup Timer  
(harvest > ꢀ0 min. for two TXV leaking by, low charge or inefficient Comp.  
cycles in a row)  
Check for open thermistor, HGV not opening,  
Freeze Timer  
(freeze > specified setting HWV or FWV leaking by, HGV leaking by,  
for two cycles in a row) PM not pumping, TXV not feeding properly,  
Timer is factory set using low charge, HM not bypassing or inefficient  
S4 dip switch 9 & 10 compressor.  
Check for a float switch stuck closed (up),  
To reset the above safeties, press the "ALARM RESET" button with the power supply on.  
6
Low Voltage  
(9ꢀVac ±5% or less)  
Red LED will turn off if voltage protection  
operates.  
The control voltage safeties automatically reset  
when voltage is corrected.  
7
High Voltage  
(147Vac ±5% or more)  
Legend: Comp–compressor; DWV–drain water valve; FMR–remote fan motor; FWV–fill  
water valve; HGV–hot gas valve; HM–headmaster; HWV–harvest water valve;  
LLV–liquid line valve; PM–pump motor; TXV–thermostatic expansion valve  
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3. Controls and Adjustments  
a) Default Dip Switch Settings  
The dip switches are factory-adjusted to the following positions:  
S4 Dip Switch  
Dip Switch No.  
KMS-1400MLH  
1
3
4
5
6
7
8
9
10  
OFF OFF OFF ON ON ON ON OFF OFF ON  
S5 Dip Switch (Do Not Adjust)  
1
3
4
5
Dip Switch No.  
KMS-1400MLH  
OFF ON OFF OFF OFF  
Freeze Timer (9 & 10)  
S4 Dip Switch  
Normally off (8)  
Do not adjust (7)  
Pump-Out Frequency Control (5 & 6)  
Pump-Out Timer (3 & 4)  
Harvest Timer (1 & ꢀ)  
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. No adjustment is required under normal use, as the harvest timer is adjusted to  
the suitable position. Before changing this setting, contact Hoshizaki Technical Support  
at 1-800-ꢀ33-1940 for recommendations. Keep in mind that setting the harvest timer to a  
longer setting will decrease ꢀ4 hour production.  
Dip Switch Setting  
Time (seconds)  
No. 1  
OFF  
ON  
No. ꢀ  
OFF  
OFF  
ON  
60  
90  
OFF  
ON  
1ꢀ0  
180  
ON  
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c) Pump-Out Timer (S4 dip switch 3 & 4)  
During cycles when a pump out is called for, the pump motor drains the water tank for  
the time determined by the pump-out timer (T1). The pump-out timer's harvest timer (Tꢀ)  
acts in place of the harvest timer (S4 dip switch 1 & ꢀ) during cycles with a pump out.  
The pump-out timer is factory-adjusted, and no adjustment is required.  
Dip Switch Setting  
Time (seconds)  
Harvest Water  
Valve  
T1  
No. 3  
OFF  
ON  
No. 4  
OFF  
OFF  
ON  
Tꢀ  
10  
10  
10  
ꢀ0  
150  
180  
1ꢀ0  
180  
Closed  
Closed  
Open  
OFF  
ON  
ON  
Closed  
T1: Time to drain the water tank  
Tꢀ: Harvest timer at pump out  
Depending on the pump-out frequency control setting (dip switch 5 & 6), pump out  
occurs every cycle, or every ꢀnd, 5th or 10th cycle.  
d) Pump-Out Frequency Control (S4 dip switch 5 & 6)  
The pump motor drains the water tank at the frequency set by the pump-out frequency  
control.  
The pump-out frequency control is factory-adjusted to drain the water tank every 10  
cycles, and 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 as  
shown in the table below.  
Dip Switch Setting  
Frequency  
No. 5  
OFF  
ON  
No. 6  
OFF  
OFF  
ON  
every cycle  
every ꢀ cycles  
every 5 cycles  
every 10 cycles  
OFF  
ON  
ON  
e) Factory Use (S4 Dip Switch 7 & 8)  
Factory set for optimum performance. Do not adjust.  
ꢀ0  
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f) Freeze Timer (S4 dip switch 9 & 10)  
CAUTION  
Adjust to proper specification, or the unit may not operate correctly.  
The freeze timer setting determines the maximum allowed freeze time to prevent  
possible freeze-up issues. Upon termination of freeze timer, the control board initiates  
the harvest cycle. After ꢀ consecutive timer terminations, the control board shuts the  
machine down. In this case, see "IV.B.3. Low Ice Production" for possible solutions.  
The freeze timer is factory adjusted and no adjustment is required.  
Dip Switch Setting  
Time  
(minutes)  
No. 9  
OFF  
OFF  
ON  
No. 10  
OFF  
ON  
60  
50  
70  
60  
OFF  
ON  
ON  
g) Float Switch Control and Refill Counter (S5 dip switch 1 through 5)  
Do not adjust. These must be left in the factory default position or the unit will not  
operate properly. The KMS-1400MLH refills 1 time.  
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.  
1) Check the S4 and S5 dip switch settings to assure that they are in the factory default  
positions.  
ꢀ) Turn the control switch to "ICE" and check for proper control voltage. If the red LED  
is on, the control voltage is good. If the red LED is off, check the control transformer  
circuit.  
3) Check the 115 volt input at the wire harness terminals and the 10-pin connector. Check  
the brown and white wire at pin #10 to a white neutral wire for 115 volts. (Always  
choose a white neutral wire to establish a good neutral connection when checking  
voltages.) On the 10 pin connector, a jumper also feeds 115 volts into pin #7. If no  
voltage is present, check the 115 volt supply circuit.  
4) 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  
should be 1, 4, 3, ꢀ. Some components (e.g., the compressor) will cycle during the test.  
Note that the order of the relays from the outer edge of the board is 1, 4, 3, ꢀ. After  
checking the sequence, the unit automatically starts at the 1 minute fill cycle. If the  
LEDs light in a different sequence, the control board is bad and should be replaced.  
ꢀ1  
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5. Control Board Replacement  
The dip switches should be adjusted to the factory default settings as outlined in this  
manual. S4 dip switch #8 must remain off.  
D. Harvest Control – Thermistor  
A thermistor (semiconductor) is used for a harvest control sensor. The resistance varies  
depending on the suction line temperatures. The thermistor detects the temperature of  
the evaporator outlet to start the harvest timer. No adjustment is required. If necessary,  
check for resistance between thermistor leads, and visually check the thermistor  
mounting, located on the suction line next to the evaporator outlet.  
Temperature (°F) Temperature (°C)  
Resistance (kΩ)  
0
-18  
-1ꢀ  
0
14.401  
10.614  
6.000  
3.871  
ꢀ.474  
1.633  
10  
3ꢀ  
50  
70  
90  
10  
ꢀ1  
3ꢀ  
Check a thermistor for resistance by using the following procedure:  
1) Disconnect the connector K3 on the board.  
