CN111256305A - Control method and control device for air conditioner, air conditioner and storage medium - Google Patents

Abstract

The invention discloses a control method of an air conditioner, which comprises the following steps: acquiring the distance between a user and a preset position; when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute cooling operation; and when the air conditioner meets a temperature return triggering threshold value, controlling the air conditioner to execute temperature return operation. The invention also discloses an air conditioner control device, an air conditioner and a computer readable storage medium. The invention realizes that when the user arrives at the destination, the indoor environment is cool enough but the temperature is not too low.

Description

Control method and control device for air conditioner, air conditioner and storage medium

Technical Field

The present invention relates to the field of air conditioners, and in particular, to a method and a device for controlling an air conditioner, and a computer-readable storage medium.

Background

When an appliance such as an air conditioner is started, a user wants to cool down quickly, and the set temperature is often set to be very low, but the air conditioner is often operated according to a lower temperature set by the user so that the indoor temperature is kept at a supercooled temperature, and the lower temperature set by the user is often hotter and does not want to reach the temperature, so the above adjusting mode causes the user to feel supercooled and uncomfortable.

Disclosure of Invention

The invention mainly aims to provide a control method of an air conditioner, the air conditioner, a server, a mobile terminal and a computer readable storage medium, aiming at realizing that when a user arrives at the preset position, the indoor environment is cool enough but the temperature is not too low.

In order to achieve the above object, in a first aspect of an air conditioner control method of the present invention, the air conditioner control method includes the steps of:

acquiring the distance between a user and a preset position;

when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute cooling operation;

and when the air conditioner meets a temperature return triggering threshold value, controlling the air conditioner to execute temperature return operation.

In the first aspect, the air conditioner is controlled to perform a cool down operation when the air conditioner enters the supercooling prevention mode.

In a first scheme, when at least one of the operation parameters, the sensible temperature and the environment parameters of the air conditioner meets the temperature return triggering threshold, the air conditioner is judged to meet the temperature return triggering threshold.

A second aspect is proposed on the basis of the first aspect, in the second aspect, where at least one of the operating parameter, the sensible temperature, and the environmental parameter of the air conditioner that satisfies the back-temperature trigger threshold includes at least one of:

reducing the indoor environment temperature to a preset indoor environment temperature;

the difference between the outdoor environment temperature and the indoor environment temperature reaches a preset difference;

the running time of the air conditioner cooling operation reaches the preset time;

the body sensing temperature of the user reaches the preset body sensing temperature.

A third aspect is provided on the basis of the first aspect, in the third aspect, when the distance between the user and the preset position is not greater than a preset distance, the step of controlling the air conditioner to perform a cooling operation includes:

acquiring current operating parameters and environmental parameters of the air conditioner;

acquiring operation parameters of a cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the distance between the user and the preset position;

and entering a cooling stage, and controlling the air conditioner to execute cooling operation according to the operation parameters.

In a third aspect, the operating parameter includes at least one of a compressor frequency and a fan wind speed.

In a third aspect, the step of obtaining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold, and the distance between the user and the preset position may be obtained through the following sub-schemes, where the sub-schemes are in parallel relationship:

according to the first sub-scheme, the moving speed of the user is obtained;

determining the time length of the user reaching the preset position according to the moving speed and the distance between the user and the preset position;

and acquiring the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the time for the user to reach the preset position.

According to a second sub-scheme, the step of obtaining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the time length of the user reaching the preset position comprises the following steps:

determining a cooling difference value according to the current environmental parameters and the temperature return triggering threshold value;

and determining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the time length of the user reaching the preset position and the cooling difference.

A fourth aspect is provided on the basis of the first aspect, in which before the step of controlling the air conditioner to perform a temperature return operation, the method further includes:

when the air conditioner meets a temperature return triggering threshold value, detecting whether the user reaches the preset position;

when the user reaches the preset position, the step of controlling the air conditioner to execute the temperature return operation is executed;

and controlling the air conditioner to execute constant temperature operation when the user does not reach the preset position, and executing the step of controlling the air conditioner to execute temperature return operation when the user is detected to reach the preset position.

In the first scheme, the temperature return trigger threshold is pre-stored.

