CN115013945B - Air conditioner control method, device, air conditioner, storage medium and program product - Google Patents

Abstract

The present application belongs to the field of household electrical appliance technology, and specifically relates to an air conditioning control method, device, air conditioner, storage medium and program product. The present application aims to solve the problem of single control mode and low control efficiency of existing air conditioning. The air conditioning control method provided by the present application is applied to an air conditioner including a water-washing fresh air module, and the method includes: obtaining outdoor humidity and outdoor temperature; according to the outdoor humidity and outdoor temperature, determining the control strategy of the electric fan and electric heating component of the water-washing fresh air module, realizing adaptive control of the air conditioning water-washing fresh air module based on outdoor temperature and humidity, improving the intelligence and efficiency of air conditioning control, and at the same time, the water-washing fresh air module based on the air conditioner improves the comfort of the environment and improves the user experience.

Description

Air conditioning control method, device, air conditioning, storage medium and program product

Technical Field

The present application belongs to the technical field of household appliances, and specifically relates to an air-conditioning control method, device, air-conditioning, storage medium and program product.

Background technique

With the continuous improvement of living standards, people's requirements for indoor environmental comfort are getting higher and higher. Air conditioners, also known as air conditioners, can not only be used for indoor heating, but also improve indoor air. By installing air conditioners indoors, the comfort of the indoor environment can be improved.

In the prior art, the air conditioner can operate in multiple modes, such as heating mode, dehumidification mode, fresh air mode, etc. The control parameters of the air conditioner in each mode are all default parameters, which leads to a single air conditioner control method. In some cases, users are required to manually adjust various parameters, and the control efficiency is low, which cannot meet user needs.

Summary of the invention

In order to solve the above-mentioned problems in the prior art, that is, to solve the problems of single existing air-conditioning control mode and low control efficiency, the present application provides an air-conditioning control method, device, air-conditioning, storage medium and program product. For scenes with lower temperatures, such as winter, a control strategy for a water-washed fresh air module of the air-conditioning is provided for adaptively controlling the air-conditioning based on outdoor temperature and outdoor humidity, which improves the richness and efficiency of air-conditioning control and, at the same time, improves the air-conditioning's ability to regulate the indoor environment and reduces energy consumption.

In a first aspect, an embodiment of the present application provides an air conditioning control method, which is applicable to an air conditioning including a water-washed fresh air module, and the method includes:

Obtain outdoor humidity and outdoor temperature; determine the control strategy of the electric fan and electric heating component of the water-washing fresh air module based on the outdoor humidity and outdoor temperature.

Optionally, according to the outdoor humidity and the outdoor temperature, a control strategy of the electric fan and the electric heating component of the water-washing fresh air module is determined, including:

When the outdoor humidity is greater than the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the first rotation speed; when the outdoor humidity is less than or equal to the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the second rotation speed.

Optionally, according to the outdoor humidity and the outdoor temperature, a control strategy of the electric fan and the electric heating component of the water-washing fresh air module is determined, including:

When the outdoor temperature is lower than the first temperature, the fresh air function of the water-washing fresh air module is turned off; when the outdoor temperature is lower than the second temperature and greater than or equal to the first temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the first gear; when the outdoor temperature is lower than the third temperature and greater than or equal to the second temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the second gear.

Optionally, the water-washing fresh air module includes a first valve, which is arranged in the fresh air duct of the air conditioner and closes the fresh air function of the water-washing fresh air module, including:

Close the first valve.

Optionally, when the outdoor temperature is lower than the first temperature, after turning off the fresh air function of the water-washing fresh air module, the method further includes:

Determine that the rotation speed of the electric fan of the water-washing fresh air module is the third rotation speed.

Optionally, get the outdoor humidity and outdoor temperature, including:

Based on a WiFi (Wireless Fidelity) module of the air conditioner, weather information of the area where the air conditioner is located is obtained; based on the weather information, the outdoor humidity and outdoor temperature are determined.

Optionally, get the outdoor humidity and outdoor temperature, including:

Based on the WiFi module of the air conditioner, the location information of the air conditioner is sent to a user terminal or a cloud server, so as to obtain weather information corresponding to the location information through the user terminal or the cloud server; based on the WiFi module of the air conditioner, the weather information is obtained, and the outdoor humidity and outdoor temperature are determined based on the weather information.

In a second aspect, an embodiment of the present application further provides an air conditioning control device, the device comprising:

The parameter acquisition module is used to obtain outdoor humidity and outdoor temperature; the control strategy determination module is used to determine the control strategy of the electric fan and electric heating component of the water-washing fresh air module of the air conditioner according to the outdoor humidity and outdoor temperature.

