Hoshizaki KMD-410MAH, KMD-410MWH manual Anti-Slush Control S2 dip switch 6 Program Ver

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temperature at the end of a harvest cycle is 4K or more and if the temperature at the end of a harvest cycle is 48°F (9°C) or less, the harvest cycle is extended for 30 seconds. If the difference between the temperature at the beginning of a freeze cycle and the minimum temperature after 30 seconds in the freeze cycle is 2.5K or more and less than 3.5K, the next harvest cycle is extended for 30 seconds. If the above conditions occur in succession, the number of occurrence times 30 seconds will be added to the harvest cycle time. If the above temperature difference is 3.5K or more, the freeze cycle ends after the minimum freeze cycle time and a harvest cycle starts.

S2 Dip Switch Setting

Overfreeze Detection

No. 5

Control

OFF

Deactivated

ON

Activated

o) Anti-Slush Control (S2 dip switch 6) [Program Ver. 3.1]

Do not adjust. This must be left in the factory default position or the unit will not operate properly.

It is deactivated on the KMD-410 series.

When activated (Ver. 2.0), the thermistor located on the suction line checks for a 50°F (10°C) temperature as the evaporator cools. When 50°F (10°C) is reached, a 3.9 k signal causes the control board to de-energize the pump motor for 10 seconds and energize it for 50 seconds repeatedly. When 34°F (1°C) is reached, a 5.9 k signal causes the control board to de-energize the pump motor for 10 seconds, energize it for 50 seconds, de-energize it again for 10 seconds, then energize it continuously.

S2 Dip Switch Setting

Anti-Slush Control

No. 6

 

OFF

Activated (Ver. 2.0)

ON

Deactivated

p) Anti-Slush Control (S2 dip switch 6) [Program Ver. 3.2]

Do not adjust. This must be left in the factory default position or the unit will not operate properly.

When activated (Ver. 1.1), the thermistor located on the suction line checks for a 41°F (5°C) temperature as the evaporator cools. When 41°F (5°C) is reached, a 4.8 k signal causes the control board to de-energize the pump motor for 10 seconds.

When activated (Ver. 2.0), the thermistor located on the suction line checks for a 50°F (10°C) temperature as the evaporator cools. When 50°F (10°C) is reached, a 3.9 k signal causes the control board to de-energize the pump motor for 10 seconds and energize it for 50 seconds repeatedly. When 34°F (1°C) is reached, a 5.9 k signal causes the control board to de-energize the pump motor for 10 seconds, energize it for 50 seconds, de-energize it again for 10 seconds, then energize it continuously.

S2 Dip Switch Setting

Anti-Slush Control

No. 6

 

OFF

Activated (Ver. 1.1)

ON

Activated (Ver. 2.0)

16

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Contents Page Page Contents Page Specifications KMD-410MAH air-cooledKMD-410MWH water-cooled Water Cooled CondenserII. General Information Construction KMD-410MAHKMD-410MWH Sequence of Operation ONE Minute Fill CycleInitial Harvest Cycle Freeze CycleNormal Harvest Cycle KMD-410MAH, 410MWH Control Board Control Board Layout Features Maximum Water Supply Period 6 minutes Harvest Backup Timer and Freeze TimerHigh Temperature Safety Low Water SafetyLED Lights and Audible Alarm Safeties Sequence of OperationControls and Adjustments Default Dip Switch Settings Harvest Timer S1 dip switch 1Water Saver Timer S1 dip switch 7 Drain Timer S1 dip switch 3Drain Frequency Control S1 dip switch 5 Factory Use S2 dip switch 5 Program Ver .5 or earlier Freeze Timer S1 dip switch 9Pump-Out Pump Motor Delay S2 dip switch Refill Counter S2 dip switch 3 Program Ver .1, Ver Anti-Slush Control S2 dip switch 6 Program Ver Control Board Check Procedure Control Board ReplacementHarvest Control Thermistor Float Switch CleaningFloat Switch Check Procedure Explanation of OperationBIN Control Check Procedure BIN ControlService Switch SwitchesControl Switch Page Wiring Diagram Magnetic contactor wiring depends on the contactor modelChart TimingPerformance Data 148440 IV. Service Diagnosis Minute Diagnostic Procedure Page Diagnostic Charts No ICE ProductionPage See II . d Control Board Check Procedure Evaporator is Frozen UP LOW ICE Production Abnormal ICEOther Removal and Replacement Service for Refrigerant Lines Refrigerant Recovery Evacuation, Vacuum Pump and Refrigerant Charge R404ARefrigerant Leak Check Evacuation and RechargeBrazing Compressor Drier HOT GAS Valve Expansion Valve Evaporator Water Regulating Valve WATER-COOLED Model only Adjustment of Water Regulating Valve WATER-COOLED Model only FAN MotorPump Motor Drain VALVE, Cleaning Valve Water ValveWater Tank Float Switch BIN Control Switch Thermistor Control BOX Push Buttons Control & Service Switch FuseFuse Holder Control BoardSpray TUBE, Water Supply TUBE, Spray Guide StarterRUN Capacitor Start CapacitorTabs Hose Band Water Supply Tube Under Spray Tube VI. Cleaning and Maintenance Instructions Cleaning ProcedurePage Page Maintenance Sanitizing Procedure Following Cleaning ProcedurePreparing the Icemaker for Long Storage Stainless Steel ExteriorStorage BIN and Scoop AIR Filters AIR-COOLED Model onlyRemove the water from the icemaker water supply line Drain the water tank
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KMD-410MWH, KMD-410MAH specifications

The Hoshizaki KMD-410MWH and KMD-410MAH are premier ice makers, designed for commercial establishments that require high-efficiency ice production. These units stand out for their advanced features and technology that cater to the diverse needs of restaurants, bars, and hotels.

One of the primary features of the KMD-410 lineup is its impressive ice production capacity. With a production rate of up to 410 pounds of cube ice in a 24-hour period, each model ensures a steady supply of ice, which is essential for businesses with high demand. The ice produced is in the form of clear, hard cubes, ideal for beverage cooling, cocktail preparation, and food presentation.

Both models showcase the unique Hoshizaki ice-making system, which employs a direct cooling method. This technology uses individual stainless steel evaporators to produce ice, resulting in more uniform cubes and less waste. The stainless steel construction contributes to the durability of the units, making them suitable for rugged commercial environments.

Energy efficiency is another hallmark of the KMD-410MWH and KMD-410MAH. These machines are designed with an energy-saving mode that reduces power consumption without compromising ice production. This is critical for businesses looking to minimize operational costs while maintaining high standards of service.

User convenience is prioritized in these models through features like the easy-to-clean design. The internal components can be accessed quickly, allowing for simpler maintenance and sanitation processes. Additionally, the built-in cleaning cycle aids in maintaining ice purity and preventing bacterial growth, which is essential for food safety.

The KMD-410MAH also includes an advanced monitoring system with indicators for water usage and ice levels. This feature allows operators to keep track of performance and make necessary adjustments, ensuring that the ice maker operates at peak efficiency.

For installation flexibility, both models can be paired with various storage bins and dispensers, adapting to the layout of any establishment. Furthermore, they can be equipped with optional filtration systems that enhance water quality, further improving the taste and clarity of the ice produced.

In summary, the Hoshizaki KMD-410MWH and KMD-410MAH ice makers are exemplary choices for any business that demands high-quality, reliable ice production. Their robust features, energy-efficient operation, and user-friendly design make them indispensable assets in the hospitality and foodservice industries.