home ice maker do Working Cooling Cycles During Ice Making

From the picture is a cooling circuit in a typical ice maker. It starts with the compressor compressing the refrigerant with high pressure and high temperature gas. Go to the Condenser to cool down. By using a fan / water motor. Pull the heat from the coolant through the fin panels at the condenser. Coolant exiting the condenser will have a high pressure liquid state, but the temperature drops. The coolant is sent to the filter drier, which filters the dirt in the cooling system. After that, the coolant is sent to the pressure reducer, also known as the capillary tube. This pipe is responsible for reducing the pressure of the coolant and reducing the temperature of the coolant prior to the ejector. Ice maker or ice block The refrigerant status after leaving the cap tube is low pressure and low temperature liquid. The refrigerant states when it enters the evaporator or ice block. The refrigerant in the evaporator is responsible for absorbing heat from the load. This is where the water is poured into ice. The heat that comes out of the water goes to a boiling liquid that evaporates and evaporates. Therefore, the refrigerant status of the evaporator will be low pressure and low temperature. And load or water when the heat sucks out. Water will eventually become ice. This low-vapor, low-temperature, low-vapor refrigerant. It will be sent to the device. Accumulator (Accumulator), which is responsible for trapping liquid coolants. Do not allow the liquid coolant to suck back into the compressor. If the liquid coolant returns to the compressor. It will affect the compressor. After the coolant has passed vapor state Accumulator The compressor will then suck the refrigerant back into the compressor and the compressor will compress the high pressure and high temperature gas to the condenser again. The work will continue this cycle.