Optionally, the control strategy determination module includes an electric fan control unit, which is used to:

When the outdoor humidity is greater than the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the first rotation speed; when the outdoor humidity is less than or equal to the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the second rotation speed.

Optionally, the control strategy determination module further includes an electric heating component control unit, which is used to:

When the outdoor temperature is lower than the first temperature, the fresh air function of the water-washing fresh air module is turned off; when the outdoor temperature is lower than the second temperature and greater than or equal to the first temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the first gear; when the outdoor temperature is lower than the third temperature and greater than or equal to the second temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the second gear.

Optionally, the water-washing fresh air module includes a first valve, which is arranged in the fresh air duct of the air conditioner. When the outdoor temperature is lower than the first temperature, the electric heating component control unit is used to:

Close the first valve.

Optionally, when the outdoor temperature is lower than the first temperature, the device further comprises:

The second electric fan control unit is used to determine that the rotation speed of the electric fan of the water-washing fresh air module is a third rotation speed after turning off the fresh air function of the water-washing fresh air module.

Optional parameter acquisition module, specifically used for:

Based on the WiFi module of the air conditioner, weather information of the area where the air conditioner is located is obtained; based on the weather information, the outdoor humidity and outdoor temperature are determined.

Optional parameter acquisition module, specifically used for:

Based on the WiFi module of the air conditioner, the location information of the air conditioner is sent to a user terminal or a cloud server, so as to obtain weather information corresponding to the location information through the user terminal or the cloud server; based on the WiFi module of the air conditioner, the weather information is obtained, and the outdoor humidity and outdoor temperature are determined based on the weather information.

In the third aspect, the embodiment of the present application also provides an air conditioner, comprising: a fresh air duct, a water-washed fresh air module, a memory and at least one processor; the water-washed fresh air module comprises a water-washing module and a fresh air module, the water-washing module comprises an electric fan, a water-spinning motor, a water tank and a spray hole; the fresh air module comprises an electric heating component and an air outlet, the electric heating component is arranged in the fresh air duct, and is used to heat the outdoor air circulating in the fresh air duct; the memory stores computer execution instructions; the at least one processor executes the computer execution instructions stored in the memory, so that the at least one processor executes the air conditioning control method provided in any embodiment corresponding to the first aspect of the present application.

In a fourth aspect, an embodiment of the present application further provides a computer-readable storage medium, in which computer execution instructions are stored. When a processor executes the computer execution instructions, an air conditioning control method provided in any embodiment corresponding to the first aspect of the present application is implemented.

In a fifth aspect, an embodiment of the present application further provides a computer program product, including a computer program, which, when executed by a processor, implements the air conditioning control method provided in any embodiment corresponding to the first aspect of the present application.

Those skilled in the art will understand that the air conditioning control method, device, air conditioner, storage medium and program product provided in the embodiments of the present application, for an air conditioner including a water-washed fresh air module, automatically determines the control strategy of each component of the water-washed fresh air module of the air conditioner based on the outdoor temperature and outdoor humidity, without the need for manual setting by the user, thereby improving the efficiency and intelligence of air conditioning control while reducing energy consumption, and by operating the electric fan and electric heating components of the water-washed fresh air module in the corresponding mode, it can purify the indoor air and improve the circulation of the indoor air, and by heating the fresh air, it can avoid the indoor temperature drop caused by the circulation of the fresh air.

BRIEF DESCRIPTION OF THE DRAWINGS

The preferred embodiments of the air conditioning control method, device, water heater, storage medium and program product of the present application are described below with reference to the accompanying drawings. The drawings herein are incorporated into and constitute a part of the specification, illustrate embodiments consistent with the present disclosure, and together with the specification are used to explain the principles of the present application. The drawings are:

FIG1 is a diagram of an application scenario of the air conditioning control method provided in an embodiment of the present application;

FIG2 is a flow chart of an air conditioning control method provided by an embodiment of the present application;

FIG3 is a schematic diagram of the structure of the water-wash fresh air module in the embodiment shown in FIG2 of the present application;

FIG4 is a flow chart of an air conditioning control method provided by another embodiment of the present application;

FIG5 is a flow chart of an air conditioning control method provided by the embodiment shown in FIG4 of the present application;

FIG6 is a schematic diagram of the structure of an air conditioning control device provided by an embodiment of the present application;

FIG. 7 is a schematic diagram of the structure of an air conditioner provided in one embodiment of the present application.

Detailed ways

In order to make the purpose, technical solutions and advantages of this application clearer, the technical solutions in the embodiments of this application will be clearly and completely described below in combination with the embodiments of this application. Obviously, the described embodiments are part of the embodiments of this application, not all of them. Based on the embodiments in this application, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of this application.