ꢀ) Remove the thermistor. See "V.C.6. Removal and Replacement of Thermistor."  
3) Immerse the thermistor sensor portion in a glass containing ice and water for ꢀ or 3  
minutes.  
4) Check for a resistance between thermistor leads. Normal reading is within 3.5 to 7 kΩ.  
Replace the thermistor if it exceeds the normal reading.  
ꢀꢀ  
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E. Float Switch  
1. Explanation of Operation  
The float operates ꢀ switches within the float switch. The lower switch (black and  
blue wires) is used for low water safety protection, initiating the freeze cycle refill and  
terminating the freeze cycle. The upper switch (black and red wires) is used to terminate  
the freeze cycle refill only. Refill will last until the upper float switch closes or the 1  
minute countdown timer ends, whichever comes first.  
2. Cleaning  
Depending on local water conditions, scale may build up on the float, float switch shaft  
and inside the housing. Scale on the float or shaft can cause the float to stick causing  
erratic operation. The float switch should be cleaned and checked before replacing.  
First, disconnect the black K5 float switch connector from the control board and remove  
the float switch and rubber boot from the icemaker. Remove the rubber boot from the  
float switch. Twist the mechanical lock at the top of the float housing and lower out the  
float and float shaft. Remove the retainer clip from the shaft and slide the float off the  
shaft. Soak the switch assembly in ice machine cleaner. Wipe down the shaft, float,  
housing, and rubber boot with cleaning solution. See "VI. Cleaning and Maintenance  
Instructions."  
3. Float Switch Check Procedure  
Before replacing a float switch that you suspect is bad, make sure the float switch has  
been cleaned. This procedure will help you verify your diagnosis. The float switch has  
three wires. The black wire is common. The blue wire is for the lower float switch contact  
and the red wire is for the upper float switch contact.  
1) Disconnect the black K5 float switch connector from the control board.  
ꢀ) Drain the reservoir water.  
3) Turn the control switch to "ICE".  
4) As water fills the reservoir, the float switch contacts should close. Check continuity of  
the lower float switch contacts using the black and blue wires and the upper float switch  
contacts using the black and red wires. With the float positioned all the way up, both  
float switch contacts should be closed. If either float switch contact fails, the assembly  
should be replaced.  
5) Turn the control switch to "OFF".  
6) Drain the reservoir water.  
7) As water drains, the float switch contacts should open. Check continuity of the upper  
float switch contacts using the black and red wires and the lower float switch contacts  
using the black and blue wires. With the float positioned all the way down, both float  
switch contacts should be open. If either float switch contact fails, the assembly should  
be replaced.  
8) Reconnect the black K5 connector to the control board when finished.  
ꢀ3  
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Black - Common  
Blue - Lower Switch  
Red - Upper Switch  
Mechanical Lock  
Housing  
Upper Switch  
Lower Switch  
Retainer Clip  
Float  
Fig. 1  
Float Switch  
ꢀ4  
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F. Bin Control  
This machine uses a lever-actuated proximity switch (mechanical bin control) to control  
the ice level in the storage bin. No adjustment is required.  
1. Explanation of Operation  
The bin control is connected to the red K4 connector on the control board. When the  
bin control is calling for ice (proximity switch closed; green LED, BC CLOSED, on), the  
control board continues icemaking operations. When the bin control is activated in the  
bin full position (proximity switch open; yellow LED, BC OPEN, on), the control board  
shuts down the unit. However, to prevent incomplete batches of ice from forming on the  
evaporator, the control board will only shut down the machine within the first 5 minutes of  
the freeze cycle. If ice pushes the lever in after the first five minutes of the freeze cycle,  
the control board will allow the machine to complete the freeze cycle and the following  
harvest cycle before shutting down the machine.  
2. Bin Control Check Procedure  
1) Clear any ice away from the bin control.  
ꢀ) Turn the control switch to "ICE".  
3) Check that the green "BC CLOSED" LED on the control board is on.  
4) Activate the bin control actuator (press the actuator in). Check that the yellow "BC  
OPEN" LED on the control board is on.  
5) Disconnect the red K4 bin control connector from the control board.  
6) Check for continuity across the bin control leads. When calling for ice, the bin control  
proximity switch should be closed. If open, replace the bin control. Activate the bin  
control actuator (press the actuator in), check for continuity across the bin control leads.  
The bin control proximity switch should be open. If closed, replace the bin control.  
7) Reconnect the red K4 connector. Allow the machine to cycle into the freeze cycle.  
In the first 5 minutes of the freeze cycle, activate the bin control actuator (press the  
actuator in). The yellow "BC OPEN" LED should come on and the machine should turn  
off. If not, replace the control board.  
Bin Control  
Switch Open  
(bin full)  
Fig. 2  
Bin Control  
Bin Control  
Switch Closed  
(calling for ice)  
ꢀ5  
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G. Switches  
Two control switches are used to control operation in KMS Series Modular Crescent  
Cubers. These switches are referred to as the "control switch" and the "service switch"  
and are located on the control 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 the machine is in service mode. The service switch has three  
positions: "DRAIN," "CIRC." and "WASH." See the information below for details of  
each function.  
Note:  
1. When the service switch is activated, power is supplied to the water pump in all  
three positions.  
ꢀ. When the control switch is in the "OFF" position or in the "ICE" position, the  
service switch has no power and can be left in any position.  
a) DRAIN  
The KMS series utilizes a pump-out drain system. When the service switch is active and  
placed in the "DRAIN" position, power is supplied to the pump and drain valve.  
b) CIRC.  
When the service switch is active and placed in the "CIRC." position, power is  
supplied to the pump only. This operation can be used to circulate cleaner for extended  
periods of time over the outside surface of the evaporator.  
c) WASH  
The KMS series 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 and  
wash valve. This operation is used to circulate cleaner and sanitizer over both the inside  
and outside of the evaporator.  
ꢀ6  
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III. Technical Information  
A. Water Circuit and Refrigeration Circuit  
ꢀ7  
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B. Wiring Diagrams  
1. KMS-1400MLH – SRK-14H  
*
ꢀ8  
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2. KMS-1400MLH – SRK-14H3  
*
ꢀ9  
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3. Wire Harness Connections  
30  
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C. Performance Data  
1. KMS-1400MLH – SRK-14H  
APPROXIMATE ICE  
PRODUCTION PER 24 HR.  
WATER TEMP. (ºF/ºC)  
70/21  
AMBIENT TEMP.  
