WO2024016817A1 - 移动式空调及其控制方法 - Google Patents

移动式空调及其控制方法 Download PDF

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Publication number
WO2024016817A1
WO2024016817A1 PCT/CN2023/095051 CN2023095051W WO2024016817A1 WO 2024016817 A1 WO2024016817 A1 WO 2024016817A1 CN 2023095051 W CN2023095051 W CN 2023095051W WO 2024016817 A1 WO2024016817 A1 WO 2024016817A1
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Prior art keywords
water
compressor
air conditioner
preset
mobile air
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PCT/CN2023/095051
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English (en)
French (fr)
Inventor
汪亚东
张龙
Original Assignee
青岛海尔空调器有限总公司
青岛海尔空调电子有限公司
海尔智家股份有限公司
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Application filed by 青岛海尔空调器有限总公司, 青岛海尔空调电子有限公司, 海尔智家股份有限公司 filed Critical 青岛海尔空调器有限总公司
Publication of WO2024016817A1 publication Critical patent/WO2024016817A1/zh

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/02Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing
    • F24F1/03Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing characterised by mounting arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • F24F11/74Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
    • F24F11/77Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by controlling the speed of ventilators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/22Means for preventing condensation or evacuating condensate
    • F24F13/222Means for preventing condensation or evacuating condensate for evacuating condensate
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/32Supports for air-conditioning, air-humidification or ventilation units
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B49/00Arrangement or mounting of control or safety devices
    • F25B49/02Arrangement or mounting of control or safety devices for compression type machines, plants or systems
    • F25B49/022Compressor control arrangements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • F24F2013/247Active noise-suppression

Definitions

  • the present invention relates to the field of mobile air conditioners, and specifically provides a mobile air conditioner and a control method thereof.
  • mobile air conditioners switch between cooling and heating in a short period of time, which will generate a large amount of condensed water.
  • Split air conditioners can drain condensate directly to the outdoors through drain pipes.
  • the mobile air conditioner will be equipped with a water receiving tank for collecting condensed water, and the water pump will be used to drain the condensed water. Pump out the water from the catchment tank.
  • foreign objects will appear in the water tank. The foreign objects will block the drain outlet, reduce the capacity of the water tank, and even affect the normal use of the water pump and water pumping motor. There is room for improvement.
  • Chinese patent (CN114353188A) discloses a mobile air conditioner and its control method, which to a certain extent improves the situation of foreign matter in the water tank, which needs to be cleaned.
  • the water pumping motor After receiving the cleaning instruction, the water pumping motor turns on the maximum speed, and then turns on The water pump performs cleaning and drainage. Turning the water pumping motor speed to the maximum will cause the amount of water in the water receiving tank to decrease, and the condensed water in the water receiving tank will increase slowly or no longer, making it impossible to achieve effective cleaning.
  • the present invention aims to solve the above technical problems, that is, when the existing water pumping motor rotates to the maximum speed, the amount of water in the water receiving tank will be reduced, and the condensed water in the water receiving tank will increase slowly. Slow or no longer increase, and effective cleaning cannot be achieved.
  • the present invention provides an air conditioning control method.
  • the mobile air conditioner includes a compressor, a condenser and an evaporator arranged in sequence on a refrigerant circuit.
  • the mobile air conditioner also includes a downdraft fan, a water receiving tank, and a water pump. and a water pumping motor, the downdraft fan is used to supply air to the condenser, the water receiving tank is used to receive the condensed water generated by the evaporator, and the water pump is used to discharge the water in the water receiving tank.
  • the water motor is used to pump the water in the water receiving tank to the condenser, and at the same time can stir the water in the water receiving tank,
  • control methods include:
  • the water pumping motor runs at the first preset water pumping speed
  • the operation of the water pump and the water pumping motor is controlled according to the judgment result.
  • the step of "controlling the operation of the water pump and the water pumping motor according to the judgment result" includes:
  • the water pump is started, and the water pumping motor runs at a second preset water pumping speed, wherein the second preset water pumping speed is higher than the third water pumping speed.
  • a preset water pumping speed is higher than the third water pumping speed.
  • the step of "controlling the operation of the water pump and the water pumping motor according to the judgment result" also includes:
  • the operation of increasing the generation amount of condensed water is performed until the noise of the water pumping motor reaches the high water level noise.
  • the step of "controlling the operation of the water pump and the water pumping motor according to the judgment result" also includes:
  • the water pump After starting the water pump, if the noise of the water pumping motor reaches idling noise, the water pump is turned off.