The technical solution of the present application and how the technical solution of the present application solves the above-mentioned technical problems are described in detail below with specific embodiments. The following specific embodiments can be combined with each other, and the same or similar concepts or processes may not be repeated in some embodiments. The embodiments of the present application will be described below in conjunction with the accompanying drawings.

The application scenarios of the embodiments of the present application are explained below:

Figure 1 is an application scenario diagram of the air conditioning control method provided in an embodiment of the present application. As shown in Figure 1, when the outdoor temperature is low, such as the temperature is less than 0°C, the user usually needs to turn on the air conditioner 110 in the room 100 to adjust the indoor temperature to a more suitable temperature, such as 22°C.

In the case of heating, the air conditioner 110 generally provides several optional modes, such as heating mode, sleep mode and automatic mode, etc. In each mode, the air conditioner 110 has different target temperatures, wind sweeping modes, etc. The user can manually select a corresponding mode through the remote controller 120 or the user terminal 130, or control the operation of the air conditioner 110 by setting various adjustable parameters.

However, in the above method, the user needs to select the corresponding mode and adjust the parameters based on the current environment, and the air conditioning control efficiency is low. Moreover, the user is not a professional and cannot accurately control the air conditioning. In addition, the several default modes provided by the air conditioner 110 usually have fixed control parameters for the air conditioner 110, and the adjustment of the indoor environment is not targeted, and the adjustment effect is poor, which cannot meet the needs of users.

In response to the above problems, the air-conditioning control method provided in the embodiment of the present application is for an air-conditioning including a water-washed fresh air module. The main concept of the control method is: through the outdoor temperature and outdoor humidity, the control strategy of the water-washed fresh air module of the air-conditioning is automatically determined, so as to automatically control the water-washed fresh air module without the need for users to make decisions, thereby improving the efficiency of air-conditioning control; and the control strategy is formulated based on the specific conditions of the current environment, thereby improving the targetedness and adaptability of the control. At the same time, based on the water-washed fresh air module, fresh air can be introduced into the room to improve the fluidity of the indoor air, and the indoor air can be purified through the output water curtain to improve the comfort of the indoor environment.

FIG2 is a flow chart of an air conditioning control method provided by an embodiment of the present application. The air conditioning control method provided by the embodiment of the present application is applicable to an air conditioning including a water-washing fresh air module, and can be executed by a CPU (Central Processing Unit) of the air conditioning. The water-washing fresh air module can spray a water curtain and introduce outdoor fresh air into the room, thereby purifying the indoor air and improving air circulation. As shown in FIG2, the air conditioning control method includes the following steps:

Step S201, obtaining outdoor humidity and outdoor temperature.

The outdoor humidity may be the outdoor relative humidity corresponding to the collection time, and the outdoor temperature may be the outdoor temperature corresponding to the collection time, in degrees Celsius.

Specifically, the outdoor temperature and outdoor humidity can be obtained by various sensors provided on the air conditioner, such as a temperature sensor and a humidity sensor. The various sensors can be provided on an external unit of the air conditioner.

Specifically, the air conditioner can obtain the outdoor humidity and the outdoor temperature at a preset time interval. The preset time interval can be 4 hours, 2 hours, 1 hour, 30 minutes or other values. Further, the preset time can be determined according to the location information of the air conditioner and the current season.

Furthermore, weather information of the area where the air conditioner is located may be obtained, and then outdoor temperature and outdoor humidity may be extracted from the weather information.

Furthermore, the outdoor humidity and outdoor temperature may be obtained after the air conditioner is turned on or the user selects an air conditioner operation mode.

Step S202, determining the control strategy of the electric fan and the electric heating component of the water-washing fresh air module according to the outdoor humidity and the outdoor temperature.

Among them, the water-washing fresh air module has a water-washing function and a fresh air function. The water-washing function means that the air conditioner has the function of spraying a water curtain to purify the air conditioner and increase the air humidity, while the fresh air function means that the air conditioner specifically introduces outdoor fresh air into the room for air circulation.

Specifically, the water-washing fresh air module includes a water-washing module and a fresh air module. The water-washing module includes an electric fan, a water-spinning motor, a water tank and a spray hole, and the water tank is provided with an air inlet and an air outlet; the water-spinning component is arranged in the water tank, the top of the water-spinning component is closed, and its bottom is located below the water surface in the water tank, and the side wall of the water-spinning component located above the water surface in the water tank is provided with a spray hole; the water-spinning motor is transmission-connected with the water-spinning component to drive the water-spinning component to rotate, so that the water-spinning component forms a negative pressure, and the water in the water tank is sucked in from the bottom of the water-spinning component, and sprayed out through the spray hole to form a water curtain, so as to humidify the air; the electric fan is connected with the air inlet or the air outlet to drive the air into the water tank from the air inlet, and the air in the water tank (the humidified air) is discharged from the air outlet, so as to improve the humidity of the air, and at the same time, the air can be cleaned to improve the cleanliness of the air. The fresh air module includes an electric heating component and an air outlet. The electric heating component is arranged in the fresh air duct and is used to heat the outdoor air circulating in the fresh air duct.