(ºF/ºC)  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
70/21  
80/27  
90/32  
100/38  
50/10  
90/32  
582  
568  
564  
531  
1242  
1188  
1142  
1121  
564  
539  
518  
509  
1164  
1097  
1054  
974  
528  
497  
478  
442  
1284  
1252  
1242  
1170  
lbs./day kg./day  
APPROXIMATE ELECTRIC  
CONSUMPTION  
2354  
2391  
2403  
2468  
2403  
2468  
2522  
2531  
2449  
2501  
2561  
2597  
watts  
APPROXIMATE WATER  
CONSUMPTION PER 24 HR.  
2.12  
1.87  
1.80  
1.40  
475  
363  
270  
259  
1.80  
1.37  
1.02  
0.98  
413  
331  
223  
181  
1.56  
1.25  
0.85  
0.69  
560  
495  
475  
370  
gal./day m3/day  
FREEZING CYCLE TIME  
22  
23  
24  
26  
6
24  
26  
27  
27  
5
25  
26  
28  
29  
5
min.  
HARVEST CYCLE TIME  
5
4
4
5
2
3
4
3
2
min.  
HEAD PRESSURE  
13.1  
14.0  
14.3  
14.5  
2.7  
204  
228  
247  
252  
40  
14.3  
16.0  
17.4  
17.7  
2.8  
224  
245  
266  
283  
41  
15.7  
17.2  
18.7  
19.9  
2.9  
186  
200  
204  
206  
39  
PSIG kg/cm2G  
SUCTION PRESSURE  
39  
2.8  
41  
2.9  
42  
3.0  
40  
2.8  
2.9  
43  
3.0  
42  
PSIG kg/cm2G  
40  
2.8  
42  
3.0  
45  
3.1  
TOTAL HEAT OF REJECTION (SRK-14H UNIT)  
CONDENSER VOLUME (SRK-14H UNIT)  
25270 BTU/h [ AT 90ºF (32ºC) / WT 70ºF (21ºC) ]  
226 CU. IN  
Note:  
1. Pressure data is recorded at 5 minutes into freezing cycle. The data not in bold  
should be used for reference only.  
ꢀ. We reserve the right to make changes in specifications and design without prior  
notice.  
31  
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2. KMS-1400MLH – SRK-14H3  
Intentionally Left Blank  
Note:  
1. Pressure data is recorded at 5 minutes into freezing cycle. The data not in bold  
should be used for reference only.  
ꢀ. We reserve the right to make changes in specifications and design without prior  
notice.  
3ꢀ  
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IV. Service Diagnosis  
A. 10-Minute Diagnostic Procedure  
The 10-minute check out procedure is basically a sequence check which can be used  
at unit start-up or for system diagnosis. Using this check out procedure will allow you  
to diagnose electrical system and component failures in approximately 10 minutes  
under normal operating conditions of 70°F (ꢀ1°C) or warmer air and 50°F (10°C) or  
warmer water temperatures. Before conducting a 10 minute checkout, check for correct  
installation, proper voltage per unit nameplate and adequate water supply. 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 power off and access the icemaker's control box. Clear any ice from the bin  
control actuator located in the bin.  
ꢀ) Turn power on and place the control switch in the "ICE" position. A 5 second delay  
occurs. The red "POWER OK" LED and the green "BC CLOSED" LED on the control  
board come on.  
3) One Minute Fill Cycle – LED 4 is on. The fill water valve is energized. After 1 minute,  
the control board checks for a closed lower float switch. If the lower float switch is  
closed, the harvest cycle begins. If closed, continue to step 4. If the lower float switch  
is open, the fill water valve will remain energized through additional 1 minute fill  
cycles until water enters the sump and the lower float switch closes (low water safety  
protection during initial start up and at the end of each harvest). Diagnosis: If the fill  
water valve does not open, check for no supply voltage at water valve terminals, bad  
coil, or plugged screen or external filter (no water flow). If the reservoir fills, but the unit  
fails to start harvest, check for open lower float switch (see "II.F.3. Float Switch Check  
Procedure") or bad 1 minute timer in control board. See "II.C.4. Control Board Check  
Procedure."  
4) Initial Harvest Cycle – LEDs 1, 4 and ꢀ are on. The contactor coil energizes to start  
the compressor and fan motors, the hot gas valves energize (also energizing the  
X1 relay), the harvest water valve energizes and the fill water valve de-energizes. The  
harvest water valve is open during harvest for a maximum of 6 minutes or the length of  
harvest minus 50 seconds, whichever is shorter. The pump motor energizes and runs  
for the last 50 seconds of harvest.  
The evaporator warms and the thermistor senses 48°F (9°C). The control board then  
receives the thermistor's 3.9 kΩ signal and turns operation of harvest over to the  
harvest countdown timer. The last 50 seconds of the harvest countdown timer, the  
harvest water valve de-energizes and the water pump energizes, (LED 4 goes off and  
LED 3 comes on). When the harvest countdown timer completes, the freeze cycle  
starts. Diagnosis: Check if evaporator is warming up, compressor and fan motors are  
on, hot gas valves are open, harvest water valve open. If these are okay, next check  
for at least 48°F (9°C) on the suction line. If the evaporator is cool, check for inlet  
water too cold or liquid line valves stuck open. If the suction line is at least 48°F (9°C),  
disconnect the thermistor at the white K3 connector on the control board and check for  
resistance of 3.9 kΩ or less. If different, see "II.D. Harvest Control – Thermistor," for  
check procedure. Replace if necessary. If resistance is 3.9 kΩ or less, reconnect the  
thermistor to the white K3 connector on the control board. If harvest does not terminate  
within 3 minutes, replace the control board.  
33  
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5) Freeze Cycle – LED 1 is on. The compressor, fan motors and pump motor remain  
energized. The liquid line valves energize and the hot gas valves de-energize (also  
de-energizing the X1 relay). The lower float switch activates (open) ꢀ times during  
the course of a freeze cycle; the first is for refill, the second is for freeze termination.  
After the second lower float switch activation, the control board terminates freeze and  
initiates harvest. Every 10th cycle, the control board initiates a 10 second pump-out  
cycle between the freeze and harvest cycles. See "II.C.3.d) Pump-Out Frequency  
Control."  
a. Lower Float Switch 1st Activation: Refill – LEDs 1 and 4 are on. The refill can occur  
at any time during the freeze cycle (1 refill per cycle). As ice builds the water level  
drops in the reservoir and the lower float switch activates (opens). LED 4 comes on and  
the control board energizes the fill water valve. The fill water valve remains energized  
until the upper float switch closes or the 1 minute fill timer terminates, whichever comes  
first.  
b. Lower Float Switch 2nd Activation: LED 1 is on. The unit is held in freeze by a  
5 minute short cycle protection timer. After the 1st lower float switch activation and  
refill, ice continues to form and the water level drops in the reservoir. When the lower  
float switch activates (opens) a second time, the freeze cycle terminates (freeze  
can only be terminated on the second activation of the lower float switch and after  
5 minutes of freeze). Diagnosis: Minimum freeze time is 5 minutes. During the first  
5 minutes of freeze, confirm that the evaporator temperature drops, compressor, fan  
motors, pump motor, and liquid line valves are energized and that the hot gas valves,  
harvest water valve and fill water valve (except during refill) are de-energized and  
not bypassing. Make sure the expansion valves are operating properly and, in cold  
conditions, make sure the headmaster (C.P. Regulator) is operating correctly. Make  
sure that the drain water valve is not leaking by (water flowing down the potable drain).  
