WO2024082784A1

WO2024082784A1 - Air conditioner control method and controller

Info

Publication number: WO2024082784A1
Application number: PCT/CN2023/111997
Authority: WO
Inventors: 李雅婷; 孟相宏; 卫洁; 李建萍; 李书佳
Original assignee: 青岛海尔空调器有限总公司; 青岛海尔空调电子有限公司; 海尔智家股份有限公司
Priority date: 2022-10-21
Filing date: 2023-08-09
Publication date: 2024-04-25
Also published as: CN115751589A

Abstract

An air conditioner control method and a controller, relating to the technical field of air conditioner control. The air conditioner control method comprises: upon receipt of a health preservation control instruction, detecting the current operation mode of an air conditioner; and according to the current operation mode, controlling the air conditioner to sequentially enter a corresponding rapid temperature change stage, soft wind stage, or energy-saving and power-saving stage, wherein the wind direction at the rapid temperature change stage is a preset direction in which direct blowing to a target is avoided and the maximum wind flow is achieved, the wind direction at the soft wind stage is an anti-direct-blowing wind direction, and the wind direction at the energy-saving and power-saving stage is the anti-direct-blowing wind direction and the energy-saving and power-saving stage corresponds to a wind supply only mode. Also provided is a controller for implementing the air conditioner control method. The air conditioner control method can improve the comfort of the human body, avoid direct blowing, and satisfy the health preservation requirement of middle-aged and elderly people.

Description

Air conditioning control method and controller

Technical Field

The present invention relates to the technical field of air conditioning control, and in particular to an air conditioning control method and a controller.

Background technique

Air conditioners can be used to adjust indoor temperature. Through different control modes, parameters such as air outlet temperature, risk and wind speed can be controlled to meet the user's needs. Some air conditioners even have built-in fresh air function to ensure indoor air quality.

Generally, air conditioners have several fixed modes, such as cooling, heating or dehumidification, and special buttons for adjusting wind direction, wind speed and temperature. Users can set them through the remote control according to their needs. Some air conditioners also integrate some specific mode buttons to meet some special control requirements.

However, these set programs are generally fixed parameter settings, such as rotating the wind direction at preset intervals, etc. How to design a control program for the purpose of comfort and health and suitable for middle-aged and elderly people is an important aspect of enriching the functions of air conditioners.

Summary of the invention

An object of the first aspect of the present invention is to provide an air conditioning control method that can improve human comfort, avoid direct blowing, and meet the health requirements of middle-aged and elderly people.

A further object of the invention is to ensure that the temperature of the current operating mode is maintained.

Another object of the present invention is to ensure the freshness of indoor air.

An object of the second aspect of the present invention is to provide a controller for implementing the above-mentioned air conditioning control method.

In particular, the present invention provides an air conditioning control method, comprising:

Upon receiving a health control instruction, the current operation mode of the air conditioner is detected;

According to the current operating mode, the air conditioner is controlled to enter the corresponding rapid temperature change stage, soft wind stage and energy-saving and power-saving stage in sequence, wherein the wind direction of the rapid temperature change stage is a preset direction that avoids the direct blowing target and has the maximum air volume, the wind direction of the soft wind stage is the anti-direct blowing wind direction, and the wind direction of the energy-saving and power-saving stage is the anti-direct blowing wind direction and is in the air supply only mode.

Optionally, the rapid temperature change stage includes a rapid temperature reduction stage in which the refrigeration temperature is a first set temperature. The soft wind stage includes a cooling soft wind stage in which the cooling temperature is a second set temperature, the first set temperature is lower than the second set temperature, and the energy-saving and power-saving stage includes a cooling energy-saving and power-saving stage;

The steps of controlling the air conditioner to sequentially enter the corresponding rapid temperature change stage, soft wind stage and energy saving and power saving stage according to the current operation mode include:

When the current operation mode is the cooling mode, the air conditioner is controlled to enter the rapid cooling stage, the cooling soft wind stage and the cooling energy-saving and power-saving stage in sequence.