  • the operation of increasing the generation amount of condensed water includes the following steps:
  • the operating frequency of the compressor and the rotation speed of the downdraft fan are controlled to increase the generation amount of condensed water.
  • control the operating frequency of the compressor and the rotation speed of the downdraft fan according to the exhaust temperature of the compressor to increase the generation of condensed water includes :
  • the compressor If the exhaust temperature of the compressor is lower than the first preset temperature, the compressor operates at an increased frequency, and the downdraft fan operates at the first preset speed.
  • the compressor keeps running at the current frequency and the downdraft fan runs at the second preset speed, The second preset rotation speed is greater than the first preset rotation speed.
  • the compressor operates at a reduced frequency, and the downdraft fan operates at a third preset speed, and the third preset speed is greater than the third preset speed. 2. Preset speed.
  • the mobile air conditioner further includes an upper fan.
  • the upper fan is used to blow air to the evaporator.
  • the operation of increasing the generation amount of condensed water also includes:
  • the upper fan operates at a rotational speed not lower than the fourth preset rotational speed to increase the amount of condensed water generated.
  • a mobile air conditioner including a controller configured to perform the control method as described above.
  • the water pumping motor before turning on the water pump, the water pumping motor first runs at the first preset water pumping speed, and the water pumping motor first runs at a low speed, so that the condensed water from the water receiving tank will not be pumped out, which can ensure When the condensate water in the water receiving tank is subsequently increased, the amount of condensate water in the water receiving tank will not be reduced, so that the water pump can be turned on for effective cleaning.
  • the operation of the water pump and water pumping motor can be controlled to ensure the subsequent cleaning effect.
  • the water pumping motor runs at the second preset water pumping speed, which can better stir the condensed water, so that the dirt in the water receiving tank is discharged by the water pump together with the condensed water, which can Butt sinks clean efficiently.
  • Figure 1 is a schematic structural diagram of a mobile air conditioner
  • Figure 2 is a flow chart of the main steps of the control method of the mobile air conditioner of the present invention.
  • FIG. 3 is a detailed step flow chart of the control method of the mobile air conditioner of the present invention.
  • this embodiment discloses a mobile air conditioner.
  • the mobile air conditioner includes a compressor, a condenser 200, an expansion element and an evaporator 100 that are sequentially arranged on a refrigerant circuit.
  • the mobile air conditioner also includes a downdraft fan 500. , upper fan 300, water pump, water receiving tank 400, water pumping motor, first water level switch, second water level switch, temperature detection part and controller.
  • the downdraft fan 500 is provided corresponding to the condenser 200 and is used to supply air to the condenser 200. Specifically, the outside air flows through the condenser 200 to adjust the temperature of the condenser 200, mainly to dissipate heat from the condenser 200.
  • the upper fan 300 is provided corresponding to the evaporator 100 and is used to supply air to the evaporator 100. Specifically, the upper fan 300 can cause external air to flow through the evaporator 100 and adjust the temperature of the evaporator 100.
  • the lower fan 500 is electrically connected to the controller, and the controller can control the rotation speed of the lower fan 500.
  • the compressor is electrically connected to the controller, and the controller can control the operating frequency of the compressor to reduce or increase the frequency of the compressor.
  • the water tank 400 is used to receive the condensed water generated by the evaporator 100, and the water pump is used to drain water from the water tank 400.
  • the water pump is electrically connected to the controller, and the controller can control the start and stop of the water pump.
  • the temperature detection component is arranged on the outlet side of the compressor and is used to detect the exhaust temperature of the compressor.
  • the temperature detection component is specifically a temperature sensor. In other embodiments, it can also be a thermometer.
  • the temperature detection component is electrically connected to the controller and can feed back the detected temperature of the gas discharged from the compressor to the sensor.
  • the water pumping motor is connected to the water receiving tank 400, and is used to transport the water in the water receiving tank 400 to the condenser 200, and is also used to stir the condensed water in the water receiving tank 400.
  • the water pumping motor is electrically connected to the controller, and the controller is used to control the start and stop of the water pumping motor and the speed of the water pumping motor.
  • the water pumping motor can operate at a first preset water pumping speed and a second preset water pumping speed, and the second preset water pumping speed is higher than the first preset water pumping speed.
  • the water pumping motor will produce noise when it is running. The higher the water level, the greater the noise the water pumping motor will produce.
  • the noise when the water receiving tank 400 is at a low water level is idling noise
  • the noise when the water receiving tank 400 is at a high water level is high water level noise.