Check for proper unit pressures (see "III.C. Performance Data"), or an inoperative  
compressor. Disconnect the black K5 float switch connector from the control board.  
15 seconds after disconnecting the black K5 float switch connector, LED 4 comes  
on and refill begins. Connect the black K5 float switch connector back on the control  
board. When the refill is finished (LED 4 goes off), disconnect the black K5 float switch  
connector again. If 5 or more minutes have elapsed in the freeze cycle, the unit should  
switch out of the freeze cycle. After the unit switches out of freeze, reconnect the black  
K5 float switch connector to the control board. If the unit remains in freeze with the float  
switch disconnected, replace the board. To check the float switch, see "II.F.3. Float  
Switch Check Procedure."  
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.  
34  
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6) Pump-Out Cycle – The 1st pump out occurs after the 11th freeze cycle and every  
10th cycle thereafter. LEDs 1, 3, ꢀ are on. The compressor and fan motors remain  
energized. The drain water valve, hot gas valves and X1 relay energize, the liquid line  
valves de-energize. The pump motor stops for ꢀ seconds then restarts for 10 seconds  
(pump out frequency can be adjusted on S4 dip switches 5 and 6). This pump out  
removes contaminants from the water reservoir through the drain water valve and  
allows for a power flush of the float switch. Diagnosis: If the pump motor does not  
come on, check the circuit and capacitor. If water does not pump out, remove the drain  
water valve housing and check/clean the valve assembly, check for voltage on the  
drain valve coil with LED 3 on, make sure that the drain line is not clogged.  
7) Normal Harvest Cycle – Same as the initial harvest cycle. Return to step 4.  
Note: Unit continues to cycle until bin control is satisfied or power is switched off. The  
unit always restarts at the 1 minute fill cycle.  
35  
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B. Diagnostic Charts  
1. No Ice Production  
Problem  
Possible Cause  
Remedy  
[1] The icemaker will not  
start.  
Power Supply  
(Condensing Unit)  
1. Off, blown fuse, or  
tripped breaker.  
1. Turn on, replace, or reset.  
a)  
ꢀ. Loose connections.  
ꢀ. Tighten.  
3. Bad contacts.  
3. Check for continuity and  
replace.  
4. Not within  
4. Refer to nameplate and  
correct.  
specifications.  
Water Supply  
1. Water supply off or  
pressure too low.  
1. Check and get  
b)  
c)  
recommended pressure.  
High Pressure Control 1. Open contacts.  
1. Check for continuity, let  
reset or replace.  
ꢀ. Dirty condenser coil. ꢀ. Clean.  
3. Refrigerant  
overcharged.  
3. Recharge.  
4. Fan not operating.  
4. See chart 1.[6]  
5. Refrigerant line or  
components plugged.  
5. Clean and replace drier.  
Thermostat  
(Condensing Unit High  
Temperature Safety)  
1. Open contacts.  
1. Let cool and reset. Check  
for continuity and replace  
if open.  
d)  
e)  
Wire Harness Terminal 1. Loose connection.  
Block: Condensing Unit  
1. Tighten.  
and Icemaker  
Fuse (Icemaker fused 1. Blown.  
disconnect, if any)  
1. Check for short circuit and  
correct. Reset or replace.  
f)  
Fuse (10A fuse in  
icemaker)  
1. Blown.  
1. Check for short circuit and  
replace.  
g)  
h)  
Control Switch  
1. "OFF" position.  
ꢀ. Bad contacts.  
1. Move to "ICE" position.  
ꢀ. Check for continuity and  
replace.  
3. Loose connection.  
1. Open windings.  
3. Tighten.  
1. Replace.  
Transformer  
Bin Control  
i)  
j)  
1. Tripped with bin filled 1. Remove ice.  
with ice.  
ꢀ. Proximity switch stuck ꢀ. Replace bin control.  
open.  
Wiring to Control Board 1. Loose connections or 1. Check for continuity and  
k)  
open.  
replace.  
36  
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Problem  
Possible Cause  
Remedy  
[1] The icemaker will not  
start. (continuted)  
Fill Water Valve  
1. Mesh filter or orifice  
clogged.  
1. Clean.  
l)  
ꢀ. Coil winding opened. ꢀ. Replace.  
3. Wiring to water valve. 3. Check for loose  
connection or open, and  
replace.  
Control Board  
1. Defective.  
1. See "II.C.4. Control Board  
Check Procedure".  
1. See "II.C.ꢀ.f) LED Lights  
and Audible Alarm  
Safeties".  
m)  
n)  
Control Board in Alarm 1. Audible alarm.  
[ꢀ] Water continues to  
be supplied, and the  
icemaker will not  
start.  
Float Switch  
1. Connector  
disconnected.  
ꢀ. Leads opened or  
defective switch.  
1. Reconnect.  
a)  
ꢀ. Check and replace.  
3. Float does not move 3. Clean or replace.  
freely.  
Control Board  
Control Switch  
Control Board  
1. Defective.  
1. Replace. See "II.C.4.  
Control Board Check  
Procedure."  
b)  
a)  
[3] Compressor will  
not start or stops  
operating.  
1. "SERVICE" position. 1. Move to "ICE" position.  
ꢀ. Bad contacts.  
ꢀ. Check and replace.  
1. Defective.  
1. See "II.C.4. Control Board  
Check Procedure."  
1. Tighten.  
b)  
c)  
Wire Harness Terminal 1. Loose connection.  
Block: Condensing Unit  
and Icemaker  
Magnetic Contactor  
1. Bad contacts.  
1. Check for continuity and  
replace.  
d)  
e)  
ꢀ. Coil winding opened. ꢀ. Replace.  
Starter  
1. Bad contacts.  
1. Check and replace.  
ꢀ. Coil winding opened. ꢀ. Replace.  
Start Capacitor or Run 1. Defective.  
Capacitor  
1. Replace.  
f)  
Overload Protector  
1. Bad contacts.  
1. Check for continuity and  
replace.  
g)  
ꢀ. Voltage too low.  
ꢀ. Increase voltage.  
3. Recharge.  
3. Refrigerant  
overcharged or  
undercharged.  
4. Line valve continues 4. Check line valves  
to close in freeze  
cycle and overload  
protector operates.  
operation in freeze cycle  
and replace.  
