Control method of electronic expansion valve

Abstract

The present invention provides a control method of an electronic expansion valve, the electronic expansion valve is provided in a refrigerant circulation loop of equipment, the circulation loop is also provided with an evaporator, characterized in that the control method includes following steps: S10: starting the electronic expansion valve to process initialization, setting the opening of the electronic expansion valve in a predetermined initial value; S20: after starting the predetermined time, determining the real superheat/subcooling of the electronic expansion valve according to the difference between the outlet temperature and the inlet temperature of the evaporator; S30: comparing the object superheat/subcooling with the real superheat/subcooling, determining the optimal opening range of the electronic expansion valve; S40: adjusting the opening of the electronic expansion valve to the optimal opening range. The invention realizes the automatic control of refrigerant volume and throttle degree of equipment, and capable of adapting the working condition to control automatically, so as to protect the optimal state in the system operation ,ensuring credibility and safety operation.

Description

technical field [0001] The present invention relates to a control method for electronic expansion valves such as those used in air conditioners and heat pump water heaters. Background technique [0002] At present, in order to improve energy utilization efficiency, more and more attention has been paid to the provision of domestic hot water by heat pump water heaters. [0003] In the existing heat pump water heaters, capillary tubes or thermostatic expansion valves are generally used for throttling during heating operation, so as to achieve the purpose of hot water. However, the capillary refrigerant flow rate and throttling degree cannot be automatically regulated, and often can only meet the requirements of certain working conditions. Under these circumstances, the exhaust temperature and / or pressure of the system are too high, the reliability and safety of the system cannot be guaranteed, and the service life of the system is greatly reduced. [0004] Since the effectiv...

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Problems solved by technology

However, the capillary refrigerant flow rate and throttling degree cannot be automatically regulated, and often can only meet the requirements of certain working conditions. If the exhaust temperature and/or pressure of the system are too high, the reliability and safety of the system cannot be guaranteed, and the service life of the system is greatly reduced.

[0004] Since the effective subcooling of the refrigerant cannot be guaranteed, let alone the uniform distribution of the refrigerant, the temperature at the inlet of the compressor is too high, and the capacity of the compressor cannot be fully utilized, resulting in a decrease in the efficiency of the compressor, unstable operation of the system, and increased Problems of power consumption and waste of energy

At the same time, since th

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