Exemplarily, FIG3 is a schematic diagram of the partial structure of the water-washing fresh air module in the embodiment shown in FIG2 of the present application. As shown in FIG3, the water-washing fresh air module is placed indoors, and includes a main body 310, an electric fan 320, and an electric heating assembly 330. The above-mentioned water tank, water-spinning motor and other components can be placed in the main body 310. When the fresh air function needs to be turned on, the outdoor fresh air (or fresh air) enters the room through the fresh air duct 40, and the electric heating assembly 330 heats the air in the fresh air duct 40 at a set gear. When the water-washing function needs to be turned on, the electric fan 320 will run at a set speed, so that the water curtain is sprayed out from the air outlet to purify and humidify the air.

Of course, the water-washing fresh air module may also adopt other structures, and this application does not limit the structure of the water-washing module.

Specifically, the higher the speed of the electric fan, the greater the amount of water curtain sprayed by the water-washing fresh air module, and the faster the indoor air humidity increases. Therefore, the outdoor humidity is inversely correlated with the speed of the electric fan. The lower the outdoor temperature, the lower the temperature of the outdoor air (or fresh air) passing through the fresh air duct, and the higher the gear of the electric heating component, the more cold air needs to be quickly heated to a preset temperature, such as 5°C. Therefore, the outdoor temperature is inversely correlated with the gear of the electric fan.

Specifically, the gear position of the electric heating component of the water-washing fresh air module and the speed of the electric fan can be determined according to the outdoor humidity and outdoor temperature.

Furthermore, the gear position of the electric heating component of the water-washing fresh air module, the speed of the electric fan, and the operating time of the electric heating component and the electric fan can be determined according to the outdoor humidity and outdoor temperature.

For example, assuming the outdoor humidity is 35% and the temperature is -3°C, the speed of the electric fan is 1000r/min, and the electric fan can adopt an intermittent working system, such as working for 20 minutes and standing by for 5 minutes; the gear of the electric heating component is low, and the running time is 30 minutes.

Specifically, the gear position of the electric heating component of the water-washing fresh air module and the speed of the electric fan can be determined according to the first corresponding relationship, outdoor humidity and outdoor temperature. The first corresponding relationship is used to describe the corresponding relationship between each outdoor humidity, outdoor temperature, and the gear position of the electric heating component of the water-washing fresh air module and the speed of the electric fan.

Exemplarily, Table 1 is the first correspondence table in the embodiment shown in FIG. 2 of the present application. The correspondence between outdoor humidity, outdoor temperature, the gear position of the electric heating component of the water-washing fresh air module, and the speed of the electric fan is shown in Table 1.

Table 1 First correspondence table

Furthermore, the control strategy of the electric blower of the water-washing fresh air module can be determined according to the outdoor humidity; and the gear position of the electric heating component of the water-washing fresh air module can be determined based on the outdoor temperature.

Furthermore, the speed of the electric fan of the water-washing fresh air module can be adjusted according to the outdoor particle concentration. Thus, when the outdoor particle concentration is greater than a preset concentration, the speed of the electric fan is increased based on the particle concentration to improve the degree of air purification.

Specifically, after determining the control strategy of each component of the water-washing fresh air module, corresponding instructions can be generated so that the water-washing fresh air module operates based on the control strategy to purify indoor air and improve indoor humidity and air circulation.

The air conditioning control method provided in the embodiment of the present application is for an air conditioner including a water-washed fresh air module. Based on the outdoor temperature and outdoor humidity, the method automatically determines the control strategy of each component of the water-washed fresh air module of the air conditioner without the need for manual setting by the user, thereby improving the efficiency and intelligence of the air conditioning control while reducing energy consumption. By operating the electric fan and electric heating components of the water-washed fresh air module in the corresponding mode, the indoor air can be purified and the circulation of the indoor air can be improved. By heating the fresh air, the indoor temperature can be prevented from dropping due to the circulation of the fresh air.

FIG4 is a flow chart of an air conditioning control method provided by another embodiment of the present application. This embodiment is based on the embodiment shown in FIG2 and further refines step S201 and step S202. As shown in FIG4, the air conditioning control method provided by this embodiment includes the following steps:

Step S401, based on the WiFi module of the air conditioner, obtaining weather information of the area where the air conditioner is located.