Compressor  
1. Wiring to compressor. 1. Check for loose  
connection or open, and  
h)  
replace.  
ꢀ. Defective.  
ꢀ. Replace.  
37  
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Problem  
Possible Cause  
Remedy  
[4] Water continues to  
be supplied in freeze  
cycle (outside of  
refill).  
Fill or Harvest Water  
Valve  
Control Board  
1. Diaphragm does not 1. Check for water leaks with  
a)  
b)  
a)  
close.  
icemaker off.  
1. Defective.  
1. See "II.C.4. Control Board  
Check Procedure".  
[5] No water comes from  
spray tubes. Water  
pump will not start, or  
freeze cycle time is  
too short.  
Water Supply Line  
1. Water pressure too  
low and water level in  
water tank too low.  
1. Check and get  
recommended pressure.  
Fill or Harvest Water  
Valve  
1. Dirty mesh filter or  
orifice and water level  
in water tank too low.  
1. Clean.  
b)  
c)  
Water System  
1. Water leaks.  
1. Check connections for  
water leaks, and replace.  
ꢀ. Clogged.  
ꢀ. Clean.  
3. Drain valve leaking by. 3. Check assembly and  
clean.  
d) Pump Motor  
1. Motor winding  
opened.  
1. Replace.  
ꢀ. Bearing worn out.  
ꢀ. Replace.  
3. Wiring to pump motor. 3. Check for loose  
connection or open, and  
replace.  
4. Defective capacitor.  
4. Replace.  
5. Defective or bound  
impeller.  
5. Replace or clean.  
6. Mechanical seal worn 6. Check and replace.  
out.  
See "II.C.4. Control Board  
Check Procedure".  
e) Control Board  
a) Fan Motor  
1. Defective.  
1.  
[6] Fan motor will  
not start, or is not  
operating.  
1. Motor winding  
opened.  
1. Replace.  
ꢀ. Bearing worn out.  
ꢀ. Replace.  
3. Wiring to fan motor.  
3. Check for loose  
connection or open, and  
replace.  
4. Defective capacitor.  
5. Fan blade bound.  
1. Bad contacts.  
4. Replace.  
5. Check and replace.  
Magnetic Contactor  
1. Check for continuity and  
replace.  
b)  
[7] All components  
run, but no ice is  
produced.  
a) Refrigerant  
1. Undercharged.  
1. Check for leaks and  
recharge.  
ꢀ. Air or moisture  
trapped.  
ꢀ. Replace drier and  
recharge.  
b) Compressor  
1. Defective valve.  
1. Replace.  
c) Hot Gas Valve  
1. Continues to open in 1. Check and replace.  
freeze cycle.  
d) Liquid Line Valve  
1. Continues to close in 1. Check and replace.  
freeze cycle.  
e) Fill or Harvest Water  
Valve  
1. Water valve is wide  
open during freeze  
(outside of refill).  
1. Check for water leaks.  
38  
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2. Evaporator is Frozen Up  
Problem  
Possible Cause  
Remedy  
[1]Freeze cycle time is a)Float Switch  
too long.  
1. Leads short-circuit or 1. Check and replace.  
defective switch.  
ꢀ. Float does not move ꢀ. Clean or replace.  
freely.  
b)Fill or Harvest Water  
1. Diaphragm does not 1. Check for water leaks.  
close.  
Valve  
Control Board  
See "II.C.4. Control Board  
Check Procedure".  
c)  
1. Defective.  
1.  
[ꢀ]All ice formed on  
evaporator does not  
fall into bin in harvest  
cycle.  
a)Evaporator  
1. Scaled up.  
1. Clean.  
b)Water Supply Line  
1. Water pressure too  
low.  
1. Check and get  
recommended pressure.  
c) Water Filter System  
d)Harvest Water Valve  
1. Dirty/restricted.  
1. Replace filter.  
1. Clean.  
1. Dirty mesh filter or  
orifice.  
ꢀ. Diaphragm does not ꢀ. Check for water leaks.  
close.  
e)Ambient and/or Water 1. Too cool.  
Temperature  
1. Increase temperature.  
f) Liquid Line Valve  
1. Continues to open in 1. Check operation in harvest  
harvest cycle.  
cycle and replace.  
g)Thermistor  
1. Out of position or  
loose attachment.  
1. See "V.C.6. Removal  
and Replacement of  
Thermistor."  
See "II.C.4. Control Board  
Check Procedure".  
h)Control Board  
a)Spray Tubes  
1. Defective.  
1.  
[3]Other  
1. Clogged.  
1. Clean.  
ꢀ. Out of position.  
1. Dirty.  
ꢀ. Place in position.  
1. Clean.  
b)Water System  
c) Refrigerant  
1. Undercharged.  
1. Check for leaks and  
recharge.  
d)Expansion Valve  
e)Hot Gas Valve  
1. Bulb out of position or 1. Place in position.  
loose attachment.  
ꢀ. Defective.  
ꢀ. Replace.  
1. Coil winding opened. 1. Replace.  
ꢀ. Plunger does not  
move.  
ꢀ. Replace.  
3. Wiring to hot gas  
valve.  
3. Check for loose  
connection or open, and  
replace.  
f) Water Supply Line  
g)Water Filter  
1. Too small; requires  
1/ꢀ" OD line dedicated  
per machine.  
1. Increase water line size.  
1. Flow rate too small.  
1. Replace with filter that has  
larger flow rate.  
39  
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3. Low Ice Production  
Problem  
Possible Cause  
Remedy  
[1]Freeze cycle time is a)See chart 1.[3]. Also check dirty condenser coil, ambient temperature and  
long.  
refrigerant charge.  
b)See chart ꢀ.[1] and check float switch, water valves and control board.  
[ꢀ]Harvest cycle time is a)See chart ꢀ.[ꢀ] and check evaporator, water supply line, harvest water valve,  
long.  
ambient and/or water temperature, liquid line valve, thermistor, and control  
board.  
4. Abnormal Ice  
Problem  
Possible Cause  
Remedy  
[1] Small cubes.  
a)Ice Cube Guide or Ice 1. Out of position.  
1. Place in position.  
Separator  
Circulated water falls  
into bin.  
b)See chart 1.[5] and check water supply line, water valves, water system, pump  
motor, and control board.  
c) Drain Water Valve  
1. Leaking.  
1. Check and replace.  
[ꢀ] Cloudy or irregular  
cubes.  
a)See chart ꢀ.[1] and ꢀ.[3], and check float switch, water valves, control board,  
spray tubes, water system, refrigerant charge, and expansion valve.  
b)Spray Guide  
c) Water Quality  
1. Dirty.  
1. Clean.  
1. High hardness or  
contains impurities.  
1. Install a water softener or  
filter.  