In a first scheme, the temperature return trigger threshold is obtained according to reference information, and the reference information includes at least one of current environmental parameters, an operation state of the air conditioner, current time information, user information, position information of the air conditioner, and a cooling rate.

In addition, the number of the reference information is at least two, and the temperature return trigger threshold is obtained according to the weight value of each reference information.

In the first scheme, the temperature return trigger threshold is obtained according to trigger thresholds set by respective users within a preset time interval, and the temperature return trigger threshold is a trigger threshold whose set frequency meets a preset frequency condition.

In a first scheme, the trigger threshold meeting the preset frequency condition may be obtained through the following sub-schemes, and the sub-schemes are in a parallel relationship:

according to the first sub-scheme, the users are divided into a plurality of user groups according to the position information, and the temperature return trigger threshold of the position information is a trigger threshold of which the frequency meets a preset frequency condition and is set in the user group corresponding to the position information.

And in the second sub-scheme, the users are divided into a plurality of user groups according to user types, and the temperature return trigger threshold of the user type is a trigger threshold of which the frequency meets a preset frequency condition and is set in the user group corresponding to the user type.

And thirdly, dividing the user into a plurality of user groups according to time information, setting a temperature return trigger threshold of the time information as a trigger threshold of which the frequency meets a preset frequency condition in a user group corresponding to the time information, wherein the time information comprises at least one of time period information, day information, month information, season information and year information.

In the first scheme, the temperature return trigger threshold value can be obtained through the following sub-schemes, and the sub-schemes are in a parallel relationship:

according to the first sub-scheme, habit data of a temperature return triggering threshold value set by a user in a preset time interval is obtained, and the habit data sets habit data of which the frequency meets a preset frequency condition for the user.

And a second sub-scheme, obtaining operation parameters of the air conditioner within a preset time interval, obtaining a temperature return operation according to the operation parameters, obtaining a trigger threshold of the temperature return operation, and taking the trigger threshold with the occurrence frequency meeting a preset frequency condition as the temperature return trigger threshold, wherein the temperature return operation is used for temperature adjustment of a user, the target temperature of the temperature adjustment is higher than the current environment temperature, and the trigger threshold is at least one of the operation parameters of the air conditioner and the environment parameters when the temperature return operation is detected.

A fifth aspect is provided on the basis of the first to fourth aspects, in which recommendation information of the back-temperature trigger threshold is generated according to the back-temperature trigger threshold.

A sixth aspect is set forth in the first aspect, wherein the step of controlling the air conditioner to perform a cool down operation when the air conditioner enters the anti-supercooling mode includes at least one of:

controlling a compressor of the air conditioner to operate at a maximum frequency;

and controlling a fan of the air conditioner to operate according to the automatic wind speed or the maximum wind speed.

A seventh aspect is set forth in the first aspect, wherein the step of controlling the air conditioner to perform the temperature return operation when the air conditioner satisfies the temperature return trigger threshold includes:

acquiring the operation parameters of the temperature return operation;

and controlling the air conditioner to operate according to the operation parameters.

In a seventh aspect, the operation parameter is obtained according to the operation parameter of the air conditioner when the air conditioner enters the temperature return stage, the environmental parameter, and the target temperature rise threshold value of the temperature return stage.

An eighth aspect is provided on the basis of the first aspect, and in the eighth aspect, the air conditioner control method further includes:

and when the air conditioner meets the target temperature rise threshold value of the temperature return stage, controlling the air conditioner to exit the temperature return stage.

In an eighth aspect, when at least one of an operation parameter, a sensible temperature, and an environmental parameter of the air conditioner satisfies the target temperature increase threshold, it is determined that the air conditioner satisfies the target temperature increase threshold.

In an eighth aspect, the condition that at least one of the operating parameter, the sensible temperature, and the environmental parameter of the air conditioner satisfies the target temperature increase threshold includes at least one of:

raising the indoor temperature to a preset indoor temperature;

the difference between the outdoor temperature and the indoor temperature reaches a preset difference;

the somatosensory temperature of the user is increased to a preset somatosensory temperature;

the running time of the air conditioner temperature return operation reaches the preset time.