Specifically, the weather information of the area where the air conditioner is located can be obtained through the meteorological station based on the WiFi module of the air conditioner. Alternatively, the weather information of the area where the user terminal is located can be obtained through the relevant APP (Application) of the user terminal, and the user terminal and the air conditioner are under the same WiFi, and then the weather information is used as the weather information of the area where the air conditioner is located.

Step S402: determining the outdoor humidity and outdoor temperature based on the weather information.

Specifically, the required outdoor temperature and outdoor humidity can be extracted from the weather information. The outdoor temperature and outdoor humidity can be extracted through technologies such as keyword recognition and text recognition.

In some embodiments, the air conditioner does not have an Internet connection function and cannot query the weather information of the meteorological station in real time, but the outdoor temperature and outdoor humidity can be obtained based on the corresponding location information stored in the air conditioner. Specifically:

Based on the WiFi module of the air conditioner, the location information of the air conditioner is sent to a user terminal or a cloud server, so as to obtain weather information corresponding to the location information through the user terminal or the cloud server; based on the WiFi module of the air conditioner, the weather information is obtained, and the outdoor humidity and outdoor temperature are determined based on the weather information.

The location information of the air conditioner may be the location information of the user terminal when the user terminal is bound to the air conditioner for the first time.

Step S403, when the outdoor humidity is greater than the first humidity, determining the rotation speed of the electric fan of the water-washing fresh air module to be the first rotation speed.

Step S404: when the outdoor humidity is less than or equal to the first humidity, determine that the rotation speed of the electric fan of the water-washing fresh air module is a second rotation speed.

The first humidity may be a default humidity, such as 40%, 45%, which may be set by the user. It may also be determined according to parameters related to the water washing function of the water washing fresh air module of the air conditioner. The first speed is less than the second speed. The first speed may be a low gear speed, while the second speed is a high gear speed.

For example, the first rotational speed may be 750 r/min, 800 r/min or other lower rotational speeds, and the second rotational speed may be 1100 r/min, 1000 r/min or other higher rotational speeds.

Specifically, when the outdoor temperature is lower than the third temperature, after obtaining the outdoor humidity, it can be determined whether the outdoor humidity is higher than the first humidity. If so, the speed of the electric fan of the water-washing fresh air module is determined to be the first speed; if not, the speed of the electric fan of the water-washing fresh air module is determined to be the second speed.

Specifically, this application is aimed at scenes with low outdoor temperatures, such as winter, or scenes with temperatures below 0°C. Usually, when the outdoor temperature is low, the air humidity will not be too high, such as below 65%. Therefore, if the outdoor temperature is less than 0°C, it is only necessary to determine whether the outdoor time period is less than the first humidity, without setting multiple gears for determination.

If the outdoor temperature is high, such as above 10°C, two gears can be set, namely the first humidity and the second humidity, wherein the second humidity is greater than the first humidity. Therefore, when the outdoor humidity is greater than the second humidity, the water washing function of the water-washing fresh air module is turned off, such as turning off the electric fan and the water-spinning motor; when the outdoor humidity is greater than the first humidity and less than or equal to the second humidity, the speed of the electric fan of the water-washing fresh air module is determined to be the first speed; when the outdoor humidity is less than or equal to the first humidity, the speed of the electric fan of the water-washing fresh air module is determined to be the second speed.

Step S405, when the outdoor temperature is lower than the first temperature, turning off the fresh air function of the water-washing fresh air module.

The first temperature may be a relatively low temperature, such as -20°C, -15°C or other temperature values.

Specifically, when the outdoor temperature is lower than the first temperature, the electric heating component cannot heat the outdoor air to a suitable temperature in time within its rated power range, resulting in a low temperature of the fresh air entering the room, causing indoor temperature fluctuations, and the fresh air with a large temperature difference will cause users to feel cold. Therefore, in this case, the fresh air function needs to be turned off to prevent the low-temperature fresh air from flowing into the room. At the same time, the low-temperature fresh air will also affect the operation of the air conditioner, such as ice formation, which may cause pipe rupture.

Optionally, the water-washing fresh air module includes a first valve, which is arranged in the fresh air duct of the air conditioner and closes the fresh air function of the water-washing fresh air module, including:

Close the first valve.

Specifically, the first valve may be an electric valve. When the electric valve is closed, outdoor air cannot pass through the fresh air duct, thereby closing the fresh air function.

Optionally, when the outdoor temperature is lower than the first temperature, after the fresh air function of the water-washing fresh air module is turned off, the speed of the electric fan of the water-washing fresh air module can be directly determined to be the third speed, thereby eliminating the need to perform steps related to determining the speed of the electric fan based on the outdoor humidity, such as steps S403 and S404.

