CN108800465B - Air conditioner control method, air conditioner control device and electronic equipment - Google Patents
Air conditioner control method, air conditioner control device and electronic equipment Download PDFInfo
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- CN108800465B CN108800465B CN201810629670.8A CN201810629670A CN108800465B CN 108800465 B CN108800465 B CN 108800465B CN 201810629670 A CN201810629670 A CN 201810629670A CN 108800465 B CN108800465 B CN 108800465B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
- F24F11/67—Switching between heating and cooling modes
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
- F24F11/86—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling compressors within refrigeration or heat pump circuits
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Abstract
The invention discloses an air conditioner control method, an air conditioner control device and electronic equipment, wherein the air conditioner control method comprises the following steps of: after the air conditioner is started to operate, acquiring an operation mode of the air conditioner; acquiring an initial value of indoor environment temperature, an initial value of outdoor environment temperature and an initial value of input power supply voltage; and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the over-frequency operation function entry condition corresponding to the operation mode, controlling the air conditioner to enter the over-frequency operation function. The air conditioner control method provided by the embodiment of the invention can avoid the condition that the air conditioner has poor refrigerating or heating effect in a special use scene, so that the air conditioner is more intelligent, and the user experience is improved.
Description
Technical Field
The present invention relates to the field of household appliance technologies, and in particular, to an air conditioner control method, an air conditioner control device, an electronic apparatus, and a non-transitory computer-readable storage medium.
Background
At present, the inverter air conditioner is basically related to the running frequency of a compressor based on the outdoor environment temperature, and the running frequency is comprehensively limited by the heating of outdoor electronic control electronic components, the input voltage of a power supply and the noise of an outdoor unit, so that the quick effect of the inverter air conditioner is limited.
In addition, certain influence is sometimes caused to the work of the inverter air conditioner by subjective cognition of people, for example, when the inverter air conditioner is in a cooling mode, if the current outdoor environment temperature is relatively low, the indoor environment temperature is generally considered not to be too high, so that the low-load operation frequency can be limited, the special condition that the indoor environment temperature is high and the cold output needs to be increased (for example, indoor barbecue is performed) is not considered; when the inverter air conditioner is in a heating mode, if the current outdoor environment temperature is relatively high, the indoor environment temperature is generally considered not to be too low, so that the inverter air conditioner can be limited to low-load operation frequency, and the special condition that the indoor environment temperature is low and heating quantity output is needed is not considered.
Disclosure of Invention
The present invention is directed to solving, at least to some extent, one of the technical problems in the art described above.
Therefore, a first objective of the present invention is to provide an air conditioner control method, which can avoid the situation that the air conditioner has poor cooling or heating effects in a special usage scenario, so that the air conditioner is more intelligent, and the user experience is improved.
The second purpose of the invention is to provide an air conditioner control device.
A third object of the invention is to propose an electronic device.
A fourth object of the invention is to propose a non-transitory computer-readable storage medium.
In order to achieve the above object, an embodiment of a first aspect of the present invention provides an air conditioner control method, including: after the air conditioner is started to operate, acquiring an operation mode of the air conditioner; acquiring an initial value of indoor environment temperature, an initial value of outdoor environment temperature and an initial value of input power supply voltage; and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the ultra-frequency operation function entry condition corresponding to the operation mode, controlling the air conditioner to enter the ultra-frequency operation function.
According to the air conditioner control method provided by the embodiment of the invention, after the air conditioner is started to operate, the operation mode of the air conditioner is firstly obtained, then the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage are obtained, and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the over-frequency operation function entry condition corresponding to the operation mode, the air conditioner is controlled to enter the over-frequency operation function. Therefore, the situation that the air conditioner is poor in refrigerating or heating effect under a special use scene can be avoided, the air conditioner is more intelligent, and user experience is improved.
In addition, the air conditioner control method provided according to the above embodiment of the present invention may further have the following additional technical features:
in an embodiment of the present invention, the air conditioner control method further includes: and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage do not meet the entry condition of the over-frequency operation function corresponding to the operation mode, controlling the air conditioner to operate according to a normal mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the over-frequency running function entering condition corresponding to the refrigeration mode comprises the following steps: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value; the entry condition of the over-frequency running function corresponding to the heating mode comprises the following steps: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value.
In an embodiment of the present invention, the controlling the air conditioner to enter the over-frequency operation function includes: controlling the air conditioner to run a preset conventional running time corresponding to the running mode according to a conventional running frequency corresponding to the conventional mode in the running mode; acquiring a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current; if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode.
In an embodiment of the present invention, the air conditioner control method further includes: and if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the over-frequency mode operating conditions corresponding to the refrigeration mode comprise: the difference value between the first process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the first process value of the outlet temperature of the condenser of the outdoor unit is smaller than the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit, the first process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the running current is smaller than a preset refrigeration running current threshold value; the operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value between the heating set temperature and the first process value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the first process value of the outlet temperature of the condenser of the outdoor unit is larger than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the first process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the first process value of the operating current is smaller than a preset heating operating current threshold value.
In an embodiment of the present invention, after controlling the air conditioner to run a preset turbo running time corresponding to the operation mode according to the turbo running frequency corresponding to the turbo mode in the operation mode, the method further includes: acquiring a second process value of indoor environment temperature, a second process value of outdoor environment temperature, a second process value of input power supply voltage, a second process value of the middle temperature of an indoor unit evaporator coil, a second process value of outdoor unit condenser outlet temperature, a second process value of compressor exhaust temperature and a second process value of running current; if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the evaporator coil of the indoor unit, the second process value of the outlet temperature of the condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current meet the repeated running condition corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or, continuously executing the step of controlling the air conditioner to operate the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode.
In an embodiment of the present invention, the air conditioner control method further includes: and if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of an evaporator coil of the indoor unit, the second process value of the outlet temperature of a condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the repetitive operation condition corresponding to the cooling mode includes: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the second process value of the outdoor unit condenser outlet temperature is less than the preset refrigeration outdoor unit condenser outlet temperature threshold, the second process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the running current is smaller than a preset refrigeration running current threshold value; the repeated operation condition corresponding to the heating mode comprises: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the second process value of the outlet temperature of the condenser of the outdoor unit is greater than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the second process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the second process value of the operating current is smaller than a preset heating operating current threshold value.
In one embodiment of the present invention, the turbo mode operating condition further comprises: the frequency of the air conditioner running according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode is smaller than a preset over-frequency mode frequency threshold value; the repetitive operation condition further includes: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode.