Optionally, the wind speeds in the rapid cooling stage, the soft wind cooling stage and the energy-saving and power-saving cooling stage are all automatic wind speeds, and the preset direction is the direction in which the vertical swing blades have the largest air volume and the horizontal swing blades blow air upward.

Optionally, the steps of controlling the air conditioner to sequentially enter the rapid cooling stage, the cooling soft wind stage, and the cooling energy-saving and power-saving stage include:

After the rapid cooling stage runs for a first preset time, detecting the indoor temperature;

When the indoor temperature is less than or equal to a third set temperature, the cooling soft wind stage is entered, and the third set temperature is greater than the second set temperature;

After the cooling soft wind stage runs for a second preset time, the cooling energy-saving and power-saving stage is entered.

Optionally, the rapid temperature change stage includes a rapid temperature rise stage with a heating temperature of a fourth set temperature, the soft wind stage includes a heating soft wind stage with a heating temperature of a fifth set temperature, the fifth set temperature is lower than the fourth set temperature, and the energy-saving and power-saving stage includes a heating energy-saving and power-saving stage;

When the current operation mode is the heating mode, the air conditioner is controlled to enter the rapid heating stage, the heating soft wind stage and the heating energy-saving and power-saving stage in sequence.

Optionally, the wind speed in the soft wind heating stage is a strong wind speed and the heater is turned on at the same time, the wind speeds in the soft wind heating stage and the energy-saving and power-saving heating stage are both automatic wind speeds, and the preset direction is the direction in which the vertical swing blade air volume is maximum and the horizontal swing blade blows air upward.

Optionally, the steps of controlling the air conditioner to sequentially enter the rapid heating stage, the heating soft wind stage, and the heating energy-saving and power-saving stage include:

After the rapid heating stage runs for a third preset time, detecting the indoor temperature;

When the indoor temperature is greater than or equal to a sixth set temperature, the heating soft wind stage is entered, and the sixth set temperature is lower than the fifth set temperature;

After the heating soft wind stage runs for a fourth preset time, the heating energy-saving and power-saving stage is entered.

Optionally, after the step of controlling the air conditioner to sequentially enter the rapid temperature change stage, the soft wind stage, and the energy saving and power saving stage according to the current operation mode, the step further includes:

After the energy-saving and power-saving stage is completed, detecting the indoor temperature at a first preset interval;

The air conditioner is controlled to enter the soft wind stage or the energy-saving and power-saving stage according to the magnitude relationship between the indoor temperature and the room temperature threshold corresponding to the current operation mode.

Optionally, after the step of detecting the current operating mode of the air conditioner, the step further includes:

detecting indoor air quality at a second preset interval;

When the indoor air quality does not meet the preset requirements, the air conditioner is controlled to start the fresh air function.

In particular, the present invention further provides a controller, comprising a memory and a processor, wherein a control program is stored in the memory, and when the control program is executed by the processor, it is used to implement the air conditioning control method according to any one of the above items.

According to one embodiment of the present invention, by detecting the health control instruction, when receiving the health control instruction, the air conditioner can be controlled accordingly according to the current operating mode, that is, the air conditioner enters the rapid temperature change stage, the soft wind stage and the energy saving and power saving stage corresponding to the operating mode in sequence, and the temperature adjustment speed is changed from fast to slow through the joint adjustment of the operating mode and the wind direction, and the wind direction of each stage avoids direct blowing, and finally ends with the energy saving and power saving stage of only air supply. This health control mode can improve human comfort and avoid direct blowing through intelligent adjustment, and only one health control instruction needs to be issued during operation, so there is no need for frequent manual adjustment operations, and it can meet the health requirements of middle-aged and elderly people.

According to one embodiment of the present invention, after running in the energy-saving and power-saving stage, the indoor temperature is periodically detected, and the air conditioner is controlled to enter the soft wind stage or the energy-saving and power-saving stage according to the relationship between the indoor temperature and the operating mode, thereby ensuring that the temperature of the current operating mode is maintained.