  • the idling noise is the smallest and the high water level noise is the largest.
  • high water level noise and idling noise are experimentally verified before leaving the factory, and then pre-stored, so that the controller can directly read and use them.
  • this embodiment also discloses a control method for a mobile air conditioner.
  • the controller of the mobile air conditioner can execute the above control method.
  • the control method of the mobile air conditioner mainly includes the following steps:
  • Step S40 Control the operation of the water pump and the water pumping motor according to the judgment result.
  • Step S40 specifically includes the following detailed steps:
  • the water pump is started, and the water pumping motor runs at a second preset water pumping speed, wherein the second preset water pumping speed is higher than the first water pumping speed. Preset water pumping speed.
  • the water pump After starting the water pump, if the water level of the water receiving tank 400 is low to a low water level, the water pump is turned off.
  • the water pump and the water pumping motor After starting the water pump, if the water pumping motor does not reach the low water level, the water pump and the water pumping motor keep running in their current state.
  • the mobile air conditioning control method specifically includes the following detailed steps:
  • step S2 After receiving the cleaning instruction, proceed to step S3; specifically, the controller receives the cleaning instruction.
  • the water pumping motor runs at the first preset water pumping speed. Specifically, the controller controls the water pumping motor to run at the first preset water pumping speed.
  • step S4 determines whether the noise of the water pumping motor reaches the high water level noise. If yes, proceed to step S5. If not, proceed to step S6. Specifically, the controller determines whether the noise of the water pumping motor reaches the high water level noise. As the water level increases, the noise of the water pumping motor will gradually increase. When the water level reaches the high water level, the noise of the water pumping motor will rise to the high water level noise.
  • step S5. Start the water pump, and at the same time, the water pumping motor runs at the second preset water pumping speed, and then proceed to step S7.
  • the water pumping motor can stir the water in the water receiving tank 400, so that the dirt in the water receiving tank 400 and the condensed water are discharged together by the water pump.
  • the controller controls the operation of the water pump and water pumping motor.
  • Step S6 specifically includes:
  • step S60 After obtaining the exhaust temperature of the compressor, proceed to step S61.
  • step S61 Determine whether the exhaust temperature is lower than the first preset temperature. If yes, proceed to step S62. If not, proceed to step S63. Specifically, the controller determines whether the exhaust temperature is lower than the first preset temperature.
  • a preset temperature may specifically be 40°C-50°C. Further, the first preset temperature may be 45°C.
  • the compressor frequency is increased, and the lower fan 500 runs at the first preset speed, and the upper fan 300 runs at a speed not lower than the fourth preset speed, and then proceeds to step S4.
  • the upper fan 300 specifically operates at a fourth preset speed, the fourth preset speed is a low speed, and the first preset speed is a low speed.
  • the controller controls the operation of the compressor, the upper fan 300 and the lower fan 500.
  • the upper fan 300 operates at a low speed and can supply air to the evaporator 100.
  • the evaporator 100 absorbs the heat of the supplied air to generate condensed water at the evaporator 100.
  • the exhaust temperature is The temperature of the condenser 200 is not high, and the condenser 200 does not need to dissipate excessive heat.
  • the down fan 500 runs at a low speed, which can reduce the power of the down fan 500 and reduce power consumption.
  • the operation of the downdraft fan 500 can dissipate heat from the condenser 200 and prevent the heat generated by the condenser 200 from flowing to the evaporator 100 and affecting the evaporator 100 to generate condensed water.
  • step S63 Determine whether the exhaust gas temperature is lower than the second preset temperature. If yes, proceed to step S64. If not, proceed to step S65, where the first preset temperature is lower than the second preset temperature. Specifically, the controller determines whether the exhaust gas temperature is lower than the second preset temperature.
  • the second preset temperature may be 80°C-90°C. Further, the second preset temperature may be 85°C.
  • the compressor keeps running at the current frequency, the lower fan 500 runs at the second preset speed, and the upper fan 300 runs at no less than the fourth preset speed, and then proceeds to step S4.
  • the upper fan 300 specifically operates at a fourth preset speed, the second preset speed is greater than the first preset speed, and the second preset speed is a middle speed.
  • the upper fan 300 operates at a low speed and can supply air to the evaporator 100.
  • the evaporator 100 absorbs the heat of the supplied air to generate condensed water at the evaporator 100.
  • the exhaust temperature is neither high nor low, and the temperature of the condenser 200 is neither high nor low.