In order to achieve the above object, a second embodiment of the present invention provides an air conditioner control device, where a first obtaining module is configured to obtain an operation mode of an air conditioner after the air conditioner is started to operate; the second acquisition module is used for acquiring an initial value of the indoor environment temperature, an initial value of the outdoor environment temperature and an initial value of the input power supply voltage; and the control module is used for controlling the air conditioner to enter the super-frequency operation function when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the super-frequency operation function entry condition corresponding to the operation mode.
According to the air conditioner control device disclosed by the embodiment of the invention, after the air conditioner is started to operate, the operation mode of the air conditioner is obtained through the first obtaining module, and the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage are obtained through the second obtaining module, so that the air conditioner is controlled to enter the over-frequency operation function when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the over-frequency operation function entering condition corresponding to the operation mode. Therefore, the situation that the air conditioner is poor in refrigerating or heating effect under a special use scene can be avoided, the air conditioner is more intelligent, and user experience is improved.
In addition, the air conditioning control device proposed according to the above embodiment of the present invention may further have the following additional technical features:
in an embodiment of the present invention, the control module is further configured to: and controlling the air conditioner to operate according to a normal mode when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage do not meet the entry condition of the over-frequency operation function corresponding to the operation mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the over-frequency running function entering condition corresponding to the refrigeration mode comprises the following steps: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value; the entry condition of the over-frequency running function corresponding to the heating mode comprises the following steps: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value.
In one embodiment of the present invention, the controlling module controlling the air conditioner to enter the over-frequency operation function includes: controlling the air conditioner to run a preset conventional running time corresponding to the running mode according to a conventional running frequency corresponding to the conventional mode in the running mode; acquiring a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current; if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode.
In an embodiment of the present invention, the control module is further configured to: and if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the over-frequency mode operating conditions corresponding to the refrigeration mode comprise: the difference value between the first process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the first process value of the outlet temperature of the condenser of the outdoor unit is smaller than the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit, the first process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the running current is smaller than a preset refrigeration running current threshold value; the operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value between the heating set temperature and the first process value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the first process value of the outlet temperature of the condenser of the outdoor unit is larger than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the first process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the first process value of the operating current is smaller than a preset heating operating current threshold value.
In an embodiment of the present invention, after the control module controls the air conditioner to run a preset turbo running time corresponding to the operation mode according to the turbo running frequency corresponding to the turbo mode in the operation mode, the control module is further configured to: acquiring a second process value of indoor environment temperature, a second process value of outdoor environment temperature, a second process value of input power supply voltage, a second process value of the middle temperature of an indoor unit evaporator coil, a second process value of outdoor unit condenser outlet temperature, a second process value of compressor exhaust temperature and a second process value of running current; if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the evaporator coil of the indoor unit, the second process value of the outlet temperature of the condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current meet the repeated running condition corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or, continuously executing the step of controlling the air conditioner to operate the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode.
In an embodiment of the present invention, the control module is further configured to: and if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of an evaporator coil of the indoor unit, the second process value of the outlet temperature of a condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
In one embodiment of the invention, the operation mode comprises: a cooling mode or a heating mode; the repetitive operation condition corresponding to the cooling mode includes: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the second process value of the outdoor unit condenser outlet temperature is less than the preset refrigeration outdoor unit condenser outlet temperature threshold, the second process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the running current is smaller than a preset refrigeration running current threshold value; the repeated operation condition corresponding to the heating mode comprises: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the second process value of the outlet temperature of the condenser of the outdoor unit is greater than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the second process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the second process value of the operating current is smaller than a preset heating operating current threshold value.
In one embodiment of the present invention, the turbo mode operating condition further comprises: the frequency of the air conditioner running according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode is smaller than a preset over-frequency mode frequency threshold value; the repetitive operation condition further includes: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode.
To achieve the above object, a third aspect of the present invention provides an electronic device, including: the air conditioner control method comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the program to realize the air conditioner control method according to the embodiment of the first aspect of the invention.
According to the electronic equipment provided by the embodiment of the invention, the processor executes the computer program stored in the memory, so that the condition that the air conditioner has poor refrigerating or heating effect in a special use scene can be avoided, the air conditioner is more intelligent, and the user experience is improved.
To achieve the above object, a fourth aspect of the present invention provides a non-transitory computer-readable storage medium, on which a computer program is stored, the computer program being executed by a processor for implementing the air-conditioning control method according to the first aspect of the present invention.
The non-transitory computer readable storage medium of the embodiment of the invention can avoid the situation that the air conditioner has poor cooling or heating effect in a special use scene by executing the stored computer program, so that the air conditioner is more intelligent, and the user experience is improved.
Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
Drawings
The foregoing and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a flowchart of an air conditioner control method according to an embodiment of the present invention;
fig. 2 is a flowchart of an air conditioner control method according to another embodiment of the present invention; and
fig. 3 is a block diagram schematically illustrating an air conditioning control apparatus according to an embodiment of the present invention.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.
An air-conditioning control method, an air-conditioning control apparatus, an electronic device, and a non-transitory computer-readable storage medium according to embodiments of the present invention are described below with reference to the accompanying drawings.
Fig. 1 is a flowchart of an air conditioner control method according to an embodiment of the present invention.
As shown in fig. 1, the air conditioner control method according to the embodiment of the present invention includes the following steps:
and S1, acquiring the operation mode of the air conditioner after the air conditioner is started to operate. The operation module of the air conditioner can comprise a cooling operation mode and a heating operation mode.
In the embodiment of the invention, a user can control the air conditioner to start up and operate through the remote controller or the mobile terminal, for example, the user can start up through the remote controller, set the current operation mode of the air conditioner to be a cooling or heating mode, and then adjust the temperature, the wind speed, the position of the air deflector and the like to control the operation of the air conditioner.
S2, an initial value of the indoor ambient temperature, an initial value of the outdoor ambient temperature, and an initial value of the input power supply voltage are acquired.
It should be noted that, in the air conditioner described in this embodiment, a temperature sensing module may be built in, and the temperature sensing module may collect an indoor ambient temperature and an outdoor ambient temperature in real time after the air conditioner is powered on, and may store the currently collected indoor ambient temperature as an initial value of the indoor ambient temperature and the currently collected outdoor ambient temperature as an initial value of the outdoor ambient temperature when the air conditioner receives a power-on operation command. In addition, the air conditioner described in this embodiment may further include a voltage detection module, where the voltage detection module may be configured to detect a power supply voltage of the air conditioner, and may use a currently detected input power supply voltage as an initial value of the input power supply voltage and store the initial value when the air conditioner is turned on.