The third speed may be a high-speed speed, such as 1100 r/min, 1000 r/min or other values.

Specifically, when the outdoor temperature is low, such as less than -18°C, the air conditioner is in a high-power heating mode. Long-term operation in this mode will cause the indoor air to dry out. Therefore, in this case, the speed of the electric fan of the water-washing fresh air module can be directly set to a higher speed, that is, the third speed, thereby effectively improving the humidity of the indoor air and improving the user experience.

Step S406, when the outdoor temperature is lower than the second temperature and higher than or equal to the first temperature, determine that the gear position of the electric heating component of the water-washing fresh air module is the first gear position.

Step S407, when the outdoor temperature is lower than the third temperature and higher than or equal to the second temperature, determine that the gear position of the electric heating component of the water-washing fresh air module is the second gear position.

The second temperature is higher than the first temperature, the third temperature is higher than the second temperature, the second temperature may be -10°C, -8°C or other values, the third temperature may be 0°C, 3°C or other values. The first gear may be a higher gear, the second gear is a lower gear, the power corresponding to the first gear is greater than the power corresponding to the second gear, for example, the first gear may be 300W, and the second gear may be 150W.

Furthermore, if the electric heating component has 3 or more adjustable gears, a corresponding number of temperature thresholds can be set, such as the fourth temperature, the fifth temperature, etc., so that when the outdoor temperature is in a certain temperature range, the gear of the electric heating component is the corresponding gear.

It should be understood that the above parameters such as the first temperature, the second temperature, the third temperature, the first humidity, the second humidity, etc. can be adjusted by the user within a certain range according to their own needs.

Exemplarily, Figure 5 is a flow chart of the air-conditioning control method provided by the embodiment shown in Figure 4 of the present application. As shown in Figure 5, the air-conditioning method includes the following steps: obtaining the current outdoor temperature and outdoor humidity; if the outdoor humidity is ≤40%, controlling the electric fan speed to a high-speed speed, such as 1100r/min; if the indoor humidity is >40%, controlling the electric fan speed to a low-speed speed, such as 750r/min; if -10℃≤outdoor temperature<0℃, controlling the electric heating component to turn on a low gear, such as 150W; if -20℃≤outdoor temperature<-10℃, controlling the electric heating component to turn on a high gear, such as 300W; if the outdoor temperature is <-20℃, controlling the fresh air function to be turned off.

In this embodiment, the rotation speed of the electric fan of the water-washing fresh air module of the air conditioner and the gear or power of the electric heating component are determined by the interval of the outdoor temperature and the interval of the outdoor humidity, so that the control strategy of the water-washing fresh air module is adaptively formulated based on the specific conditions of the environment, thereby improving the control efficiency of the water-washing fresh air module and the intelligence level of air-conditioning control, and reducing the power consumption of the air conditioner. At the same time, the water-washing function and the fresh air function of the water-washing fresh air module are used to purify the indoor air, so that the indoor humidity is kept at a suitable level, the circulation of the indoor air is enhanced, and the comfort of the indoor environment is improved.

Those skilled in the art can understand that all or part of the steps of implementing the above-mentioned method embodiments can be completed by hardware related to program instructions. The aforementioned program can be stored in a computer-readable storage medium. When the program is executed, the steps of the above-mentioned method embodiments are executed; and the aforementioned storage medium includes: ROM, RAM, disk or optical disk and other media that can store program codes.

FIG6 is a schematic diagram of the structure of an air-conditioning control device provided by an embodiment of the present application. As shown in FIG6 , the air-conditioning control device includes: a parameter acquisition module 610 and a control strategy determination module 620 .

Among them, the state parameter acquisition module 610 is used to obtain outdoor humidity and outdoor temperature; the control strategy determination module 620 is used to determine the control strategy of the electric fan and electric heating component of the water-washing fresh air module of the air conditioner according to the outdoor humidity and outdoor temperature.

Optionally, the control strategy determination module 620 includes an electric fan control unit, which is used to:

When the outdoor humidity is greater than the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the first rotation speed; when the outdoor humidity is less than or equal to the first humidity, the rotation speed of the electric fan of the water-washed fresh air module is determined to be the second rotation speed.

Optionally, the control strategy determination module 620 further includes an electric heating component control unit, which is used to:

When the outdoor temperature is lower than the first temperature, the fresh air function of the water-washing fresh air module is turned off; when the outdoor temperature is lower than the second temperature and greater than or equal to the first temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the first gear; when the outdoor temperature is lower than the third temperature and greater than or equal to the second temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the second gear.

Optionally, the water-washing fresh air module includes a first valve, which is arranged in the fresh air duct of the air conditioner. When the outdoor temperature is lower than the first temperature, the electric heating component control unit is used to:

Close the first valve.