According to one embodiment of the present invention, for an air conditioner with a fresh air function, the indoor air quality is also regularly detected in cooling or heating mode, and the fresh air function is automatically started when the indoor air cooling does not meet the requirements, thereby ensuring the freshness of the indoor air.

According to one embodiment of the present invention, when the air conditioner is in the cooling mode, it operates according to various parameters in the cooling mode, controls the temperature, wind speed and wind direction, and the switching conditions of each stage, ensures that the wind force is gentle under the premise of quickly reaching the cooling temperature, and controls the air conditioner to enter the cooling energy-saving and power-saving stage again when the indoor temperature is less than or equal to the first room temperature threshold, and controls the air conditioner to enter the cooling soft wind stage again when the indoor temperature is greater than the first room temperature threshold. Therefore, it is possible to save energy and power as much as possible when the temperature conditions are met, and maintain a moderate wind speed in the entire cooling process, and the wind direction is not directly blowing, which meets the health requirements. beg.

According to one embodiment of the present invention, when the air conditioner is in the heating mode, it operates according to various parameters in the heating mode to control the temperature, wind speed and wind direction, as well as the switching conditions of each stage, to ensure that the wind force is gentle under the premise of quickly reaching the heating temperature, and to control the air conditioner to re-enter the heating energy-saving and power-saving stage when the indoor temperature is greater than or equal to the second room temperature threshold; and to control the air conditioner to re-enter the heating soft wind stage when the indoor temperature is less than the second room temperature threshold. Therefore, it is possible to save energy and power as much as possible when the temperature conditions are met, and to maintain a moderate wind speed throughout the heating process, and the wind direction is not directly blowing, which meets the health requirements.

Based on the following detailed description of specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will become more aware of the above and other objects, advantages and features of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

Hereinafter, some specific embodiments of the present invention will be described in detail in an exemplary and non-limiting manner with reference to the accompanying drawings. The same reference numerals in the accompanying drawings indicate the same or similar components or parts. It should be understood by those skilled in the art that these drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG1 is a flow chart of an air conditioning control method according to an embodiment of the present invention;

FIG2 is a flow chart of an air conditioning control method according to another embodiment of the present invention;

FIG3 is a flow chart of an air conditioning control method according to another embodiment of the present invention;

FIG. 4 is a connection block diagram of a controller according to an embodiment of the present invention.

Detailed ways

In the description of the present embodiment, the description with reference to the terms "one embodiment", "some embodiments", "illustrative embodiments", "examples", "specific examples", or "some examples" means that the specific features, structures, materials, or characteristics described in conjunction with the embodiment or example are included in at least one embodiment or example of the present invention. In this specification, the schematic representation of the above terms does not necessarily refer to the same embodiment or example. Moreover, the specific features, structures, materials, or characteristics described may be combined in any one or more embodiments or examples in a suitable manner.

The terms "first" and "second" are used for descriptive purposes only and should not be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Therefore, the features defined as "first" and "second" may explicitly or implicitly include at least one of the features, that is, include one or more of the features. When a feature "includes or contains" one or some of the features it covers, unless otherwise specifically described, this indicates that other features are not excluded and may further include other features.

Unless otherwise clearly defined and limited, the terms "installed", "connected", "connected", "fixed", "coupled" and the like should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, it can be the internal connection of two elements or the interaction relationship between two elements, unless otherwise clearly defined. A person skilled in the art should be able to understand the specific meanings of the above terms in the present invention according to the specific circumstances.

In addition, in the description of this embodiment, the first feature being "above" or "below" the second feature may include the first and second features being in direct contact, or may include the first and second features not being in direct contact but being in contact through another feature between them. That is, in the description of this embodiment, the first feature being "above", "above", and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature. The first feature being "below", "below", or "below" the second feature may mean that the first feature is directly below or obliquely below the second feature, or simply indicates that the first feature is lower in level than the second feature.