In the embodiment of the present invention, after the air conditioner is started to operate, the first collected indoor environment temperature is used as the initial value of the indoor environment temperature, the first collected outdoor environment temperature is used as the initial value of the outdoor environment temperature, and the first detected input power voltage is used as the initial value of the input power voltage.
And S3, if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the over-frequency operation function entering condition corresponding to the operation mode, controlling the air conditioner to enter the over-frequency operation function. The entry condition of the over-frequency running function can be calibrated according to the actual situation.
As shown in fig. 2, the air conditioner control method may further include step S4, if the initial value of the indoor ambient temperature, the initial value of the outdoor ambient temperature, and the initial value of the input power voltage do not satisfy the over-frequency operation function entry condition corresponding to the operation mode, controlling the air conditioner to operate according to the normal mode.
Further, the operation mode may include a cooling mode or a heating mode, wherein the entry condition of the over-frequency operation function corresponding to the cooling mode may further include: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a preset first refrigeration outdoor environment temperature threshold value and is equal to or smaller than a preset second refrigeration outdoor environment temperature threshold value. The preset refrigeration temperature difference threshold, the preset refrigeration input power supply voltage threshold, the preset first refrigeration outdoor environment temperature threshold and the preset second refrigeration outdoor environment temperature threshold can be calibrated according to actual conditions, for example, the preset refrigeration temperature difference threshold can be 6 ℃, the preset refrigeration input power supply voltage threshold can be 215V, the preset first refrigeration outdoor environment temperature threshold can be 15 ℃, and the preset second refrigeration outdoor environment temperature threshold can be 40 ℃.
The overclocking function entry condition corresponding to the heating mode may include: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value. The preset heating temperature difference threshold, the preset heating input power voltage threshold, the first heating outdoor environment temperature threshold and the second heating outdoor environment temperature threshold may be calibrated according to actual conditions, for example, the preset heating temperature difference threshold may be 6 ℃, the preset heating input power voltage threshold may be 215V, the first heating outdoor environment temperature threshold may be 10 ℃, and the second heating outdoor environment temperature threshold may be 30 ℃.
Specifically, after the air conditioner is powered on to operate, a user may set an operation mode of the air conditioner to a cooling operation mode through a remote controller or a mobile terminal while setting a cooling target temperature (e.g., 17 ℃) of the air conditioner. At this time, the air conditioner may obtain its own operation mode and corresponding parameters, for example, the operation mode is a cooling operation mode and a set cooling target temperature TC.
Then, the air conditioner may acquire an initial value T10 of the indoor ambient temperature, an initial value T40 of the outdoor ambient temperature, and an initial value U0 of the input power voltage. When the difference value between the initial value T10 of the indoor environment temperature and the refrigeration setting temperature (the set refrigeration target temperature) TC is judged to be larger than the preset refrigeration temperature difference threshold value delta Tc, the initial value U0 of the input power supply voltage is larger than the preset refrigeration input power supply voltage threshold value Uclimt4, and the initial value T40 of the outdoor environment temperature is equal to or larger than the preset first refrigeration outdoor environment temperature threshold value a and equal to or smaller than the preset second refrigeration outdoor environment temperature threshold value b, the air conditioner can judge that the entry condition of the over-frequency operation function corresponding to the operation mode is currently met, and meanwhile, the air conditioner is controlled to enter the over-frequency operation function. When the T10-TC is judged to be less than or equal to the delta Tc, or the U0 is less than or equal to the Uclimt4, or the T40 is less than a, or the T40 is more than b, the air conditioner can judge that the over-frequency running function entering condition corresponding to the running mode is not met currently, and meanwhile, the air conditioner is controlled to run according to the normal mode.
In addition, after the air conditioner is started to operate, a user can set the operation mode of the air conditioner to be a heating operation mode through a remote controller or a mobile terminal, and meanwhile, the heating target temperature of the air conditioner is set. At this time, the air conditioner may obtain its own operation mode and corresponding parameters, for example, the operation mode is a heating operation mode, and the set heating target temperature TH and the number m of times of over-frequency operation are recorded (initial mark) as 0.
Then, the air conditioner may acquire an initial value T10 of the indoor ambient temperature, an initial value T40 of the outdoor ambient temperature, and an initial value U0 of the input power voltage. When the difference value between the heating set temperature (set heating target temperature) TH and the initial value T10 of the indoor environment temperature is judged to be greater than the preset heating temperature difference threshold value δ TH, the initial value U0 of the input power supply voltage is greater than the preset heating input power supply voltage threshold value Uhlimt4, and the initial value T40 of the outdoor environment temperature is equal to or greater than the first heating outdoor environment temperature threshold value d and equal to or less than the second heating outdoor environment temperature threshold value e, the air conditioner can judge that the entry condition of the over-frequency operation function corresponding to the operation mode is currently met, and meanwhile, the air conditioner is controlled to enter the over-frequency operation function. When the TH-T10 is judged to be smaller than or equal to delta Th, or the U0 is smaller than or equal to Uhlimt4, or the T40 is smaller than d, or the T40 is larger than e, the air conditioner can judge that the over-frequency running function entering condition corresponding to the running mode is not met currently, and meanwhile, the air conditioner is controlled to run according to the normal mode.
In one embodiment of the present invention, controlling the air conditioner to enter the over-frequency operation function may include:
and controlling the air conditioner to run the preset routine running time corresponding to the running mode according to the routine running frequency corresponding to the routine mode in the running mode. The regular operation frequency can be calibrated according to actual conditions, for example, the regular operation frequency can be 30Hz, and the preset regular operation time can be calibrated according to actual conditions, for example, the preset regular operation time can be 30 min.
The method comprises the steps of obtaining a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current.
If the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating conditions of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode.
And if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to the normal mode.
Further, the operation mode may include a cooling mode or a heating mode, wherein the overfrequency mode operation condition corresponding to the cooling mode may include: the difference value between the first process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, the first process value of the input power supply voltage is larger than a preset refrigeration input power supply voltage threshold value, the first process value of the outdoor environment temperature is equal to or larger than a preset first refrigeration outdoor environment temperature threshold value and is equal to or smaller than a preset second refrigeration outdoor environment temperature threshold value, the first process value of the middle temperature of an evaporator coil of the indoor unit is larger than a preset refrigeration indoor unit evaporator coil middle temperature threshold value, the first process value of the outlet temperature of the condenser of the outdoor unit is smaller than a preset refrigeration outdoor unit condenser outlet temperature threshold value, the first process value of the exhaust temperature of the compressor is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the running current is smaller than a preset refrigeration running current threshold value. The preset temperature threshold value in the middle of the evaporator coil of the refrigeration indoor unit, the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit, the preset exhaust temperature threshold value of the refrigeration compressor and the preset refrigeration operation current threshold value can be calibrated according to actual conditions, for example, the preset temperature threshold value in the middle of the evaporator coil of the refrigeration indoor unit can be 3 ℃, the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit can be 35 ℃, the preset exhaust temperature threshold value of the refrigeration compressor can be 60 ℃ and the preset refrigeration operation current threshold value can be 9A.
The operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value of the first process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, the first process value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, the first process value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value, the first process value of the middle temperature of an indoor unit evaporator coil is smaller than a preset heating indoor unit evaporator coil middle temperature threshold value, the first process value of the outdoor unit condenser outlet temperature is larger than a preset heating outdoor unit condenser outlet temperature threshold value, the first process value of the compressor exhaust temperature is smaller than a preset compressor exhaust temperature threshold value, and the first process value of the operation current is smaller than a preset heating operation current threshold value. The preset heating indoor unit evaporator coil middle temperature threshold, the preset heating outdoor unit condenser outlet temperature threshold, the preset heating compressor exhaust temperature threshold and the preset heating operation current threshold can be calibrated according to actual conditions, for example, the preset heating indoor unit evaporator coil middle temperature threshold can be 56 ℃, the preset heating outdoor unit condenser outlet temperature threshold can be 3 ℃, the preset heating compressor exhaust temperature threshold can be 60 ℃ and the preset heating operation current threshold can be 9A.
Specifically, after the air conditioner is started to operate, if it is determined that the entry condition of the over-frequency operation function corresponding to the operation mode is satisfied, the air conditioner may be controlled to operate a preset normal operation time (e.g., 30min) corresponding to the operation mode according to a normal operation frequency (e.g., 30Hz) corresponding to the normal mode in the operation mode.
Then, the air conditioner can collect the indoor environment temperature, the outdoor environment temperature, the middle temperature of an indoor machine evaporator coil, the outlet temperature of an outdoor machine condenser and the exhaust temperature of a compressor in real time through a built-in temperature detection module, detect the input power voltage in real time through a built-in voltage detection module, detect the running current in real time through a built-in current detection module, then use the currently collected indoor environment temperature as a first process value T10m1 of the indoor environment temperature, use the currently collected outdoor environment temperature as a first process value T40m1 of the outdoor environment temperature, use the currently collected middle temperature of the indoor machine evaporator coil as a first process value T20m1 of the middle temperature of the indoor machine evaporator coil, use the currently collected outlet temperature of the outdoor machine condenser as a first process value T30m1 of the outlet temperature of the outdoor machine condenser, and use the currently collected exhaust temperature of the compressor TP as a first process value T0 m1 of the exhaust temperature of the compressor, the currently detected input supply voltage is taken as the first process value U0m1 of the input supply voltage and the currently detected operating current is taken as the first process value I0m1 of the operating current.
If the air conditioner is currently operated in the cooling mode, when the T10m1-TC is judged to be larger than delta Tc, U0m1 is larger than Uclimt4, T40m1 is equal to or larger than a and equal to or smaller than b, T20m1 is larger than a preset cooling indoor unit evaporator coil middle temperature threshold value T2T4limc, T30m1 is smaller than a preset cooling outdoor unit condenser outlet temperature threshold value T3T4limc, TP0m1 is smaller than a preset cooling compressor exhaust temperature threshold value TPt4limc, and I0m1 is smaller than a preset cooling operation current threshold value Ict4lim, the air conditioner can judge that the over-frequency mode operation condition corresponding to the operation mode is currently met, and can be controlled to operate the air conditioner according to the over-frequency operation frequency corresponding to the over-frequency mode in the operation mode and to the preset over-frequency operation time corresponding to the operation mode. The overclocking operation frequency can be calibrated according to an actual condition, for example, the overclocking operation frequency can be 45Hz, and the preset overclocking operation time can be calibrated according to an actual condition, for example, the preset overclocking operation time can be 30 min.
When the T10m1-TC is judged to be less than or equal to delta Tc, or U0m1 is less than or equal to Uclimt4, or T40m1 is less than a, or T40m1 is greater than b, or T20m1 is less than or equal to T2T4limc, or T30m1 is greater than or equal to T3T4limc, or TP0m1 is greater than or equal to TPt4limc, or I0m1 is greater than or equal to Ict4lim, the air conditioner can judge that the over-frequency mode operation condition corresponding to the operation mode is not met currently, and can be controlled to exit the over-frequency operation function and operate according to the normal mode. It should be noted that the normal mode described in this embodiment may be an operation mode of a general inverter air conditioner in the related art.
If the air conditioner is currently operated in the heating mode, when the TH-T10m1 is judged to be larger than delta Th, U0m1 is larger than Uhlimt4, T40m1 is equal to or larger than d and equal to or smaller than e, T20m1 is smaller than a preset heating indoor unit evaporator coil middle temperature threshold value T2T4limh, T30m1 is larger than a preset heating outdoor unit condenser outlet temperature threshold value T3T4limh, TP0m1 is smaller than a preset heating compressor exhaust temperature threshold value TPt4limh, and I0m1 is smaller than a preset heating operation current threshold value Iht4lim, the air conditioner can judge that the over-frequency mode operation condition corresponding to the operation mode is currently met, and can be controlled to operate the air conditioner according to the over-frequency operation frequency corresponding to the over-frequency mode in the operation mode and the preset over-frequency operation time corresponding to the operation mode.
When the TH-T10m1 is judged to be smaller than or equal to delta Th, or U0m1 is smaller than or equal to Uhlimt4, or T40m1 is smaller than d, or T40m1 is larger than e, or T20m1 is larger than or equal to T2T4limh, or T30m1 is smaller than or equal to T3T4limh, or TP0m1 is larger than or equal to TPt4limh, or I0m1 is larger than or equal to Iht4lim, the air conditioner can judge that the overfrequency mode operation condition corresponding to the operation mode is not met currently, and meanwhile, the air conditioner can be controlled to quit the overfrequency operation function and operate according to the normal mode.
In an embodiment of the present invention, after the controlling the air conditioner to operate the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode, the method may further include:
and acquiring a second process value of the indoor environment temperature, a second process value of the outdoor environment temperature, a second process value of the input power supply voltage, a second process value of the middle temperature of an evaporator coil of the indoor unit, a second process value of the outlet temperature of a condenser of the outdoor unit, a second process value of the exhaust temperature of the compressor and a second process value of the running current.