5. Other  
Problem  
Possible Cause  
Remedy  
[1]Icemaker will not stop a)Bin Control  
1. Defective.  
1. Defective.  
1. Replace.  
when bin is filled with  
ice.  
See "II.C.4. Control Board  
Check Procedure".  
b)Control Board  
1.  
[ꢀ] Abnormal noise.  
a)Pump Motor  
b)Fan Motor  
1. Bearings worn out.  
1. Bearings worn out.  
1. Replace.  
1. Replace.  
ꢀ. Fan blade deformed. ꢀ. Replace fan blade.  
3. Fan blade does not  
move freely.  
3. Replace.  
c) Compressor  
1. Bearings worn out or 1. Replace.  
cylinder valve broken.  
ꢀ. Mounting pad out of  
position.  
ꢀ. Reinstall.  
d)Refrigerant Lines  
1. Rub or touch other  
lines or surfaces.  
1. Reposition.  
[3]Ice in storage bin  
often melts.  
a)Bin Drain  
1. Plugged.  
1. Clean.  
b)Icemaker and Bin  
1. Drains not run  
separately.  
1. Separate the drain lines.  
40  
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V. Removal and Replacement of Components  
IMPORTANT  
1.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 15 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 (140 PSIG). DO NOT use R-404A as a mixture  
with pressurized air for leak testing.  
IMPORTANT  
1. The condensing unit is provided with two shutoff valves, one on the low-side,  
one on the high-side and also with an access valve on the receiver tank. The  
icemaker unit is provided with two service valves, one on the low-side and  
one on the high-side.  
ꢀ. For refrigerant recovery, evacuation and recharge of the system, always use  
the access valve on the receiver tank for the high-side and either the shutoff  
valve of the condensing unit or the service valve of the icemaker unit for the  
low-side line.  
1. Refrigerant Recovery  
Using proper refrigerant practices, recover the refrigerant and store it in an approved  
container. Do not discharge the refrigerant into the atmosphere.  
41  
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2. Brazing.  
WARNING  
1. Refrigerant R-404A itself is not flammable at atmospheric pressure and  
temperatures up to 176°F (80°C).  
ꢀ. Refrigerant 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 (140 PSIG). DO NOT use R-404A  
as a mixture with pressurized air for leak testing.  
1) 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.  
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.  
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 (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
3. Evacuation and Recharge (R-404A)  
1) Attach a vacuum pump to the system. Be sure to connect the charging hoses to both  
high and low-side lines.  
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 system service valves and 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.  
4ꢀ  
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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. For the  
required refrigerant charge, see the rating label inside the front panel on the icemaker  
or on the nameplate on the condensing unit. 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, the two refrigerant access valves and disconnect the  
service manifold hoses.  
10) Cap the access valves to prevent a possible leak.  
B. Condensing Unit  
1. 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. Install the new drier with the arrow on the drier in the direction of  
the refrigerant flow.  
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 15 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.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Remove the terminal cover on the compressor and disconnect the compressor wiring.  
5) Remove the hold-down bolts, washers, and rubber grommets.  
6) Remove the discharge and suction pipes.  
7) Remove the compressor. Unpack the new compressor package.  
8) Attach the rubber grommets of the prior compressor.  
9) Place the compressor in position and secure it using the bolts and washers.  
10) Remove the drier, then place the new drier in position, (located in the icemaker). Install  
the new drier with the arrow on the drier in the direction of the refrigerant flow.  
43  
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11) Remove the plugs from the suction, discharge, and process pipes.  
1ꢀ) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.  
13) 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.  
14) Evacuate the system and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
15) Connect the terminals and replace the terminal cover in its correct position.  
16) Replace the panels in their correct positions.  
17) Turn on the power supply.  
2. Removal and Replacement of 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. Install the new drier with the arrow on the drier in the direction of  
the refrigerant flow.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Disconnect the condenser refrigerant tubing.  
5) Remove the condenser.  
6) Place the new condenser in position and secure with the mounting screws.  
7) Remove the drier, then place the new drier in position, (located in the icemaker). Install  
the new drier with the arrow on the drier in the direction of the refrigerant flow.  
8) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.  
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of  
refrigerant to the system (if using an electronic leak detector), and then raise the  
pressure using nitrogen gas (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
10) Evacuate the system, and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
11) Replace the panels in their correct positions.  
1ꢀ) Turn on the power supply.  
44  
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3. Removal and Replacement of Hot Gas Valve and Liquid Line Valve  
CAUTION  
1. The condensing unit has 1 hot gas valve and 1 liquid line valve. Both valves  
have a strainer prior to the valve body. It is advisable to change the strainer  
when replacing the hot gas or liquid line valve.  
ꢀ. Always use a copper tube of the same diameter and length when replacing  
the hot gas and liquid lines; otherwise performance may be reduced.  
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. Install the new drier with the arrow on the drier in the  
direction of the refrigerant flow.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Remove the screw and the solenoid.  
5) Disconnect the valve body. Remove the strainer and check valve.  
6) Place the new valve and strainer in position.  
7) Remove the drier, then place the new drier in position (located in the icemaker). Install  
the new drier with the arrow on the drier in the direction of the refrigerant flow.  
8) 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 (1ꢀ1°C).  
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of  
refrigerant to the system (if using an electronic leak detector), and then raise the  
pressure using nitrogen gas (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
10) Evacuate the system, and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
11) Cut the leads of the solenoid allowing enough lead length to reconnect using closed  
end connectors.  
1ꢀ) Connect the new solenoid leads.  
13) Attach the solenoid to the valve body and secure it with a screw.  
14) Replace the panels in their correct positions.  
15) Turn on the power supply.  
45  
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4. Removal and Replacement of Headmaster  
(Condensing Pressure Regulator - C.P. Regulator)  
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. Install the new drier with the arrow on the drier in the direction of the  
refrigerant flow.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Before heating, break off the stub on the dome to release the dome charge.  
5) Disconnect the headmaster.  
6) Place the new headmaster in position.  
7) Remove the drier, then place the new drier in position (located in the icemaker). Install  
the new drier with the arrow on the drier in the direction of the refrigerant flow.  
8) Braze all fittings with nitrogen gas flowing at a pressure of 3 to 4 PSIG.  
CAUTION  
Always protect the headmaster body by using a damp cloth to prevent it from  
overheating. Do not braze with the headmaster body exceeding ꢀ50°F (1ꢀ1°C).  
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of  
refrigerant to the system (if using an electronic leak detector), and then raise the  
pressure using nitrogen gas (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
10) Evacuate the system and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
11) Replace the panels in their correct positions.  
1ꢀ) Turn on the power supply.  
5. Removal and Replacement of Fan Motor  
Note: When replacing a fan motor with defective winding, it is recommended that a new  
capacitor be installed.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Remove the closed end connectors from the fan motor leads.  
4) Remove the fan motor bracket and fan motor.  