Unless otherwise defined, all terms (including technical terms and scientific terms) used in the description of this embodiment have the same meanings as commonly understood by ordinary technicians in the technical field to which this application belongs.

FIG1 is a flow chart of an air conditioning control method according to an embodiment of the present invention. As shown in FIG1 , in one embodiment, the air conditioning control method includes:

Step S100, upon receiving the health control instruction, detecting the current operation mode of the air conditioner, which includes cooling mode, heating mode, dehumidification mode, and the like.

The health control instruction here may be a control instruction generated by operating a health mode button specially set on the air conditioner remote controller. That is, when the health mode button is pressed, the air conditioner can be controlled to enter the health mode and run the next steps.

Step S200, according to the current operating mode, the air conditioner is controlled to enter the corresponding rapid temperature change stage, soft wind stage and energy saving and power saving stage in sequence. The wind direction in the rapid temperature change stage is a preset direction that avoids the direct blowing target and has the largest air volume. For example, the vertical swing blades of the air conditioner are controlled to have the largest air volume (that is, they are located approximately perpendicular to the wall), and the horizontal swing blades are fixed in a certain direction, such as the top, bottom, leftmost or rightmost air outlet direction. Of course, in order to conveniently avoid the direct blowing target, the horizontal swing blades can be uniformly set to an upward air outlet direction to avoid direct blowing on personnel. The wind direction in the soft wind stage is an anti-direct blowing direction, that is, it will not blow in a certain direction all the time, but will blow air in a preset mode by swinging the swing blades up and down and left and right. The wind direction in the energy saving and power saving stage is an anti-direct blowing direction and is in an air supply only mode. Air supply only means that cooling or conditioning is no longer performed. It's cold, the air conditioner is just blowing air.

This embodiment detects the health control instruction and can perform corresponding control according to the current operation mode of the air conditioner when receiving the health control instruction, that is, it enters the rapid temperature change stage, soft wind stage and energy saving stage corresponding to the operation mode in sequence, and the temperature adjustment speed is changed from fast to slow through the joint adjustment of the operation mode and wind direction, and the wind direction of each stage avoids direct blowing, and finally ends with the energy saving stage of only air supply. This health control mode can improve human comfort and avoid direct blowing through intelligent adjustment, and only one health control instruction needs to be issued during operation, so there is no need for frequent manual adjustment operations, which can meet the health requirements of middle-aged and elderly people.

FIG2 is a flow chart of an air conditioning control method according to another embodiment of the present invention. In another embodiment, as shown in FIG2 , after step S200, the method further includes:

Step S300, after the energy-saving and power-saving phase is completed, the indoor temperature is detected at a first preset interval.

Step S400, controlling the air conditioner to enter a soft wind stage or an energy-saving and power-saving stage according to the relationship between the indoor temperature and the room temperature threshold corresponding to the current operation mode.

After the present embodiment runs in the energy-saving and power-saving stage, the indoor temperature is periodically detected, and the air conditioner is controlled to enter the soft wind stage or the energy-saving and power-saving stage according to the relationship between the indoor temperature and the operation mode, thereby ensuring that the temperature of the current operation mode is maintained.

As shown in FIG. 2 , in a further embodiment, after step S100, the following steps are further included:

Step S500: Detect the indoor air quality at a second preset interval. Optionally, the second preset interval is 15 minutes.

Step S600, when the indoor air quality does not meet the preset requirements, control the air conditioner to turn on the fresh air function.

Step S500 and step S600 are independent procedures from step S200 to step S400, and the two can be executed in parallel.

The indoor air quality here can be evaluated by rating, for example, the indoor air quality is rated as excellent, good, poor, etc. according to the concentration of pollutants in the air. The indoor air quality here does not meet the preset requirements can be understood as the indoor air quality is good or poor. The specific evaluation method can adopt any one of the existing technologies, which is not limited here.

This embodiment is for an air conditioner with a fresh air function. In cooling or heating mode, the indoor air quality is also regularly detected. When the indoor air cooling does not meet the requirements, the fresh air function is automatically started to ensure the freshness of the indoor air.