If the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the indoor unit evaporator coil, the second process value of the outdoor unit condenser outlet temperature, the second process value of the compressor exhaust temperature and the second process value of the running current meet the repeated running conditions corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or continuously executing the step of controlling the air conditioner to run the preset super-frequency running time corresponding to the running mode according to the super-frequency running frequency corresponding to the super-frequency mode in the running mode.
And if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the indoor unit evaporator coil, the second process value of the outdoor unit condenser outlet temperature, the second process value of the compressor exhaust temperature and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to the normal mode.
Further, the operation mode may include a cooling mode or a heating mode, wherein the repeated operation condition corresponding to the cooling mode may include: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the second process value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, the second process value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and equal to or less than a preset second refrigeration outdoor environment temperature threshold value, the second process value of the middle temperature of the evaporator coil of the indoor unit is greater than a preset refrigeration indoor unit evaporator coil middle temperature threshold value, the second process value of the outlet temperature of the outdoor unit condenser is less than a preset refrigeration outdoor unit condenser outlet temperature threshold value, the second process value of the exhaust temperature of the compressor is less than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the running current is less than a preset refrigeration running current threshold value.
The repetitive operation condition corresponding to the heating mode may include: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, the second process value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, the second process value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value, the second process value of the middle temperature of an indoor unit evaporator coil is smaller than a preset heating indoor unit evaporator coil middle temperature threshold value, the second process value of the outdoor unit condenser outlet temperature is larger than a preset heating outdoor unit condenser outlet temperature threshold value, the second process value of the compressor exhaust temperature is smaller than a preset compressor exhaust temperature threshold value, and the second process value of the operation current is smaller than a preset heating operation current threshold value.
Specifically, after the air conditioner operates the preset super-frequency operation time (for example, 30min) corresponding to the operation mode according to the super-frequency operation frequency (for example, 45Hz) corresponding to the super-frequency mode in the operation mode, the air conditioner may further acquire the indoor environment temperature, the outdoor environment temperature, the central temperature of the indoor unit evaporator coil, the outdoor unit condenser outlet temperature, and the compressor exhaust temperature in real time through the built-in temperature detection module, detect the input power supply voltage in real time through the built-in voltage detection module, and detect the operation current in real time through the built-in current detection module.
Then, the air conditioner may use the currently collected indoor ambient temperature as a second process value T10m2 of the indoor ambient temperature, the currently collected outdoor ambient temperature as a second process value T40m2 of the outdoor ambient temperature, the currently collected middle temperature of the evaporator coil of the indoor unit as a second process value T20m2 of the middle temperature of the evaporator coil of the indoor unit, the currently collected outlet temperature of the condenser of the outdoor unit as a second process value T30m2 of the outlet temperature of the condenser of the outdoor unit, the currently collected discharge temperature of the compressor as a second process value TP0m2 of the discharge temperature of the compressor, the currently detected input power voltage as a second process value U0m2 of the input power voltage, and the currently detected operation current as a second process value I0m2 of the operation current.
If the air conditioner is currently operated in the cooling mode, when the T10m2-TC is judged to be larger than delta Tc, U0m2 is larger than Uclimt4, T40m2 is equal to or larger than a and equal to or smaller than b, T20m2 is larger than T2T4limc, T30m2 is smaller than T3T4limc, TP0m2 is smaller than TPt4limc, and I0m2 is smaller than Ict4lim, the air conditioner can judge that the repeated operation condition corresponding to the operation mode is currently met, and meanwhile, the air conditioner can be controlled to continuously execute the conventional operation frequency corresponding to the conventional mode under the control air conditioner according to the operation mode and operate the preset conventional operation time step corresponding to the operation mode, or the over-frequency operation frequency corresponding to the over-frequency mode under the control air conditioner according to the operation mode and operate the preset over-frequency operation time step corresponding to the operation mode.
When the T10m2-TC is judged to be less than or equal to delta Tc, or U0m2 is less than or equal to Uclimt4, or T40m2 is less than a, or T40m2 is greater than b, or T20m2 is less than or equal to T2T4limc, or T30m2 is greater than or equal to T3T4limc, or TP0m2 is greater than or equal to TPt4limc, or I0m2 is greater than or equal to Ict4lim, the air conditioner can judge that the repetitive operation condition corresponding to the operation mode is not met currently, and meanwhile, the air conditioner can be controlled to exit the over-frequency operation function and operate according to the normal mode.
If the air conditioner is currently operated in the heating mode, when the TH-T10m2 is judged to be larger than the delta Th, the U0m2 is larger than the Uhlimt4, the T40m2 is equal to or larger than d and equal to or smaller than e, the T20m2 is smaller than the T2T4limh, the T30m2 is larger than the T3T4limh, the TP0m2 is smaller than the TPt4limh, and the I0m2 is smaller than the Iht4lim, the air conditioner can judge that the repeated operation condition corresponding to the operation mode is currently met, and meanwhile, the air conditioner can be controlled to continuously execute a conventional operation frequency corresponding to the conventional mode in the operation mode and operate a preset conventional operation time step corresponding to the operation mode, or continuously execute an over-frequency operation frequency corresponding to the over-frequency mode in the operation mode and operate a preset over-frequency operation time step corresponding to the operation mode.
When the TH-T10m2 is judged to be less than or equal to delta Th, or U0m2 is judged to be less than or equal to Uhlimt4, or T40m2 is less than d, or T40m2 is more than e, or T20m2 is more than or equal to T2T4limh, or T30m2 is less than or equal to T3T4limh, or TP0m2 is more than or equal to TPt4limh, or I0m2 is more than or equal to Iht4lim, the air conditioner can judge that the repetitive operation condition corresponding to the operation mode is not met currently, and meanwhile, the air conditioner can be controlled to exit the over-frequency operation function and operate according to the normal mode.
In order to prevent the air conditioner from being damaged due to the excessively long overclocking operation time of the air conditioner, in an embodiment of the present invention, the overclocking mode operation condition may further include: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the preset overclocking mode frequency threshold value. The repetitive operating conditions may further include: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode. The frequency-increasing mode number threshold may be calibrated according to actual conditions, for example, the frequency-increasing mode number threshold may be 3.
Specifically, a user can control the air conditioner to start and operate through a remote controller or a mobile terminal, and after the air conditioner is started and operated, the air conditioner can automatically generate a frequency value of the over-frequency operation, and the frequency value m of the over-frequency operation is initially marked as 0.
Then, when the air conditioner judges whether the operating condition of the over-frequency mode corresponding to the current operating mode is met or not, whether the frequency value m of the over-frequency operating frequency operation is larger than or equal to the frequency threshold value of the over-frequency mode or not can be judged, if yes, the condition that the operating condition of the over-frequency mode corresponding to the current operating mode is not met currently is shown, and the air conditioner can be controlled to operate according to the normal mode.
