Control method for air conditioner and air conditioner
A control method and technology of an air conditioner, which is applied in the direction of control input involving air characteristics, space heating and ventilation control input, refrigerators, etc., and can solve problems such as unfavorable energy conservation and environmental protection, increased energy consumption of air conditioners, and poor adaptability of air conditioners , to achieve the effect of improving comfort and energy saving, precise and reasonable adjustment
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Embodiment 1
[0044] At the first sampling time point t 1Obtain the first outer coil temperature T on 外盘1 35°C, the first inner coil temperature T 内盘1 is 13°C. At the second sampling time point t 2 Obtain the second outer coil temperature T on 外盘2 38°C, the second inner coil temperature T 内盘2 is 14°C. The first sampling time point t 1 and the second sampling time point t 2 The difference is 60s.
[0045] The degree of change of the temperature of the second outer coil relative to the temperature of the first outer coil ΔT 外盘 is a positive value, the degree of change of the temperature of the second inner coil relative to the temperature of the first inner coil ΔT 内盘 is a positive value. Therefore, changing the speed of the outdoor fan from the first speed R 1 into the fourth speed R 4 ; where the fourth speed R 4 than the first speed R 1 50RPM higher. Change the compressor frequency from the first frequency F 1 becomes the second frequency F 3 , the first frequency F 1 3 ....
Embodiment 2
[0047] At the first sampling time point t 1 Obtain the first outer coil temperature T on 外盘1 45°C, the first inner coil temperature T 内盘1 is 13°C. At the second sampling time point t 2 Obtain the second outer coil temperature T on 外盘2 45°C, the second inner coil temperature T 内盘2 is 14°C. The first sampling time point t 1 and the second sampling time point t 2 The difference is 60s.
[0048] The degree of change of the temperature of the second outer coil relative to the temperature of the first outer coil ΔT 外盘 is zero, the degree of change of the temperature of the second inner coil relative to the temperature of the first inner coil ΔT 内盘 is a positive value. Therefore, and the expansion valve opening is changed from the first opening E 1 becomes the second opening degree E 2 , where the first opening E 1 2 . The value of the constant P is 2, the first opening E 1 for 150, E 2 =E 1 +E 1 *ΔT 内盘 *P / (t 2 -t 1 )=150+150*(14-13) / 60*2=154.
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