In one embodiment, the fresh air function will not be automatically turned off after it is turned on until the user manually turns it off or Turn off when the air conditioner stops operating.

FIG3 is a flow chart of an air conditioning control method according to another embodiment of the present invention. In a further embodiment, the rapid temperature change stage includes a rapid cooling stage with a cooling temperature of a first set temperature, the soft wind stage includes a cooling soft wind stage with a cooling temperature of a second set temperature, the first set temperature is less than the second set temperature, and the energy-saving and power-saving stage includes a cooling energy-saving and power-saving stage. As shown in FIG3, step S200 includes:

Step S202, determine whether the current operation mode is the cooling mode, if yes, proceed to step S210.

Step S210, when the current operation mode is the cooling mode, the air conditioner is controlled to enter the rapid cooling stage, the cooling soft wind stage and the cooling energy-saving and power-saving stage in sequence.

In one embodiment, the wind speeds in the rapid cooling stage, the soft wind cooling stage, and the energy-saving and power-saving cooling stage are all automatic wind speeds, and the preset direction is the direction in which the vertical swing blades have the largest air volume and the horizontal swing blades blow air upward.

In a further embodiment, step S210 includes:

After the rapid cooling stage runs for a first preset time, the indoor temperature is detected;

When the indoor temperature is less than or equal to the third set temperature, the cooling soft wind stage is entered, and the third set temperature is greater than the second set temperature;

After the cooling soft wind stage runs for the second preset time, it enters the cooling energy-saving and power-saving stage.

After step S210, the method further includes:

Step S310, after the cooling energy-saving and power-saving stage is completed, the indoor temperature is detected at a first preset interval.

Step S410, determining whether the indoor temperature is less than or equal to a first room temperature threshold corresponding to the cooling mode, if so, proceeding to step S412, otherwise, proceeding to step S414.

Step S412, controlling the air conditioner to enter a cooling and energy-saving stage.

Step S414, controlling the air conditioner to enter the cooling soft wind stage.

The settings of the above parameters can be as shown in Table 1 below. "Stage 1" in Table 1 indicates the rapid cooling stage, "Stage 2" indicates the cooling soft wind stage, and "Stage 3" indicates the cooling energy-saving and power-saving stage.

Table 1

When the air conditioner is in cooling mode, this embodiment operates according to various parameters in the cooling mode to control the temperature, wind speed and wind direction, as well as the switching conditions of each stage, to ensure that the wind is gentle under the premise of quickly reaching the cooling temperature, and to control the air conditioner to re-enter the cooling energy-saving and power-saving stage when the indoor temperature is less than or equal to the first room temperature threshold; and to control the air conditioner to re-enter the cooling soft wind stage when the indoor temperature is greater than the first room temperature threshold. Therefore, it is possible to save energy and power as much as possible when the temperature conditions are met, and maintain a moderate wind speed and non-direct wind direction during the entire cooling process, which meets the health requirements.

In a further embodiment, the rapid temperature change stage includes a rapid temperature rise stage with a heating temperature of a fourth set temperature, the soft wind stage includes a heating soft wind stage with a heating temperature of a fifth set temperature, the fifth set temperature is less than the fourth set temperature, and the energy-saving and power-saving stage includes a heating energy-saving and power-saving stage. As shown in FIG3 , step S200 also includes:

After step S202, the method further includes:

Step S204, when the current operation mode is not the cooling mode, determine whether the current operation mode is the heating mode, if so, proceed to step S220.

Step S220, when the current operation mode is the heating mode, the air conditioner is controlled to enter the rapid heating stage, the heating soft wind stage and the heating energy-saving and power-saving stage in sequence.

In one embodiment, the wind speed in the heating soft wind stage is a strong wind speed and the heater is turned on at the same time. The wind speeds in the heating soft wind stage and the heating energy-saving and power-saving stage are both automatic wind speeds. The preset direction is the direction in which the vertical swing blade has the largest air volume and the horizontal swing blade discharges air upward. The heater can be a PTC heater (i.e., Positive Temperature Coefficient Heater, thermistor heater).