46  
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5) Install the new fan motor and replace the removed parts in the reverse order of which  
they were removed.  
6) Replace the panels in their correct positions.  
7) Turn on the power supply.  
C. Icemaker  
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. Install the new drier with the arrow on the drier in the direction of  
the refrigerant flow.  
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.  
1. Removal and Replacement of Evaporator  
1) Turn off the power supply.  
ꢀ) Remove the panels and insulation pieces.  
3) Recover the refrigerant and store it in an approved container.  
4) Remove the spray tubes and the insulation at the "U" shaped notch where the  
refrigeration tubing passes through the molded chassis.  
5) Disconnect the evaporator tubing.  
6) Remove the pop rivets securing the evaporator, then lift out the evaporator.  
7) Install the new evaporator.  
8) Remove the drier, then place the new drier in position. Install the new drier with the  
arrow on the drier in the direction of the refrigerant flow.  
9) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.  
10) 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.  
11) Evacuate the system, and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
1ꢀ) Replace the removed parts in the reverse order of which they were removed.  
13) Replace the insulation pieces and the panels in their correct positions.  
14) Turn on the power supply.  
47  
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2. Removal and Replacement of Expansion Valve  
IMPORTANT  
1. Sometimes moisture in the refrigerant 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. Install the new drier with the arrow on  
the drier in the direction of the refrigerant flow.  
ꢀ. It is advisable to change out both expansion valves when replacing an  
expansion valve.  
3. Connect the expansion valve bulb to the corresponding refrigeration circuit  
suction line.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Remove the insulation and the expansion valve bulb on the suction line.  
5) Remove the expansion valve cover and disconnect the expansion valve. Place the new  
expansion valve in position.  
6) Remove the drier, then place the new drier in position. Install the new drier with the  
arrow on the drier in the direction of the refrigerant flow.  
7) Braze all fittings while purging with nitrogen gas flowing at a pressure of 3 to 4 PSIG.  
WARNING  
1. Do not heat the wall of the machine. Place a steel barrier for protection.  
ꢀ. 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  
(1ꢀ1°C).  
8) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of  
refrigerant to the system (if using an electronic leak detector), and then raise the  
pressure using nitrogen gas (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
9) Evacuate the system and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
10) Attach the expansion valve bulb to the suction line in the same location as the previous  
bulb. The bulb should be at the 1ꢀ o’clock position on the tube. Be sure to secure the  
bulb with the clamp and holder and to insulate it.  
11) Place the new expansion valve cover in position.  
1ꢀ) Replace the panels in their correct positions.  
13) Turn on the power supply.  
48  
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3. Removal and Replacement of Hot Gas Valve and Liquid Line Valve  
CAUTION  
1. The icemaker unit has 1 hot gas valve and 1 liquid line valve. The hot gas  
valve has a strainer prior to the valve body. It is advisable to change the  
strainer and check valves when replacing the hot gas valve.  
ꢀ. Always use a copper tube of the same diameter and length when replacing  
the hot gas and liquid lines; otherwise performance may be reduced.  
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. Install the new drier with the arrow on the drier in the  
direction of the refrigerant flow.  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Recover the refrigerant and store it in an approved container.  
4) Remove the screw and the solenoid.  
5) Disconnect the valve body. Remove the strainer and check valve (if applicable).  
6) Place the new valve, strainer and check valve in position.  
7) Remove the drier, then place the new drier in position. Install the new drier with the  
arrow on the drier in the direction of the refrigerant flow.  
8) 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 (1ꢀ1°C).  
9) Use an electronic leak detector or soap bubbles to check for leaks. Add a trace of  
refrigerant to the system (if using an electronic leak detector), and then raise the  
pressure using nitrogen gas (140 PSIG). DO NOT use R-404A as a mixture with  
pressurized air for leak testing.  
10) Evacuate the system, and charge it with refrigerant. See the nameplate on the  
condensing unit for the required refrigerant charge.  
11) Cut the leads of the solenoid allowing enough lead length to reconnect using closed  
end connectors.  
1ꢀ) Connect the new solenoid leads.  
13) Attach the solenoid to the valve body and secure it with a screw.  
14) Replace the panels in their correct positions.  
15) Turn on the power supply.  
49  
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4. Removal and Replacement of Pump Motor  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Drain the water tank by removing the  
insulation panel, front frame and suction  
hose. (See Fig. 3.)  
Suction Hose  
4) Disconnect the pump suction and  
discharge hoses.  
Front Frame  
Thumbscrew  
5) Unplug the water pump connector.  
Fig. 3  
6) Remove the screws and pump motor  
bracket.  
7) Remove the pump housing and check the impeller.  
8) If the impeller is defective, install a new impeller.  
9) Install the new motor or new parts, and replace the removed parts in the reverse order  
of which they were removed.  
10) Turn on the power supply and check for leaks.  
11) Replace the panels in their correct positions.  
5. Removal and Replacement of Fill and Harvest Water Valve  
1) Turn off the power supply.  
ꢀ) Close the water supply line shut-off valve.  
3) Open the water supply line drain valve and let the water supply line drain.  
4) Remove the panels.  
5) Remove the valve outlet tubing and fitting nut.  
6) Disconnect the terminals from the water valve.  
7) Remove the bracket and water valve from the unit.  
8) Install the new water valve and replace the removed parts in the reverse order of which  
they were removed.  
9) Close the water supply line drain valve.  
10) Open the water supply line shut-off valve.  
11) Turn on the power supply and check for leaks.  
1ꢀ) Replace the panels in their correct positions.  
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6. Removal and Replacement of Thermistor  
CAUTION  
1. Fragile, handle very carefully.  
ꢀ. Always use a recommended sealant (high thermal conductive type),  
Model KE4560RTV manufactured by SHINETSU SILICONE, Part Code  
60Y000-11, or Part Code 4A0683-01 equivalent.  
3. Always use a recommended foam insulation (Non-absorbent Type) or  
equivalent.  
4. Do not shorten or cut the thermistor leads when installing.  
Thermistor Lead  
Cable Tie  
1) Turn off the power supply.  
ꢀ) Remove the panels.  
3) Remove the control box cover.  
4) Disconnect the thermistor leads from the  
K3 connector on the control board.  
5) Remove the plastic cable ties, foam  
insulation, thermistor holder and  
thermistor.  
Foam Insulation  
Thermistor Holder  
6) Scrape away the old sealant on the  
thermistor holder and the suction pipe.  
Fig. 4  
7) Wipe off moisture or condensation on the  
suction pipe.  
8) Smoothly apply recommended sealant (KE4560RTV, Part Code 60Y000-11 or  
4A0683-01) to the thermistor holder concave.  
9) Attach the new thermistor to the suction pipe in the same position as the previous  
thermistor. Be very careful to prevent damage to the leads. Secure it using the  
thermistor holder and recommended foam insulation.  