  • the condenser 200 needs a certain degree of heat dissipation.
  • the lower fan 500 runs at a centered speed, which can ensure the heat dissipation of the condenser 200 and ensure The power of the down blower 500 will not be too high, reducing power consumption.
  • the operation of the downdraft fan 500 can dissipate heat from the condenser 200 and prevent the heat generated by the condenser 200 from flowing to the evaporator 100 and affecting the evaporator 100 to generate condensed water.
  • the compressor operates at a reduced frequency, the lower fan 500 operates at the third preset speed, and the upper fan 300 operates at a speed not lower than the fourth preset speed, and then proceeds to step S4.
  • the upper fan 300 specifically operates at a fourth preset speed, the third preset speed is greater than the second preset speed, and the third preset speed is the high speed of the lower fan 500 .
  • the upper fan 300 operates at a low speed and can supply air to the evaporator 100.
  • the evaporator 100 absorbs the heat of the supplied air to generate condensed water at the evaporator 100. At this time, the exhaust temperature is too high.
  • the frequency of the compressor must be reduced.
  • the lower fan 500 runs at a high speed, which can quickly dissipate heat to the condenser 200, which can prevent the heat generated by the condenser 200 from flowing. to the evaporator 100, influencing the evaporator 100 to generate condensed water.
  • step S7 Determine whether the water pumping motor reaches idling noise. If yes, proceed to step S8. If not, proceed to step S9. After the water level in the water tank 400 is lowered, water and electricity are supplied. The noise of the machine will become smaller. When the noise of the water pumping motor is reduced to the idling noise, it means that the water level in the water receiving tank 400 has reached the low water level warning line, and the water pump needs to be shut down.
  • the water pumping motor Before starting the water pump, the water pumping motor first runs at the first preset water pumping speed. After the noise of the water pumping motor reaches the high water level noise, the water pump is started again and the water pumping motor runs at the second preset water pumping speed.
  • the second preset water pumping speed is greater than the first preset water pumping speed.