Furthermore, step S220 further includes:

After the rapid heating stage is run for a third preset time, the indoor temperature is detected;

When the indoor temperature is greater than or equal to the sixth set temperature, the heating soft wind stage is entered, and the sixth set temperature is lower than the fifth set temperature;

After the heating soft wind stage runs for the fourth preset time, it enters the heating energy-saving and power-saving stage.

After step S220, the following steps are also included:

Step S320, after the heating energy-saving and power-saving stage is completed, the indoor temperature is detected at a first preset interval.

Step S420, determining whether the indoor temperature is greater than or equal to a second room temperature threshold corresponding to the heating mode, if so, proceeding to step S422, otherwise, proceeding to step S424.

Step S422, controlling the air conditioner to enter a heating energy-saving and power-saving stage.

Step S424, controlling the air conditioner to enter the heating soft wind stage.

The settings of the various parameters of this embodiment can be as shown in Table 2 below, where "Stage 1" in Table 2 represents the rapid heating stage, "Stage 2" represents the heating soft wind stage, and "Stage 3" represents the "heating energy-saving and power-saving stage".

Table 2

When the air conditioner is in the heating mode, this embodiment operates according to various parameters in the heating mode to control the temperature, wind speed and wind direction, as well as the switching conditions of each stage, to ensure that the wind is gentle under the premise of quickly reaching the heating temperature, and to control the air conditioner to re-enter the heating energy-saving and power-saving stage when the indoor temperature is greater than or equal to the second room temperature threshold; and to control the air conditioner to re-enter the heating soft wind stage when the indoor temperature is less than the second room temperature threshold. Therefore, it is possible to save energy and power as much as possible when the temperature conditions are met, and to maintain a moderate wind speed and non-direct wind direction during the entire heating process, which meets the health requirements.

FIG4 is a connection block diagram of a controller 100 according to an embodiment of the present invention. As shown in FIG4 , the present invention further provides a controller 100, including a memory 120 and a processor 110, wherein a control program 122 is stored in the memory 120, and the control program 122 is used to implement the air conditioning control method according to any of the above embodiments or combinations of embodiments when executed by the processor 110. The controller 100 may be an air conditioning controller 100. The controller 100 is encapsulated by a shell, and a health mode button may be added to the button area of the shell, so that the user can control whether the air conditioner enters the health mode by operating the health mode button, which is a program corresponding to the above air conditioning control method.

The processor 110 may be a central processing unit (CPU). Or a digital processing unit, etc. The processor 110 sends and receives data through a communication interface. The memory 120 is used to store the program executed by the processor 110. The memory 120 is any medium that can be used to carry or store the desired program code in the form of instructions or data structures and can be accessed by a computer, and can also be a combination of multiple memories 120. The above-mentioned computer program can be downloaded from a computer-readable storage medium to a corresponding computing/processing device or downloaded to a computer or an external storage device via a network (such as the Internet, a local area network, a wide area network and/or a wireless network).

At this point, those skilled in the art should recognize that, although multiple exemplary embodiments of the present invention have been shown and described in detail herein, many other variations or modifications that conform to the principles of the present invention can still be directly determined or derived based on the content disclosed in the present invention without departing from the spirit and scope of the present invention. Therefore, the scope of the present invention should be understood and recognized as covering all these other variations or modifications.