10) Secure the insulation using plastic cable ties.  
11) Connect the thermistor leads through the bushing of the control box to the K3  
connector on the control board.  
Note: Do not shorten or cut the thermistor leads.  
1ꢀ) Replace the control box cover and the panels in their correct positions.  
13) Turn on the power supply.  
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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 once a year. More frequent cleaning,  
however, may be required in some existing water conditions.  
WARNING  
1. To prevent injury to individuals and damage to the icemaker, do not use  
ammonia type cleaners.  
ꢀ. Always wear liquid-proof gloves to prevent the cleaning and sanitizing  
solutions from coming into contact with skin.  
3. Carefully follow any instructions provided with the bottles of cleaning and  
sanitizing solution.  
4. Never run the icemaker when the water tank is empty.  
1. Cleaning Procedure  
1) Dilute ꢀꢀ fl. oz. (650 ml) of the recommended cleaner Hoshizaki "Scale Away" or  
"LIME-A-WAY" (Economics Laboratory, Inc.) with 4 gal. (15 l) of warm water.  
ꢀ) 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 on  
after 3 minutes. The harvest cycle starts and the cubes will be removed from the  
evaporator.  
3) Turn off the power supply. Remove the front panel.  
4) Place the control switch in the "SERVICE" position. Then place the service switch in the  
"DRAIN" position.  
5) Replace the front panel and turn on the power supply for ꢀ 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 from the top of the float switch, then remove the float switch  
and rubber boot.  
c. Twist the wire stem on top of the float switch housing to release the float assembly,  
then lower it out of the housing.  
d. Wipe down the float switch housing, shaft, and float with cleaning solution. Clean the  
inside of the rubber boot and hose with cleaning solution. Rinse the parts thoroughly  
with clean water.  
5ꢀ  
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e. Reassemble the float switch. Replace the rubber boot and the float switch in their  
correct positions. Reconnect the vent tube.  
f. Replace the right-side panel in its correct position.  
9) Remove the insulation panel by removing the thumbscrews, then pour the cleaning  
solution into the water tank.  
10) Move the service switch to the "WASH" position.  
11) Replace the insulation panel and the front panel in their correct positions.  
1ꢀ) 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 and turn on the power supply for ꢀ minutes.  
16) Turn off the power supply and 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.  
ꢀ0) Turn off the power supply after 3 minutes.  
ꢀ1) Remove the front panel.  
ꢀꢀ) Move the control switch to the "SERVICE" position, then move the service switch to the  
"WASH" position.  
ꢀ3) Replace the front panel in its correct position.  
ꢀ4) Turn on the power supply to rinse off the cleaning solution.  
ꢀ5) Turn off the power supply after 5 minutes.  
ꢀ6) Remove the front panel.  
ꢀ7) Move the service switch to the "DRAIN" position.  
ꢀ8) Replace the front panel and turn on the power supply for ꢀ minutes.  
ꢀ9) Turn off the power supply. Remove the front panel.  
30) Repeat steps 17 through ꢀ9 three more times to rinse thoroughly.  
Note: If you do not sanitize the icemaker, go to step 13 in "ꢀ. Sanitizing Procedure."  
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2. Sanitizing Procedure - Following Cleaning Procedure  
1) Dilute ꢀ fl. oz. (60 ml or 4 tbs) of a 5.ꢀ5% sodium hypochlorite solution (chlorine bleach)  
with 4 gal. (15 l) of warm water.  
ꢀ) Remove the insulation panel if it is in its normal position.  
3) Pour the sanitizing solution into the water tank.  
4) Move the service switch to the "WASH" position.  
5) Replace the insulation panel and the 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 and turn on the power supply for ꢀ minutes.  
10) Turn off the power supply. Remove the front panel.  
11) Repeat steps 17 through ꢀ9 in "1. Cleaning Procedure" two times to rinse thoroughly.  
1ꢀ) Repeat steps 1 through 11 above 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.  
B. Maintenance  
IMPORTANT  
This icemaker must be maintained individually, referring to the instruction  
manual and labels provided with the icemaker.  
1. Stainless Steel Exterior  
To prevent corrosion, wipe the exterior occasionally with a clean and soft cloth. Use a  
damp cloth containing a neutral cleaner to wipe off oil or dirt build up.  
2. Dispenser Unit/Storage Bin and Scoop  
Wash your hands before removing ice. Use the plastic scoop provided (bin accessory).  
The dispenser unit/storage bin is for ice use only. Do not store anything else in the  
dispenser unit/storage bin.  
Clean the scoop and the dispenser unit/storage bin liner using a neutral cleaner. Rinse  
thoroughly after cleaning.  
3. Condenser  
Check the condenser once a year, and clean 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 Long Storage  
CAUTION  
When shutting off the icemaker for an extended time, drain out all water from  
the water tank and remove the ice from the dispenser unit/storage bin. The  
dispenser unit/storage bin should be cleaned and dried. Drain the icemaker to  
prevent damage to the water supply line at sub-freezing temperatures, using air  
or carbon dioxide. Shut off the icemaker until the proper ambient temperature  
is resumed.  
When the icemaker is not used for two or three days, it is sufficient to only move the control  
switch to the "OFF" position, unless the icemaker will be at sub-freezing temperatures.  
1. Remove the water from the inlet water supply line: See Fig. 11.  
1) Remove the front panel.  
ꢀ) Move the control switch 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 from the K3 connector on the control board, and 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 ꢀ on the control board energize (the order of the LEDs from the outer  
edge of the control board is 1,4,3,ꢀ), 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. 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.  
1ꢀ) Remove the 4 hoses connected to the water tank. Allow the tank and hoses to  
completely drain.  
13) Move the control switch to the "ICE" position.  
14) Using the fill water valve hose, blow the water line out using compressed air or carbon  
dioxide. This will clear water from the fill water valve.  
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15) Move the control switch to the "OFF" position.  
16) Disconnect the float switch vent hose from the drain hose tee. Move the service switch  
to the "DRAIN" position and the control switch to the "SERVICE" position.  
17) From the tee on the drain hose, blow the drain water valve out using compressed air or  
carbon dioxide.  
18) Move the service switch to the "CIRC" position and the control switch to the "OFF"  
position.  
19) Reconnect the thermistor to the K3 connector on the control board. Reconnect the  
water pump connector.  
ꢀ0) Close the inlet water supply line drain valve.  
ꢀ1) 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.  
ꢀꢀ) Turn off the power supply.  
ꢀ3) Replace all removed parts and panels in their correct positions.  
Harvest Water Valve Hose  
Harvest Water Valve  
Wash Valve  
Fill Water Valve  
Fill Water Valve Hose  
Drain Water Valve  
Float Switch Vent Hose  
Drain Hose Tee  
Suction Hose  
Fig. 5  
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