In a seventh aspect, the difference between the back-temperature trigger threshold and the target warming threshold is 2 ℃ to 6 ℃.

In a first aspect, the step of obtaining the distance between the user and the preset position is performed during the process of the user heading to the preset position.

In the first scheme, the temperature reduction rate in the temperature reduction stage is greater than the temperature increase rate in the temperature return stage.

In the first aspect, at least one of the detected ambient temperature and the fan speed is not displayed during the cool-down period.

In a first aspect, the supercooling prevention mode is configured to reduce the indoor temperature of the air conditioner by cooling before warming.

In the first aspect, the indoor temperature is adjusted to the target temperature increase threshold value in the temperature return stage.

In a first aspect, the temperature return operation includes at least one of a temperature setting, a wind speed setting, and a humidity setting.

In order to achieve the above object, the present invention also provides an eighth aspect of a control method of an air conditioner, in the eighth aspect, the control method of the air conditioner includes:

when a cooling instruction is received, performing cooling operation;

when a temperature rising instruction is received or the air conditioner meets a temperature rising triggering threshold value, temperature rising operation is executed, wherein the server acquires the distance between the user and the preset position, and when the distance between the user and the preset position is not more than the preset distance, a temperature reducing instruction is sent to the air conditioner.

In an eighth aspect, the temperature increase instruction is sent to the air conditioner when the server detects that the air conditioner meets a temperature return trigger threshold.

In order to achieve the above object, the present invention also provides a server, including:

the control method comprises the steps of a memory, a processor and a control program of the air conditioner, wherein the control program of the air conditioner is stored on the memory and can run on the processor, and the steps of the control method of the air conditioner are realized when the control program of the air conditioner is executed by the processor.

In order to achieve the above object, the present invention also provides a mobile terminal, including:

the control method comprises the steps of a memory, a processor and a control program of the air conditioner, wherein the control program of the air conditioner is stored on the memory and can run on the processor, and the steps of the control method of the air conditioner are realized when the control program of the air conditioner is executed by the processor.

To achieve the above object, the present invention also provides a computer-readable storage medium having a control program of an air conditioner stored thereon, the control program of the air conditioner, when executed by a processor, implementing the steps of the control method of the air conditioner.

According to the control method of the air conditioner, the server, the mobile terminal and the computer readable storage medium, the distance between the user and the preset position is obtained, when the distance between the user and the preset position is not more than the preset distance, the air conditioner is controlled to execute cooling operation, and when the air conditioner meets the temperature return triggering threshold value, the air conditioner is controlled to execute temperature return operation. The invention realizes that when the user arrives at the destination, the indoor environment is cool enough but the temperature is not too low.

Drawings

Fig. 1 is a schematic diagram of a hardware operating environment of a terminal according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating an embodiment of a method for controlling an air conditioner according to the present invention;

fig. 3 is a flowchart illustrating a control method of an air conditioner according to another embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The applicant analyzes the using behaviors of the air conditioner of users in different seasons, and finds that 60% -70% of users can regulate the temperature of the air conditioner after the air conditioner is started, and 30% -40% of users can not regulate the air conditioner completely in the running process of the air conditioner; meanwhile, research on users who perform adjustment finds that 70% of adjustment of the air conditioners is concentrated in the first half hour, adjustment behaviors among 90% of users who perform adjustment are low in the temperature setting of the air conditioners, and the set temperature is adjusted to be high after the indoor temperature is reduced, so that the fundamental reason of the problem is that the cooling temperature of the home air conditioner is set and controlled in advance according to the cold and hot feeling of the user on the home road before the user returns to the destination such as home, and the temperature set by the user in advance on the air conditioner is too low due to the fact that the home road is generally hot.

The main solution of the embodiment of the invention is as follows:

acquiring the distance between a user and a preset position; when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute cooling operation; and when the air conditioner meets a temperature return triggering threshold value, controlling the air conditioner to execute temperature return operation.

When an appliance such as an air conditioner is started, a user wants to cool down quickly, and the set temperature is often set to be very low, but the air conditioner is often operated according to a lower temperature set by the user so that the indoor temperature is kept at a supercooled temperature, and the lower temperature set by the user is often hotter and does not want to reach the temperature, so the above adjusting mode causes the user to feel supercooled and uncomfortable.

