4.If BT WLF/S fails, BT BUWLF/S assumes control. If BT BUWLF/S remains closed for 1 minute, o1 or o2 error appears in the display. For details, see "III.B. Error Codes."

5.The wash/rinse start switch is inactive during the auto fill cycle.

2. Ready Cycle (Unit Inactive)

"READY" lamp and "RINSE TEMP." or "WASH TEMP." lamp on.

WT WLS closed. After a rinse cycle, RPM de-energizes, and the "READY" lamp comes on. WTH energizes when WT water temperature is at the wash temperature setpoint or lower. WTH de-energizes when WT water temperature is 5°F (3°C) above the setpoint. For details, see "Wash Temperature Setpoint" (service menu item 04) in "II.F.7.b) Service Menu Chart."

BTH energizes when BT water temperature is 3°F (2°C) below the rinse temperature setpoint or lower. BTH de-energizes when BT water temperature reaches the setpoint. WV energizes/de-energizes when BT WLF/S opens/closes. For details, see "Rinse Temperature Setpoint" (service menu item 05) in "II.F.7.b) Service Menu Chart."

Note:

1.The thermistors control WT and BT water temperatures.

2.If one of the thermistors has an open or short circuit, WTH or BTH de-energizes and an error code appears in the display.

3.WTH and BTH are controlled regardless of SPS operation.

3. Wash Cycle/Rinse Cycle

"WASH" lamp and "RINSE TEMP." or "WASH TEMP." lamp on.

When a rack is loaded from the wash compartment entrance and the wash start switch closes, WPM energizes, power is supplied to DFT and the "WASH" lamp comes on. WPM draws water from WT and sends it through the wash spray arms. The upper spray arm WPM starts first, followed by the lower spray arm WPM. Then, the conveyor starts to move the rack. After the wash start switch opens and the extended wash cycle time (factory default: 30 seconds) has expired, WPM de-energizes and power is cut to DFT. For details, see "Extended Wash Cycle Time" (service menu item 01) in "II.F.7.b) Service Menu Chart." When the rinse start switch closes, RPM energizes and power is supplied to RFT. RPM draws water from BT and sends it through the rinse spray arms. Rinse aid is fed into the rinse water line and sprayed from the rinse spray arms together with rinse water. Any excess water in WT drains through the overflow pipe. After the rinse start switch opens and the extended rinse cycle time (factory default: 15 seconds) has expired, RPM de- energizes, power is cut to RFT, the "WASH" lamp goes off and the "READY" lamp comes on. For details, see "Extended Rinse Cycle Time" (service menu item 02) in "II.F.7.b) Service Menu Chart."

After both WPM and RPM de-energize, the conveyor stops. If SP is opened during operation, SPS opens, WPM and RPM de-energize and the conveyor stops. If the wash/ rinse start switch is closed when SPS closes, WPM and RPM energize and the conveyor restarts.

Note:

1.If WT WLS opens after WPM energizes, WPM de-energizes and RPM energizes for the supplementary fill cycle time (factory default: 450 seconds) to supply hot water into

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Hoshizaki JWE-2400CUA-R-25B, JWE-24000CUA-L-25B service manual
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JWE-2400CUA-R-25B, JWE-24000CUA-L-25B specifications

The Hoshizaki JWE-2400CUA-R-25B and JWE-24000CUA-L-25B are advanced ice machines designed to meet the diverse needs of commercial establishments requiring high volumes of ice. These state-of-the-art units combine innovative technology with energy efficiency, making them ideal for restaurants, hotels, bars, and other hospitality settings.

One of the main features of the JWE-2400CUA-R-25B is its high production capacity. This model can produce up to 2,400 pounds of ice in a 24-hour period, ensuring a continuous supply for busy operations. Similarly, the JWE-24000CUA-L-25B boasts an impressive production rate, accommodating even larger establishments. Both machines deliver crescent-shaped ice, which is favored for its rapid cooling properties and ease of use in beverages.

Energy efficiency is a highlight of both models. They are designed with environmentally friendly refrigerants, aligning with modern sustainability practices. These machines also incorporate advanced heat-exchange systems that maximize energy savings while maintaining optimal ice production. As a result, operators can enjoy significant reductions in energy costs without compromising on performance.

Durability and reliability are essential characteristics of the Hoshizaki JWE series. Constructed with high-quality materials, these units feature stainless steel exteriors that resist corrosion and wear, ensuring long-term operation in demanding environments. Additionally, the ice-making components are built to endure frequent use, allowing for consistent ice output over time.

The technology integrated into the JWE-2400CUA-R-25B and JWE-24000CUA-L-25B includes user-friendly digital controls that simplify operation and monitoring. These controls help operators track production levels, ice thickness, and machine status, allowing for proactive maintenance and reducing downtime. Furthermore, routine cleaning and maintenance are made straightforward, contributing to enhanced hygiene and overall ice quality.

In conclusion, the Hoshizaki JWE-2400CUA-R-25B and JWE-24000CUA-L-25B ice machines present a perfect blend of high capacity, energy efficiency, and durability. Their advanced features and technologies make them a reliable choice for any business requiring dependable ice production. With their user-friendly controls and robust design, these machines stand out as top contenders in the commercial ice maker market.
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