Optionally, when the outdoor temperature is lower than the first temperature, the device further comprises:

The second electric fan control unit is used to determine that the rotation speed of the electric fan of the water-washing fresh air module is a third rotation speed after turning off the fresh air function of the water-washing fresh air module.

Optionally, the parameter acquisition module 610 is specifically used to:

Based on the WiFi module of the air conditioner, weather information of the area where the air conditioner is located is obtained; based on the weather information, the outdoor humidity and outdoor temperature are determined.

Optionally, the parameter acquisition module 610 is specifically used to:

Based on the WiFi module of the air conditioner, the location information of the air conditioner is sent to a user terminal or a cloud server, so as to obtain weather information corresponding to the location information through the user terminal or the cloud server; based on the WiFi module of the air conditioner, the weather information is obtained, and the outdoor humidity and outdoor temperature are determined based on the weather information.

The air conditioning control device provided in the embodiment of the present application can execute the air conditioning control method provided in any embodiment of the present application, and has the corresponding functional modules and beneficial effects of the execution method.

FIG7 is a schematic diagram of the structure of an air conditioner provided by an embodiment of the present application. As shown in FIG7 , the air conditioner includes: a fresh air duct 740, a water-washed fresh air module 750, a memory 710, a processor 720 and a computer program.

Among them, the water-washed fresh air module 750 can be the water-washed fresh air module provided by the embodiment shown in Figure 3 of the present application. The computer program is stored in the memory 710 and is configured to be executed by the processor 720 to implement the air conditioning control method provided by any embodiment corresponding to Figures 2 and 4 of the present application.

The memory 710 and the processor 720 are connected via a bus 730 .

The relevant instructions can be understood by referring to the relevant descriptions and effects corresponding to the steps in FIG. 2 and FIG. 4 , and will not be elaborated on here.

In some embodiments, the air conditioner further includes a WiFi module.

In some embodiments, a first valve is provided in the fresh air duct 740 of the air conditioner. When the first valve is closed, air can be prevented from entering the room through the fresh air duct 740.

The present application also provides a readable storage medium, in which computer-executable instructions are stored. When at least one processor of the air conditioner executes the computer-executable instructions, the air conditioner control method provided in any of the above embodiments is implemented.

The present application also provides a program product, which includes executable instructions stored in a readable storage medium. At least one processor of the air conditioner can read the executable instructions from the readable storage medium, and at least one processor executes the executable instructions so that the air conditioner control device implements the air conditioner control method provided in any of the above embodiments.

In the several embodiments provided in the present application, it should be understood that the disclosed devices and methods can be implemented in other ways. For example, the device embodiments described above are only schematic. For example, the division of modules is only a logical function division. There may be other division methods in actual implementation, such as multiple modules or components can be combined or integrated into another system, or some features can be ignored or not executed. Another point is that the mutual coupling or direct coupling or communication connection shown or discussed can be through some interfaces, indirect coupling or communication connection of devices or modules, which can be electrical, mechanical or other forms.

The modules described as separate components may or may not be physically separated, and the components shown as modules may or may not be physical modules, that is, they may be located in one place or distributed on multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional module in each embodiment of the present application can be integrated into one processing module, or each module can exist physically separately, or two or more modules can be integrated into one module. The above integrated modules can be implemented in the form of hardware or in the form of hardware plus software functional modules.

The above-mentioned integrated module implemented in the form of a software function module can be stored in a computer-readable storage medium. The above-mentioned software function module is stored in a storage medium, including a number of instructions for a computer device (which can be a personal computer, a server, or a network device, etc.) or a processor (English: processor) to perform some steps of the methods of each embodiment of the present application. The aforementioned storage medium includes: U disk, mobile hard disk, read-only memory (English: Read-Only Memory, abbreviated: ROM), random access memory (English: Random Access Memory, abbreviated: RAM), disk or optical disk and other media that can store program codes.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present application, rather than to limit them; although the present application is described in detail with reference to the above embodiments, it should be understood by those skilled in the art that the protection scope of the present application is obviously not limited to these specific implementations. Without departing from the principles of the present application, those skilled in the art may make equivalent changes or substitutions to the relevant technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present application.