The invention provides a solution, which firstly carries out temperature reduction operation by executing a temperature reduction stage to reduce the indoor temperature, and carries out temperature return operation to return the indoor temperature, wherein when the distance between a user and a preset position is not more than the preset distance, an air conditioner is controlled to execute the temperature reduction operation, and when the air conditioner meets a temperature return trigger threshold value, the air conditioner is accurately returned to the temperature in the temperature reduction operation process, so that the indoor environment is cool but not too cold.

As shown in fig. 1, fig. 1 is a schematic device structure diagram of a hardware operating environment according to an embodiment of the present invention.

The device of the embodiment of the invention can be an air conditioner, or a control device connected with the air conditioner, such as an integrated controller in a home, wherein the integrated controller is connected with each household appliance to control each household appliance, or the device can also be a server and performs data transmission with the air conditioner through a communication module; or the device may be software according to the mobile terminal, such as APP software.

As shown in fig. 1, the apparatus may include: the processor 1001 includes, for example, a CPU, a communication bus 1002, and a memory 1003. Wherein a communication bus 1002 is used to enable connective communication between these components. The memory 1003 may be a high-speed RAM memory or a non-volatile memory (e.g., a disk memory). The memory 1003 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the terminal structure shown in fig. 1 is not intended to be limiting and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1003, which is a kind of computer storage medium, may include therein an operating system and an air conditioner control program.

In the terminal shown in fig. 1, the processor may be configured to call the air conditioner control program stored in the memory 1003, and perform the following operations:

acquiring the distance between a user and a preset position;

when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute cooling operation;

and when the air conditioner meets a temperature return triggering threshold value, controlling the air conditioner to execute temperature return operation.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and controlling the air conditioner to perform a cooling operation when the air conditioner enters the supercooling prevention mode.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and when at least one of the operation parameters, the somatosensory temperature and the environmental parameters of the air conditioner meets the temperature return triggering threshold, judging that the air conditioner meets the temperature return triggering threshold.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

reducing the indoor environment temperature to a preset indoor environment temperature;

the difference between the outdoor environment temperature and the indoor environment temperature reaches a preset difference;

the running time of the air conditioner cooling operation reaches the preset time;

the body sensing temperature of the user reaches the preset body sensing temperature.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

acquiring current operating parameters and environmental parameters of the air conditioner;

acquiring operation parameters of a cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the distance between the user and the preset position;

and entering a cooling stage, and controlling the air conditioner to execute cooling operation according to the operation parameters.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the operating parameter includes at least one of a compressor frequency and a fan wind speed.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

acquiring the moving speed of the user;

determining the time length of the user reaching the preset position according to the moving speed and the distance between the user and the preset position;

and acquiring the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the time for the user to reach the preset position.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

determining a cooling difference value according to the current environmental parameters and the temperature return triggering threshold value;

and determining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the time length of the user reaching the preset position and the cooling difference.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

when the air conditioner meets a temperature return triggering threshold value, detecting whether the user reaches the preset position;

when the user reaches the preset position, the step of controlling the air conditioner to execute the temperature return operation is executed;