  • the water pumping motor runs at a low speed first, so that the condensed water in the water receiving tank 400 will not be pumped out. This can ensure that the amount of condensed water in the water receiving tank 400 will not be reduced, so that the water pump can be opened for effective cleaning later.
  • the water pumping motor operates at the second preset water pumping speed, which can better stir the condensed water, so that the dirt in the water receiving tank 400 is discharged by the water pump together with the condensed water, thereby achieving effective cleaning.

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Abstract

本发明涉及移动式空调领域,具体提供一种移动式空调及其控制方法,旨在解决现有移动式空调的打水电机转速开至最大会导致接水槽内的水量减少,接水槽内的冷凝水增加的比较缓慢或者不再增加,无法达到有效的清洁的问题。为此目的,在本发明的控制方法中,移动式空调包括依次设置在冷媒回路上的压缩机、冷凝器和蒸发器,移动式空调还包括下风机、接水槽、水泵和打水电机,下风机用于向冷凝器送风,接水槽用于承接蒸发器生成的冷凝水,水泵用于排出接水槽内的水,打水电机用于将接水槽内的水打至冷凝器,控制方法包括:接收到清洁指令后,打水电机以第一预设打水转速运行;判断打水电机的噪音水平;根据判断结果控制水泵和打水电机的运行。

Description

移动式空调及其控制方法
本申请要求2022年07月20日提交的、发明名称为“移动式空调及其控制方法”的中国专利申请CN202210872642.5的优先权,上述中国专利申请的全部内容通过引用并入本申请中。
技术领域
本发明涉及移动式空调领域,具体提供一种移动式空调及其控制方法。
背景技术
相关技术中,移动空调短时间制冷制热切换,会产生大量冷凝水。分体式空调可以通过排水管将冷凝水直接排到室外。然而,由于移动空调内外机均装在同一外壳内且一般设于室内,无法通过排水管将冷凝水排到室外,因此,移动空调中会设有用于接冷凝水的接水槽,并通过水泵将接水槽内的水抽出。然而,移动空调长时间运行后,接水槽内会出现异物,异物会堵塞排水口、且导致接水槽的容量变低,甚至会影响水泵、打水电机的正常使用,存在改进空间。
中国专利(CN114353188A)公开了一种移动空调及其控制方法,其在一定程度上改善了接水槽存在异物的情况,需要进行清洁,在收到清洁指令之后打水电机开启最大转速之后,再开启水泵进行清洁排水。打水电机转速开至最大会导致接水槽内的水量减少,接水槽内的冷凝水增加的比较缓慢或者不再增加,无法达到有效的清洁。
因此,相关领域亟需一种移动式空调及其控制方法来解决上述技术问题。
发明内容
本发明旨在解决上述技术问题,即,解决现有打水电机转速开至最大会导致接水槽内的水量减少,接水槽内的冷凝水增加的比较缓 慢或者不再增加,无法达到有效的清洁的问题。
在第一方面,本发明提供一种空调控制方法,所述移动式空调包括依次设置在冷媒回路上的压缩机、冷凝器和蒸发器,所述移动式空调还包括下风机、接水槽、水泵和打水电机,所述下风机用于向所述冷凝器送风,所述接水槽用于承接蒸发器生成的冷凝水,所述水泵用于排出所述接水槽内的水,所述打水电机用于将所述接水槽内的水打至所述冷凝器,同时能够搅动所述接水槽内的水,
所述控制方法包括:
接收到清洁指令后,所述打水电机以第一预设打水转速运行;
判断所述打水电机的噪音水平;
根据判断结果控制所述水泵和所述打水电机的运行。
在上述移动式空调的控制方法的具体实施方式中,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤包括:
如果所述打水电机的噪音达到高水位噪音,则启动所述水泵,同时所述打水电机以第二预设打水转速运行,其中所述第二预设打水转速高于所述第一预设打水转速。
在上述移动式空调的控制方法的具体实施方式中,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤还包括:
如果所述打水电机的噪音未达到高水位噪音,则执行增加冷凝水的生成量的操作,直至所述打水电机的噪音达到高水位噪音。
在上述移动式空调的控制方法的具体实施方式中,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤还包括:
启动所述水泵之后,如果所述打水电机的噪音达到了空转噪音,则关闭所述水泵。
在上述移动式空调的控制方法的具体实施方式中,增加冷凝水的生成量的操作包括下列步骤:
获取所述压缩机的排气温度;
根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机的转速,以增加冷凝水的生成量。
