12V Car AC Compressor For Suzuki For Jimny 1.5 CR08 6PK 9520170CN2 9520170CN0 WXSK070
| Model Number | WXSK070 |
| Type | Air conditioner compressor |
| Car Model | For Suzuki For Jimny1.5 |
| Compressor model | CR08 6PK |
| Voltage | 12V |
| OE No. | 9520170CN2/9520170CN0 |
Compressor pictures
The working principle of an automotive air conditioning compressor
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Inhalation: The compressor inhales refrigerant gas from the evaporator outlet, where the gas is low in pressure and temperature. The evaporator is the component where the refrigerant absorbs heat from the air inside the cabin, causing it to evaporate from a liquid to a gas.
- Compression: Once inside the compressor, the low-pressure refrigerant gas is compressed, raising its pressure and temperature significantly. This process converts the gas into a high-pressure, high-temperature state, ready for the next phase.
- Condensation: The condenser, often aided by metal fans, reduces the temperature of the refrigerant, allowing it to condense from a gas back into a liquid. This process removes heat from the refrigerant, preparing it for the expansion phase.
- Discharge: The compressed refrigerant gas is then discharged from the compressor into the condenser. The condenser is designed to cool the high-pressure gas, causing it to condense back into a liquid as it releases heat.
- Expansion: The high-pressure liquid refrigerant flows through an expansion valve or orifice tube, where it experiences a sudden drop in pressure. This pressure drop causes the refrigerant to expand and cool significantly, turning into a low-pressure, low-temperature mist or spray.
- Evaporation and Cooling: The expanded refrigerant mist enters the evaporator once more, where it absorbs heat from the air passing over its coils. This absorption process causes the refrigerant to evaporate back into a gas, cooling the air in the process. The cooled air is then blown into the vehicle's cabin, providing a comfortable environment for the occupants.
- Control Mechanisms: The compressor's operation is tightly controlled by various sensors and modules to ensure efficient performance and maintain the desired cabin temperature. Pressure sensors monitor the refrigerant pressure throughout the system, while temperature sensors measure the cabin temperature. Based on these readings, the AC control module activates or deactivates the compressor as needed.