In addition, when the air conditioner judges whether the repeated operation condition corresponding to the current operation mode is met or not each time, whether the frequency value m of the over-frequency operation is larger than or equal to the frequency threshold value of the over-frequency mode or not can be judged first, if so, the air conditioner can be used for indicating that the repeated operation condition corresponding to the current operation mode is not met currently, and the air conditioner can be controlled to operate according to the normal mode.
In addition, when the air conditioner operates the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode, the number m of times of the overclocking operation frequency operation can be added by 1, namely m is m + 1.
In summary, according to the air conditioner control method of the embodiment of the present invention, after the air conditioner is started to operate, the operation mode of the air conditioner is firstly obtained, and then the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature, and the initial value of the input power voltage are obtained, and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature, and the initial value of the input power voltage satisfy the entry condition of the over-frequency operation function corresponding to the operation mode, the air conditioner is controlled to enter the over-frequency operation function. Therefore, the situation that the air conditioner is poor in refrigerating or heating effect under a special use scene can be avoided, the air conditioner is more intelligent, and user experience is improved.
Fig. 3 is a block diagram schematically illustrating an air conditioning control apparatus according to an embodiment of the present invention.
As shown in fig. 3, an air conditioning control apparatus according to an embodiment of the present invention includes: a first acquisition module 100, a second acquisition module 200, and a control module 300.
The first obtaining module 100 is configured to obtain an operation mode of the air conditioner after the air conditioner is started to operate.
The second obtaining module 200 is configured to obtain an initial value of the indoor ambient temperature, an initial value of the outdoor ambient temperature, and an initial value of the input power voltage.
The control module 300 is configured to control the air conditioner to enter the over-frequency operation function when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature, and the initial value of the input power voltage satisfy the entry condition of the over-frequency operation function corresponding to the operation mode.
In one embodiment of the present invention, the control module 300 is further configured to: and controlling the air conditioner to operate according to a normal mode when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage do not meet the entry condition of the over-frequency operation function corresponding to the operation mode.
In one embodiment of the invention, the operational modes include: a cooling mode or a heating mode; the entry condition of the over-frequency running function corresponding to the refrigeration mode comprises the following steps: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value; the overclocking operation function entry condition corresponding to the heating mode comprises the following steps: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value.
In one embodiment of the present invention, the control module 300 controls the air conditioner to enter the over-frequency operation function including: controlling the air conditioner to run a preset conventional running time corresponding to the running mode according to a conventional running frequency corresponding to the conventional mode in the running mode; acquiring a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current; if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating conditions of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode.
In one embodiment of the present invention, the control module 300 is further configured to: and if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to the normal mode.
In one embodiment of the invention, the operational modes include: a cooling mode or a heating mode; the over-frequency mode operating conditions corresponding to the refrigeration mode comprise: the difference value of the first process value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the first process value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, the first process value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value, the first process value of the middle temperature of an indoor unit evaporator coil is greater than a preset refrigeration indoor unit evaporator coil middle temperature threshold value, the first process value of the outdoor unit condenser outlet temperature is less than a preset refrigeration outdoor unit condenser outlet temperature threshold value, the first process value of the compressor exhaust temperature is less than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the operation current is less than a preset refrigeration operation current threshold value; the operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value of the first process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, the first process value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, the first process value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value, the first process value of the middle temperature of an indoor unit evaporator coil is smaller than a preset heating indoor unit evaporator coil middle temperature threshold value, the first process value of the outdoor unit condenser outlet temperature is larger than a preset heating outdoor unit condenser outlet temperature threshold value, the first process value of the compressor exhaust temperature is smaller than a preset compressor exhaust temperature threshold value, and the first process value of the operation current is smaller than a preset heating operation current threshold value.
In an embodiment of the present invention, the control module 300 controls the air conditioner to operate at the turbo frequency operating frequency corresponding to the turbo frequency mode in the operation mode, and after operating the preset turbo frequency operating time corresponding to the operation mode, is further configured to: acquiring a second process value of indoor environment temperature, a second process value of outdoor environment temperature, a second process value of input power supply voltage, a second process value of the middle temperature of an indoor unit evaporator coil, a second process value of outdoor unit condenser outlet temperature, a second process value of compressor exhaust temperature and a second process value of running current; if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the indoor unit evaporator coil, the second process value of the outdoor unit condenser outlet temperature, the second process value of the compressor exhaust temperature and the second process value of the running current meet the repeated running conditions corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or continuously executing the step of controlling the air conditioner to run the preset super-frequency running time corresponding to the running mode according to the super-frequency running frequency corresponding to the super-frequency mode in the running mode.
In one embodiment of the present invention, the control module 300 is further configured to: and if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the indoor unit evaporator coil, the second process value of the outdoor unit condenser outlet temperature, the second process value of the compressor exhaust temperature and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to the normal mode.
In one embodiment of the invention, the operational modes include: a cooling mode or a heating mode; the repetitive operation conditions corresponding to the cooling mode include: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the second process value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, the second process value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value, the second process value of the middle temperature of an indoor unit evaporator coil is greater than a preset refrigeration indoor unit evaporator coil middle temperature threshold value, the second process value of the outdoor unit condenser outlet temperature is less than a preset refrigeration outdoor unit condenser outlet temperature threshold value, the second process value of the compressor exhaust temperature is less than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the operation current is less than a preset refrigeration operation current threshold value; the repeated operation conditions corresponding to the heating mode comprise: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, the second process value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, the second process value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value, the second process value of the middle temperature of an indoor unit evaporator coil is smaller than a preset heating indoor unit evaporator coil middle temperature threshold value, the second process value of the outdoor unit condenser outlet temperature is larger than a preset heating outdoor unit condenser outlet temperature threshold value, the second process value of the compressor exhaust temperature is smaller than a preset compressor exhaust temperature threshold value, and the second process value of the operation current is smaller than a preset heating operation current threshold value.
In one embodiment of the present invention, the turbo mode operating condition further comprises: the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is smaller than a preset overclocking mode frequency threshold value; the repetitive operation condition further includes: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode.
It should be noted that, for details not disclosed in the air conditioner control device according to the embodiment of the present invention, please refer to details disclosed in the air conditioner control method according to the embodiment of the present invention, which are not repeated herein.