在上述移动式空调的控制方法的具体实施方式中,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机的转速,以增加冷凝水的生成量”包括:
如果所述压缩机的排气温度低于第一预设温度,则所述压缩机升频运行,所述下风机以第一预设转速运行。
在上述移动式空调的控制方法的具体实施方式中,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机的转速,以增加冷凝水的生成量”还包括:
如果所述压缩机的排气温度不低于第一预设温度但低于所述第二预设温度,则所述压缩机保持当前频率运行,所述下风机以第二预设转速运行,所述第二预设转速大于所述第一预设转速。
在上述移动式空调的控制方法的具体实施方式中,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机的转速,以增加冷凝水的生成量”还包括:
如果所述压缩机的排气温度不低于第二预设温度,则所述压缩机降频运行,所述下风机以第三预设转速运行,所述第三预设转速大于所述第二预设转速。
在上述移动式空调的控制方法的具体实施方式中,所述移动式空调还包括上风机,所述上风机用于对所述蒸发器送风,增加冷凝水的生成量的操作还包括:
所述上部风机以不低于第四预设转速的转速运行,以增加冷凝水的生成量。
在第二方面,提供一种移动式空调,包括控制器,所述控制器配置成能够执行如上所述的控制方法。
在采用上述技术方案的情况下,本发明在开启水泵之前,打水电机先以第一预设打水转速运行,打水电机先以低速运行,不会将接水槽冷凝水打出去,可以保证在后续增加接水槽内的冷凝水时,接水槽内的冷凝水量不会减少,以便后续打开水泵进行有效地清洁。
然后根据打水电机的噪音是否达到高水位,再控制水泵和打水电机的运行,可以保证后续的清洁效果。
此外,在接水槽内的水位达到高水位之后,打水电机以第二预设打水转速运转,可以更好地搅动冷凝水,使接水槽内的污物同冷凝水一同被水泵排出,可以对接水槽有效地清洁。
附图说明
下面结合附图来描述本发明的优选实施方式,附图中:
图1是移动式空调的结构示意图;
图2是本发明的移动式空调的控制方法的主要步骤流程图;
图3是本发明的移动式空调的控制方法的详细步骤流程图。
附图标记列表:100、蒸发器;200、冷凝器;300、上风机;400、接水槽;500、下风机。
具体实施方式
为了解决现有打水电机转速开至最大会导致接水槽内的水量减少,接水槽内的冷凝水增加的比较缓慢或者不再增加,无法达到有效的清洁的问题。
如图1所示,本实施例公开了一种移动式空调,移动式空调包括依次设置在冷媒回路上的压缩机、冷凝器200、膨胀元件和蒸发器100,移动式空调还包括下风机500、上风机300、水泵、接水槽400、打水电机、第一水位开关、第二水位开关、温度检测件和控制器。
其中,下风机500对应冷凝器200设置,用于对冷凝器200送风,具体使外部空气流经冷凝器200,调节冷凝器200的温度,主要是对冷凝器200进行散热。上风机300对应蒸发器100设置,其用于对蒸发器100送风,具体可以使外部空气流经蒸发器100,调节蒸发器100的温度。
下风机500与控制器电连接,控制能够控制下风机500的转速,压缩机与控制器电连接,控制器能够控制压缩机的运行频率,以对压缩机进行降频或升频。
接水槽400用于承接蒸发器100生成的冷凝水,水泵用于对接水槽400排水,水泵与控制器电连接,控制器可以控制水泵的启停。
温度检测件设置在压缩机出口侧,用于检测压缩机的排气温度。温度检测件具体为温度传感器,在其它实施例中也可以温度计等,温度检测件与控制器电连接,可以将检测的压缩机排出的气体的温度反馈至传感器。
打水电机连接于接水槽400,用于将接水槽400内的水输送至冷凝器200处,还用于搅拌接水槽400内的冷凝水。打水电机与控制器电连接,控制器用于控制打水电机的启停以及打水电机的转速。打水电机能够以第一预设打水转速、第二预设打水转速运转,且第二预设打水转速高于第一预设打水转速。打水电机运转时会产生噪音,水位越高打水电机产生的噪音越大。接水槽400在低水位时的噪音为空转噪音,接水槽400在高水位时的噪音为高水位噪音,其中空转噪音最小,高水位噪音最大。其中高水位噪音和空转噪音都在出厂之前进行实验验证,然后进行预存储,控制器可以直接读取使用。
如图2所示,本实施例还公开了一种移动式空调的控制方法,上述移动式空调的控制器能够执行上述的控制方法。该移动式空调的控制方法主要包括如下步骤:
S10、接收到清洁指令后,
S20、打水电机以第一预设打水转速运行;
S30、判断所述打水电机的噪音水平;
S40、根据判断结果控制所述水泵和所述打水电机的运行。步骤S40具体包括如下详细步骤:
如果所述接水槽400的水位达到高水位,则启动所述水泵,同时所述打水电机以第二预设打水转速运行,其中所述第二预设打水转速高于所述第一预设打水转速。
如果所述接水槽400的水位未达到高水位,则执行增加冷凝水的生成量的操作,直至所述接水槽400的水位达到高水位。
启动所述水泵之后,如果所述接水槽400的水位低至低水位,则关闭所述水泵。
启动所述水泵之后,如果所述打水电机未低至低水位,所述水泵和所述打水电机保持当前状态运行。
如图3所示,该移动式空调控制方法具体包括如下详细步骤:
S1、移动式空调制冷运行;
S2、当接收到清洁指令后,进行步骤S3;具体地,由控制器接收清洁指令。
S3、打水电机以第一预设打水转速运行。具体由控制器控制打水电机以第一预设打水转速运行。