Claims

An air conditioning control method, comprising:

Upon receiving a health control instruction, the current operation mode of the air conditioner is detected;

According to the current operating mode, the air conditioner is controlled to enter the corresponding rapid temperature change stage, soft wind stage and energy-saving and power-saving stage in sequence, wherein the wind direction of the rapid temperature change stage is a preset direction that avoids the direct blowing target and has the maximum air volume, the wind direction of the soft wind stage is the anti-direct blowing wind direction, and the wind direction of the energy-saving and power-saving stage is the anti-direct blowing wind direction and is in the air supply only mode.
The air conditioning control method according to claim 1, wherein the rapid temperature change stage includes a rapid cooling stage in which the cooling temperature is a first set temperature, the soft wind stage includes a cooling soft wind stage in which the cooling temperature is a second set temperature, the first set temperature is lower than the second set temperature, and the energy-saving and power-saving stage includes a cooling energy-saving and power-saving stage;

The steps of controlling the air conditioner to sequentially enter the corresponding rapid temperature change stage, soft wind stage and energy saving and power saving stage according to the current operation mode include:

When the current operation mode is the cooling mode, the air conditioner is controlled to enter the rapid cooling stage, the cooling soft wind stage and the cooling energy-saving and power-saving stage in sequence.
The air conditioning control method according to claim 2, wherein:

The wind speeds in the rapid cooling stage, the soft wind cooling stage and the energy-saving and power-saving cooling stage are all automatic wind speeds, and the preset direction is the direction in which the vertical swing blades have the largest air volume and the horizontal swing blades blow air upward.
According to the air conditioning control method of claim 2, the steps of controlling the air conditioning to sequentially enter the rapid cooling stage, the cooling soft wind stage, and the cooling energy-saving and power-saving stage include:

After the rapid cooling stage runs for a first preset time, detecting the indoor temperature;

When the indoor temperature is less than or equal to a third set temperature, the cooling soft wind stage is entered, and the third set temperature is greater than the second set temperature;

After the cooling soft wind stage runs for a second preset time, the cooling energy-saving and power-saving stage is entered.
The air conditioning control method according to claim 1, wherein the rapid temperature change stage includes The heating temperature is a fast heating stage of a fourth set temperature, the soft wind stage includes a heating soft wind stage of a fifth set temperature, the fifth set temperature is lower than the fourth set temperature, and the energy-saving and power-saving stage includes a heating energy-saving and power-saving stage;

The steps of controlling the air conditioner to sequentially enter the corresponding rapid temperature change stage, soft wind stage and energy saving and power saving stage according to the current operation mode include:

When the current operation mode is the heating mode, the air conditioner is controlled to enter the rapid heating stage, the heating soft wind stage and the heating energy-saving and power-saving stage in sequence.
The air conditioning control method according to claim 5, wherein:

The wind speed in the soft wind heating stage is a strong wind speed and the heater is turned on at the same time. The wind speeds in the soft wind heating stage and the energy-saving and power-saving heating stage are both automatic wind speeds. The preset direction is the direction in which the vertical swing blades have the largest air volume and the horizontal swing blades blow air upward.
According to the air conditioning control method of claim 5, the steps of controlling the air conditioning to sequentially enter the rapid heating stage, the heating soft wind stage, and the heating energy-saving and power-saving stage include:

After the rapid heating stage runs for a third preset time, detecting the indoor temperature;

When the indoor temperature is greater than or equal to a sixth set temperature, the heating soft wind stage is entered, and the sixth set temperature is lower than the fifth set temperature;

After the heating soft wind stage runs for a fourth preset time, the heating energy-saving and power-saving stage is entered.
According to any one of claims 1 to 7, after the step of controlling the air conditioner to sequentially enter the rapid temperature change stage, the soft wind stage, and the energy saving and power saving stage according to the current operation mode, the method further comprises:

After the energy-saving and power-saving stage is completed, detecting the indoor temperature at a first preset interval;

The air conditioner is controlled to enter the soft wind stage or the energy-saving and power-saving stage according to the magnitude relationship between the indoor temperature and the room temperature threshold corresponding to the current operation mode.
According to the air conditioning control method of claim 8, after the step of detecting the current operating mode of the air conditioner, the method further comprises:

detecting indoor air quality at a second preset interval;

When the indoor air quality does not meet the preset requirements, the air conditioner is controlled to start the fresh air function.
A controller comprises a memory and a processor, wherein a control program is stored in the memory, and when the control program is executed by the processor, it is used to implement the air conditioning control method according to any one of claims 1 to 9.