In summary, according to the air conditioner control device in the embodiment of the present invention, after the air conditioner is started to operate, the first obtaining module obtains the operation mode of the air conditioner, and the second obtaining module obtains the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature, and the initial value of the input power voltage, so that the control module controls the air conditioner to enter the over-frequency operation function when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature, and the initial value of the input power voltage satisfy the entry condition of the over-frequency operation function corresponding to the operation mode. Therefore, the situation that the air conditioner is poor in refrigerating or heating effect under a special use scene can be avoided, the air conditioner is more intelligent, and user experience is improved.
In order to implement the above embodiments, the present invention further provides an electronic device, including: the air conditioner control method comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the processor executes the program to realize the air conditioner control method of the embodiment.
According to the electronic equipment provided by the embodiment of the invention, the processor executes the computer program stored in the memory, so that the condition that the air conditioner has poor refrigerating or heating effect in a special use scene can be avoided, the air conditioner is more intelligent, and the user experience is improved.
In order to implement the above-described embodiments, the present invention also proposes a non-transitory computer-readable storage medium having stored thereon a computer program, which is executed by a processor, for implementing the air-conditioning control method of the foregoing embodiments.
The non-transitory computer readable storage medium of the embodiment of the invention can avoid the situation that the air conditioner has poor cooling or heating effect in a special use scene by executing the stored computer program, so that the air conditioner is more intelligent, and the user experience is improved.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.
Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.
Claims (18)
1. An air conditioner control method is characterized by comprising the following steps:
after the air conditioner is started to operate, acquiring an operation mode of the air conditioner;
acquiring an initial value of indoor environment temperature, an initial value of outdoor environment temperature and an initial value of input power supply voltage;
if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage meet the entry condition of the over-frequency operation function corresponding to the operation mode, controlling the air conditioner to enter the over-frequency operation function, wherein the controlling the air conditioner to enter the over-frequency operation function comprises:
controlling the air conditioner to run a preset conventional running time corresponding to the running mode according to a conventional running frequency corresponding to the conventional mode in the running mode;
acquiring a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current;
if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode;
wherein the operation modes include: a cooling mode or a heating mode;
the over-frequency running function entering condition corresponding to the refrigeration mode comprises the following steps: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value;
the entry condition of the over-frequency running function corresponding to the heating mode comprises the following steps: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value.
2. The air conditioner control method according to claim 1, further comprising:
and if the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage do not meet the entry condition of the over-frequency operation function corresponding to the operation mode, controlling the air conditioner to operate according to a normal mode.
3. The air conditioner control method according to claim 1, further comprising:
and if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
4. The air conditioner control method according to claim 1 or 3, wherein the operation mode includes: a cooling mode or a heating mode;
the over-frequency mode operating conditions corresponding to the refrigeration mode comprise: the difference value between the first process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the first process value of the outlet temperature of the condenser of the outdoor unit is smaller than the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit, the first process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the running current is smaller than a preset refrigeration running current threshold value;
the operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value between the heating set temperature and the first process value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the first process value of the outlet temperature of the condenser of the outdoor unit is larger than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the first process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the first process value of the operating current is smaller than a preset heating operating current threshold value.
5. The air conditioner control method according to claim 1, wherein after controlling the air conditioner to run a preset turbo running time corresponding to the run mode according to the turbo running frequency corresponding to the turbo mode in the run mode, the method further comprises:
acquiring a second process value of indoor environment temperature, a second process value of outdoor environment temperature, a second process value of input power supply voltage, a second process value of the middle temperature of an indoor unit evaporator coil, a second process value of outdoor unit condenser outlet temperature, a second process value of compressor exhaust temperature and a second process value of running current;
if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the evaporator coil of the indoor unit, the second process value of the outlet temperature of the condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current meet the repeated running condition corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or, continuously executing the step of controlling the air conditioner to operate the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode.
6. The air conditioner control method according to claim 5, further comprising:
and if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of an evaporator coil of the indoor unit, the second process value of the outlet temperature of a condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
7. The air conditioner control method according to claim 5 or 6, wherein the operation mode includes: a cooling mode or a heating mode;
the repetitive operation condition corresponding to the cooling mode includes: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the second process value of the outdoor unit condenser outlet temperature is less than the preset refrigeration outdoor unit condenser outlet temperature threshold, the second process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the running current is smaller than a preset refrigeration running current threshold value;
the repeated operation condition corresponding to the heating mode comprises: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the second process value of the outlet temperature of the condenser of the outdoor unit is greater than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the second process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the second process value of the operating current is smaller than a preset heating operating current threshold value.
8. The air conditioner control method according to claim 5, wherein the turbo mode operation condition further includes: the frequency of the air conditioner running according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode is smaller than a preset over-frequency mode frequency threshold value;
the repetitive operation condition further includes: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode.
9. An air conditioning control device, characterized by comprising:
the first acquisition module is used for acquiring the operation mode of the air conditioner after the air conditioner is started to operate;
the second acquisition module is used for acquiring an initial value of the indoor environment temperature, an initial value of the outdoor environment temperature and an initial value of the input power supply voltage;
a control module, configured to control the air conditioner to enter the over-frequency operation function when an initial value of the indoor environment temperature, an initial value of the outdoor environment temperature, and an initial value of the input power voltage satisfy an entry condition of the over-frequency operation function corresponding to the operation mode, where the control module controls the air conditioner to enter the over-frequency operation function includes:
controlling the air conditioner to run a preset conventional running time corresponding to the running mode according to a conventional running frequency corresponding to the conventional mode in the running mode;
acquiring a first process value of indoor environment temperature, a first process value of outdoor environment temperature, a first process value of input power supply voltage, a first process value of the temperature of the middle part of an indoor unit evaporator coil, a first process value of the outlet temperature of an outdoor unit condenser, a first process value of the exhaust temperature of a compressor and a first process value of running current;
if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to run the preset over-frequency running time corresponding to the running mode according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode;
wherein the operation modes include: a cooling mode or a heating mode;
the over-frequency running function entering condition corresponding to the refrigeration mode comprises the following steps: the difference value between the initial value of the indoor environment temperature and the refrigeration set temperature is greater than a preset refrigeration temperature difference threshold value, the initial value of the input power supply voltage is greater than a preset refrigeration input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or greater than a preset first refrigeration outdoor environment temperature threshold value and is equal to or less than a preset second refrigeration outdoor environment temperature threshold value;
the entry condition of the over-frequency running function corresponding to the heating mode comprises the following steps: the difference value between the heating set temperature and the initial value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, the initial value of the input power supply voltage is larger than a preset heating input power supply voltage threshold value, and the initial value of the outdoor environment temperature is equal to or larger than a first heating outdoor environment temperature threshold value and is equal to or smaller than a second heating outdoor environment temperature threshold value.