S4判断打水电机的噪音是否达到了高水位噪音,如果是,则进行步骤S5,如果否,则进行步骤S6。具体由控制器来判断打水电机的噪音是否达到了高水位噪音。随着水位的增加,打水电机的噪音会逐渐增大,当水位到高水位时,打水电机的噪音会升至高水位噪音。
S5、启动水泵,同时打水电机以第二预设打水转速运行,然后进行步骤S7。其中,打水电机可以搅动接水槽400内的水,使接水槽400内的污物同冷凝水被水泵一同排出。具体由控制器来控制水泵和打水电机的运转。
S6、获取压缩机的排气温度,然后根据压缩机的排气温度,控制压缩机的运行频率、下风机500的转速和上风机300的转速,以增加冷凝水的生成量,直至打水电机的转速低至高水位第一打水转速。
步骤S6具体包括:
S60、获取压缩机的排气温度之后,进行步骤S61。
S61、判断排气温度是否低于第一预设温度,如果是,则进行步骤S62,如果否,则进行步骤S63;具体由控制器来判断排气温度是否低于第一预设温度,第一预设温度具体可以为40℃-50℃,进一步地,第一预设温度可以为45℃。
S62、压缩机升频,且下风机500以第一预设转速运行,上风机300以不低于第四预设转速的转速运行,然后进行步骤S4。其中,上风机300具体以第四预设转速运行,第四预设转速为低转速,第一预设转速为低转速。具体由控制器控制压缩机、上风机300和下风机500的运行。其中上风机300以低速运转,可以向蒸发器100送风,蒸发器100吸收所送的风的热量,使蒸发器100处产生冷凝水。此时排气温度并 不高,冷凝器200温度也不高,冷凝器200不需要过度散热,这时下风机500以低转速运行,可以降低下风机500的功率,减少耗电量。下风机500运行可以对冷凝器200进行散热,防止冷凝器200产生的热量流至蒸发器100处,影响蒸发器100生成冷凝水。
S63、判断排气温度是否低于第二预设温度,如果是,则进行步骤S64,如果否,则进行步骤S65,其中第一预设温度小于第二预设温度。具体由控制器判断排气温度是否低于第二预设温度。第二预设温度可以为80℃-90℃,进一步地,第二预设温度可以为85℃。
S64、压缩机保持当前频率运行,下风机500以第二预设转速运行,上风机300以不低于第四预设转速运行,然后进行步骤S4。其中,上风机300具体以第四预设转速的转速运行,第二预设转速大于第一预设转速,第二预设转速为居中的转速。其中上风机300以低速运转,可以向蒸发器100送风,蒸发器100吸收所送的风的热量,使蒸发器100处产生冷凝水。此时排气温度不高不低,冷凝器200温度也不高不低,冷凝器200需要一定程度的散热,这时下风机500以居中转速运行,可以保证对冷凝器200的散热,也可以保证下风机500的功率不会过高,减少耗电量。下风机500运行可以对冷凝器200进行散热,防止冷凝器200产生的热量流至蒸发器100处,影响蒸发器100生成冷凝水。
S65、压缩机降频运行,下风机500以第三预设转速运行,上风机300以不低于第四预设转速的转速运行,然后进行步骤S4。其中,上风机300具体以第四预设转速运行,第三预设转速大于第二预设转速,第三预设转速为下风机500的高转速。其中上风机300以低速运转,可以向蒸发器100送风,蒸发器100吸收所送的风的热量,使蒸发器100处产生冷凝水。此时排气温度过高,为了保护压缩机,防止压缩机跳机,要对压缩机进行降频。排气温度过高,会导致冷凝器200温度过高,需要对冷凝器200快速的散热,这时下风机500高速运行,可以快速地对冷凝器200散热,其可以防止冷凝器200产生的热量流至蒸发器100处,影响蒸发器100生成冷凝水。
S7、判断打水电机是否达到了空转噪音,如果是,则进行步骤S8,如果否,则进行步骤S9。接水槽400内的水位降低之后,打水电 机的噪音会变小,当打水电机的噪音降低至空转噪音之后,代表接水槽400的水位到了低水位警戒线,需要关闭水泵。
S8、计时器开始计时,计时之后关闭水泵和打水电机。
S9、水泵和打水电机保持当前状态运行,然后进行步骤S7。
在开启水泵之前,打水电机先以第一预设打水转速运行,在打水电机的噪音达到高水位噪音之后,再启动水泵同时打水电机以第二预设打水转速运行,且第二预设打水转速大于第一预设打水转速。打水电机先以低速运行,不会将接水槽400冷凝水打出去,可以保证接水槽400内的冷凝水量不会减少,以便后续打开水泵进行有效地清洁。打水电机以第二预设打水转速运转,可以更好地搅动冷凝水,使接水槽400内的污物同冷凝水一同被水泵排出,可以达到有效的清洁。
至此,已经结合附图所示的优选实施方式描述了本发明的技术方案,但是,本领域技术人员容易理解的是,本发明的保护范围显然不局限于这些具体实施方式。在不偏离本发明的原理的前提下,本领域技术人员可以对相关技术特征作出等同的更改或替换,这些更改或替换之后的技术方案都将落入本发明的保护范围之内。

Claims (10)

  1. 一种移动式空调的控制方法,所述移动式空调包括依次设置在冷媒回路上的压缩机、冷凝器(200)和蒸发器(100),所述移动式空调还包括下风机(500)、接水槽(400)、水泵和打水电机,所述下风机(500)用于向所述冷凝器(200)送风,所述接水槽(400)用于承接蒸发器(100)生成的冷凝水,所述水泵用于排出所述接水槽(400)内的水,所述打水电机用于将所述接水槽(400)内的水打至所述冷凝器(200),同时能够搅动所述接水槽(400)内的水,
    其特征在于,所述控制方法包括:
    接收到清洁指令后,所述打水电机以第一预设打水转速运行;
    判断所述打水电机的噪音水平;