Claims (9)

1. An air conditioning control method, characterized in that the method is applied to an air conditioner, the air conditioner includes a water-washed fresh air module, and the method includes: Obtaining outdoor humidity and outdoor temperature at a preset time interval; wherein the preset time interval is determined according to the location information of the air conditioner and the current season; Determine the control strategy of the electric fan and the electric heating component of the water-washing fresh air module according to the outdoor humidity and the outdoor temperature; wherein, when the outdoor temperature is lower than the first temperature, turn off the fresh air function of the water-washing fresh air module; According to the outdoor humidity and the outdoor temperature, a control strategy of the electric fan and the electric heating component of the water-washing fresh air module is determined, including: According to the outdoor humidity, the speed of the electric fan of the water-washing fresh air module is determined; according to the outdoor temperature, the gear position of the electric heating component of the water-washing fresh air module is determined; When the outdoor particle concentration is greater than a preset concentration, the speed of the electric fan of the water-washing fresh air module is adjusted according to the outdoor particle concentration; When the outdoor temperature is lower than the first temperature, after turning off the fresh air function of the water-washing fresh air module, the method further includes: Determine that the rotation speed of the electric blower of the water-washing fresh air module is a third rotation speed; wherein the third rotation speed is a high-speed rotation speed. 2. The method according to claim 1 is characterized in that, according to the outdoor humidity, determining the rotation speed of the electric fan of the water-washing fresh air module comprises: When the outdoor humidity is greater than the first humidity, determining the rotation speed of the electric fan of the water-washing fresh air module to be the first rotation speed; When the outdoor humidity is less than or equal to the first humidity, the rotation speed of the electric fan of the water-washing fresh air module is determined to be a second rotation speed. 3. The method according to claim 1, characterized in that, according to the outdoor temperature, determining the gear position of the electric heating component of the water-washing fresh air module comprises: When the outdoor temperature is lower than the second temperature and greater than or equal to the first temperature, determining that the gear position of the electric heating component of the water-washing fresh air module is the first gear position; When the outdoor temperature is lower than the third temperature and higher than or equal to the second temperature, the gear position of the electric heating component of the water-washing fresh air module is determined to be the second gear position. 4. The method according to claim 3, characterized in that the water-washing fresh air module comprises a first valve, which is arranged in the fresh air duct of the air conditioner, and closes the fresh air function of the water-washing fresh air module, comprising: Close the first valve. 5. The method according to any one of claims 1 to 4, characterized in that obtaining outdoor humidity and outdoor temperature comprises: Based on the WiFi module of the air conditioner, obtaining weather information of the area where the air conditioner is located; Based on the weather information, the outdoor humidity and outdoor temperature are determined. 6. The method according to any one of claims 1 to 4, characterized in that obtaining outdoor humidity and outdoor temperature comprises: Based on the WiFi module of the air conditioner, the location information of the air conditioner is sent to a user terminal or a cloud server, so as to obtain weather information corresponding to the location information through the user terminal or the cloud server; The weather information is acquired based on a WiFi module of the air conditioner, and the outdoor humidity and outdoor temperature are determined based on the weather information. 7. An air conditioning control device, characterized in that the device comprises: A parameter acquisition module, used to acquire outdoor humidity and outdoor temperature at a preset time interval; wherein the preset time interval is determined according to the location information of the air conditioner and the current season; A control strategy determination module, used to determine the control strategy of the electric fan and the electric heating component of the water-washing fresh air module of the air conditioner according to the outdoor humidity and the outdoor temperature; wherein, when the outdoor temperature is lower than the first temperature, the fresh air function of the water-washing fresh air module is turned off; The control strategy determination module is specifically used to determine the speed of the electric fan of the water-washing fresh air module according to the outdoor humidity; determine the gear position of the electric heating component of the water-washing fresh air module according to the outdoor temperature; wherein, when the outdoor particle concentration is greater than a preset concentration, the speed of the electric fan of the water-washing fresh air module is adjusted according to the outdoor particle concentration; When the outdoor temperature is lower than the first temperature, the device further comprises: The second electric fan control unit is used to determine that the rotation speed of the electric fan of the water-washing fresh air module is a third rotation speed after turning off the fresh air function of the water-washing fresh air module; wherein the third rotation speed is a high-speed rotation speed. 8. An air conditioner, characterized by comprising: a fresh air duct, a water-washed fresh air module, a memory and at least one processor; The water-washing fresh air module includes a water-washing module and a fresh air module, wherein the water-washing module includes an electric fan, a water-spinning motor, a water tank and a spray hole; the fresh air module includes an electric heating component and an air outlet, wherein the electric heating component is arranged in the fresh air duct and is used to heat the outdoor air circulating in the fresh air duct; The memory stores computer-executable instructions; The at least one processor executes the computer-executable instructions stored in the memory, so that the at least one processor executes the air conditioning control method according to any one of claims 1 to 6. 9. A computer-readable storage medium, characterized in that the computer-readable storage medium stores computer-executable instructions, and when a processor executes the computer-executable instructions, the air conditioning control method according to any one of claims 1 to 6 is implemented.