10. The climate control device of claim 9, wherein the control module is further configured to: and controlling the air conditioner to operate according to a normal mode when the initial value of the indoor environment temperature, the initial value of the outdoor environment temperature and the initial value of the input power supply voltage do not meet the entry condition of the over-frequency operation function corresponding to the operation mode.
11. The climate control device of claim 9, wherein the control module is further configured to: and if the first process value of the indoor environment temperature, the first process value of the outdoor environment temperature, the first process value of the input power supply voltage, the first process value of the middle temperature of an evaporator coil of the indoor unit, the first process value of the outlet temperature of a condenser of the outdoor unit, the first process value of the exhaust temperature of the compressor and the first process value of the running current do not meet the operating condition of the over-frequency mode corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
12. The air conditioning control apparatus according to claim 9 or 11, characterized in that the operation mode includes: a cooling mode or a heating mode;
the over-frequency mode operating conditions corresponding to the refrigeration mode comprise: the difference value between the first process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the first process value of the outlet temperature of the condenser of the outdoor unit is smaller than the preset outlet temperature threshold value of the condenser of the refrigeration outdoor unit, the first process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the first process value of the running current is smaller than a preset refrigeration running current threshold value;
the operating conditions of the over-frequency mode corresponding to the heating mode comprise: the difference value between the heating set temperature and the first process value of the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the first process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the first process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the first process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the first process value of the outlet temperature of the condenser of the outdoor unit is larger than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the first process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the first process value of the operating current is smaller than a preset heating operating current threshold value.
13. The air conditioner control device according to claim 9, wherein the control module controls the air conditioner to operate according to the turbo frequency operation frequency corresponding to the turbo frequency mode in the operation mode, and after operating the preset turbo frequency operation time corresponding to the operation mode, the control module is further configured to:
acquiring a second process value of indoor environment temperature, a second process value of outdoor environment temperature, a second process value of input power supply voltage, a second process value of the middle temperature of an indoor unit evaporator coil, a second process value of outdoor unit condenser outlet temperature, a second process value of compressor exhaust temperature and a second process value of running current;
if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of the evaporator coil of the indoor unit, the second process value of the outlet temperature of the condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current meet the repeated running condition corresponding to the running mode, controlling the air conditioner to continuously execute the step of controlling the air conditioner to run the preset normal running time corresponding to the running mode according to the normal running frequency corresponding to the normal mode in the running mode, or, continuously executing the step of controlling the air conditioner to operate the preset overclocking operation time corresponding to the operation mode according to the overclocking operation frequency corresponding to the overclocking mode in the operation mode.
14. The climate control device of claim 13, wherein the control module is further configured to:
and if the second process value of the indoor environment temperature, the second process value of the outdoor environment temperature, the second process value of the input power supply voltage, the second process value of the middle temperature of an evaporator coil of the indoor unit, the second process value of the outlet temperature of a condenser of the outdoor unit, the second process value of the exhaust temperature of the compressor and the second process value of the running current do not meet the repeated running condition corresponding to the running mode, controlling the air conditioner to exit the over-frequency running function and run according to a normal mode.
15. The air conditioning control apparatus according to claim 13 or 14, characterized in that the operation mode includes: a cooling mode or a heating mode;
the repetitive operation condition corresponding to the cooling mode includes: the difference value between the second process value of the indoor environment temperature and the refrigeration set temperature is larger than a preset refrigeration temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset refrigeration input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than a preset first outdoor ambient temperature threshold and equal to or less than a preset second outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is larger than the preset temperature threshold value of the middle part of the evaporator coil of the indoor unit for refrigeration, and the second process value of the outdoor unit condenser outlet temperature is less than the preset refrigeration outdoor unit condenser outlet temperature threshold, the second process value of the compressor exhaust temperature is smaller than a preset refrigeration compressor exhaust temperature threshold value, and the second process value of the running current is smaller than a preset refrigeration running current threshold value;
the repeated operation condition corresponding to the heating mode comprises: the difference value of the second process value of the heating set temperature and the indoor environment temperature is larger than a preset heating temperature difference threshold value, and the second process value of the input supply voltage is greater than a preset heating input supply voltage threshold, and the second process value of the outdoor ambient temperature is equal to or greater than the first heating outdoor ambient temperature threshold and equal to or less than the second heating outdoor ambient temperature threshold, and the second process value of the temperature of the middle part of the evaporator coil of the indoor unit is smaller than the preset temperature threshold value of the middle part of the evaporator coil of the heating indoor unit, and the second process value of the outlet temperature of the condenser of the outdoor unit is greater than the preset outlet temperature threshold value of the condenser of the heating outdoor unit, and the second process value of the compressor exhaust temperature is smaller than a preset heating compressor exhaust temperature threshold value, and the second process value of the operating current is smaller than a preset heating operating current threshold value.
16. The air conditioning control apparatus according to claim 13, wherein the overfrequency mode operating condition further includes: the frequency of the air conditioner running according to the over-frequency running frequency corresponding to the over-frequency mode in the running mode is smaller than a preset over-frequency mode frequency threshold value;
the repetitive operation condition further includes: and the frequency of the air conditioner running according to the overclocking running frequency corresponding to the overclocking mode in the running mode is less than the frequency threshold of the overclocking mode.
17. An electronic device, comprising: a memory, a processor and a computer program stored on the memory and executable on the processor, the processor executing the program to implement the air conditioner control method according to any one of claims 1 to 8.
18. A non-transitory computer-readable storage medium having a computer program stored thereon, wherein the program is executed by a processor for implementing the air conditioning control method according to any one of claims 1 to 8.
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CN112146237B (en) * | 2019-06-28 | 2022-07-19 | 青岛海尔空调器有限总公司 | Method and device for controlling operation of air conditioner and air conditioner |
CN110341434B (en) * | 2019-07-30 | 2021-06-25 | 青岛海立电机有限公司 | Rapid refrigeration control method of parking air conditioner |
CN110341433B (en) * | 2019-07-30 | 2021-06-25 | 青岛海立电机有限公司 | Rapid heating control method of parking air conditioner |
CN110454951B (en) * | 2019-08-05 | 2021-05-25 | 广东美的制冷设备有限公司 | Air conditioning system and control method thereof |
CN110469953B (en) * | 2019-08-26 | 2021-07-16 | 广东美的制冷设备有限公司 | Detection method for exhaust temperature sensor of air conditioner, air conditioner and medium |
CN113650469B (en) * | 2021-07-19 | 2024-05-24 | 青岛海尔空调器有限总公司 | Parking air conditioner and control method thereof |
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