    根据判断结果控制所述水泵和所述打水电机的运行。
  2. 根据权利要求1所述的移动式空调的控制方法,其特征在于,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤包括:
    如果所述打水电机的噪音达到高水位噪音,则启动所述水泵,同时所述打水电机以第二预设打水转速运行,其中所述第二预设打水转速高于所述第一预设打水转速。
  3. 根据权利要求2所述的移动式空调的控制方法,其特征在于,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤还包括:
    如果所述打水电机的噪音未达到高水位噪音,则执行增加冷凝水的生成量的操作,直至所述打水电机的噪音达到高水位噪音。
  4. 根据权利要求2所述的移动式空调的控制方法,其特征在于,“根据判断结果控制所述水泵和所述打水电机的运行”的步骤还包括:
    启动所述水泵之后,如果所述打水电机的噪音达到了空转噪音,则关闭所述水泵。
  5. 根据权利要求3所述的移动式空调的控制方法,其特征在于,增加冷凝水的生成量的操作包括下列步骤:
    获取所述压缩机的排气温度;
    根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机(500)的转速,以增加冷凝水的生成量。
  6. 根据权利要求5所述的移动式空调的控制方法,其特征在于,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机(500)的转速,以增加冷凝水的生成量”包括:
    如果所述压缩机的排气温度低于第一预设温度,则所述压缩机升频运行,所述下风机(500)以第一预设转速运行。
  7. 根据权利要求6所述的移动式空调的控制方法,其特征在于,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机(500)的转速,以增加冷凝水的生成量”还包括:
    如果所述压缩机的排气温度不低于第一预设温度但低于所述第二预设温度,则所述压缩机保持当前频率运行,所述下风机(500)以第二预设转速运行,所述第二预设转速大于所述第一预设转速。
  8. 根据权利要求7所述的移动式空调的控制方法,其特征在于,“根据所述压缩机的排气温度,控制所述压缩机的运行频率和所述下风机(500)的转速,以增加冷凝水的生成量”还包括:
    如果所述压缩机的排气温度不低于第二预设温度,则所述压缩机降频运行,所述下风机(500)以第三预设转速运行,所述第三预设转速大于所述第二预设转速。
  9. 根据权利要求5至8中任一项所述的移动式空调的控制方法,其特征在于,所述移动式空调还包括上风机(300),所述上风机(300)用于对所述蒸发器(100)送风,增加冷凝水的生成量的操作还包括:
    所述上部风机以不低于第四预设转速的转速运行,以增加冷凝水的 生成量。
  10. 一种移动式空调,包括控制器,其特征在于,所述控制器配置成能够执行权利要求1至9中任一项所述的控制方法。
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CN115234990A (zh) * 2022-07-20 2022-10-25 青岛海尔空调器有限总公司 移动式空调及其控制方法
CN115234991A (zh) * 2022-07-20 2022-10-25 青岛海尔空调器有限总公司 移动式空调及其控制方法

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111780262A (zh) * 2020-06-23 2020-10-16 珠海格力电器股份有限公司 一种打水装置和窗式空调
CN113983649A (zh) * 2021-11-02 2022-01-28 珠海格力电器股份有限公司 一种移动式空调器的打水电机启动、运行、排水控制方法
CN114294724A (zh) * 2021-12-31 2022-04-08 海信(广东)空调有限公司 窗机及其控制方法
CN114353188A (zh) * 2022-02-28 2022-04-15 海信(广东)空调有限公司 移动空调及其控制方法
CN115234991A (zh) * 2022-07-20 2022-10-25 青岛海尔空调器有限总公司 移动式空调及其控制方法

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111780262A (zh) * 2020-06-23 2020-10-16 珠海格力电器股份有限公司 一种打水装置和窗式空调
CN113983649A (zh) * 2021-11-02 2022-01-28 珠海格力电器股份有限公司 一种移动式空调器的打水电机启动、运行、排水控制方法
CN114294724A (zh) * 2021-12-31 2022-04-08 海信(广东)空调有限公司 窗机及其控制方法
CN114353188A (zh) * 2022-02-28 2022-04-15 海信(广东)空调有限公司 移动空调及其控制方法
CN115234991A (zh) * 2022-07-20 2022-10-25 青岛海尔空调器有限总公司 移动式空调及其控制方法

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