and controlling the air conditioner to execute constant temperature operation when the user does not reach the preset position, and executing the step of controlling the air conditioner to execute temperature return operation when the user is detected to reach the preset position.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature return trigger threshold value is pre-stored.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature return triggering threshold value is obtained according to reference information, wherein the reference information comprises at least one of current environmental parameters, the running state of the air conditioner, current time information, user information, position information of the air conditioner and a refrigerating rate.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the number of the reference information is at least two, and the temperature return trigger threshold value is obtained according to the weight value of each reference information.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature return trigger threshold is obtained according to trigger thresholds set by each user within a preset time interval, and the temperature return trigger threshold is a trigger threshold with a set frequency meeting a preset frequency condition.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the user is divided into a plurality of user groups according to the position information, and the temperature return trigger threshold of the position information is a trigger threshold of which the frequency meets a preset frequency condition and is set in the user group corresponding to the position information.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the users are divided into a plurality of user groups according to user types, and the temperature-return trigger threshold of the user type is a trigger threshold of which the frequency meets a preset frequency condition and is set in the user group corresponding to the user type.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the user is divided into a plurality of user groups according to time information, the temperature return trigger threshold of the time information is a trigger threshold of which the frequency meets a preset frequency condition and is set in the user group corresponding to the time information, and the time information comprises at least one of time period information, day information, month information, season information and year information.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature-return triggering threshold value is obtained according to habit data of a user setting temperature-return triggering threshold value in a preset time interval, and the habit data is habit data of which the frequency set by the user meets a preset frequency condition.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the method comprises the steps of obtaining a temperature return trigger threshold according to operation parameters of the air conditioner within a preset time interval, obtaining temperature return operation according to the operation parameters, obtaining a trigger threshold of the temperature return operation, and taking the trigger threshold with the occurrence frequency meeting a preset frequency condition as the temperature return trigger threshold, wherein the temperature return operation is used for temperature adjustment of a user, the target temperature of the temperature adjustment is higher than the current environment temperature, and the trigger threshold is at least one of the operation parameters of the air conditioner and the environment parameters when the temperature return operation is detected.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and generating recommendation information of the temperature return trigger threshold according to the temperature return trigger threshold.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

controlling a compressor of the air conditioner to operate at a maximum frequency;

and controlling a fan of the air conditioner to operate according to the automatic wind speed or the maximum wind speed.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

acquiring the operation parameters of the temperature return operation;

and controlling the air conditioner to operate according to the operation parameters.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the operation parameters are obtained according to the operation parameters of the air conditioner when the air conditioner enters the temperature return stage, the environmental parameters and the target temperature rise threshold value of the temperature return stage.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and when the air conditioner meets the target temperature rise threshold value of the temperature return stage, controlling the air conditioner to exit the temperature return stage.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and when at least one of the operation parameters, the somatosensory temperature and the environmental parameters of the air conditioner meets the target temperature-rise threshold, judging that the air conditioner meets the target temperature-rise threshold.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

raising the indoor temperature to a preset indoor temperature;

the difference between the outdoor temperature and the indoor temperature reaches a preset difference;

the somatosensory temperature of the user is increased to a preset somatosensory temperature;

the running time of the air conditioner temperature return operation reaches the preset time.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the difference value between the temperature return triggering threshold value and the target temperature rising threshold value is 2-6 ℃.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and executing the step of acquiring the distance between the user and the preset position in the process that the user goes to the preset position.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature reduction rate of the temperature reduction stage is greater than the temperature rise rate of the temperature return stage.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

at least one of the detected ambient temperature and the fan speed is not displayed during the cool down phase.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the supercooling prevention mode is used for reducing the indoor temperature of the air conditioner in a cooling-first and heating-second mode.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and adjusting the indoor temperature to be the target temperature-rising threshold value in the temperature-returning stage.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

the temperature return operation includes at least one of a temperature setting, a wind speed setting, and a humidity setting.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

when a cooling instruction is received, performing cooling operation;

when a temperature rising instruction is received or the air conditioner meets a temperature rising triggering threshold value, temperature rising operation is executed, wherein the server acquires the distance between the user and the preset position, and when the distance between the user and the preset position is not more than the preset distance, a temperature reducing instruction is sent to the air conditioner.

Further, the processor 1001 may be configured to call a control program of the air conditioner stored in the memory 1003, and perform the following operations:

and when the temperature rise instruction is detected by the server that the air conditioner meets a temperature return trigger threshold, sending the temperature rise instruction to the air conditioner.

Referring to fig. 2, in an embodiment, a control method of an air conditioner includes:

step S10, acquiring the distance between the user and a preset position;

step S20, when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute a cooling operation;

and step S30, controlling the air conditioner to execute the temperature return operation when the air conditioner meets the temperature return trigger threshold.

In this embodiment, the indoor temperature of the environment where the air conditioner is located is obtained in real time or at regular time, and when it is detected that the indoor temperature reaches the temperature return trigger threshold, the air conditioner is controlled to execute the temperature return process.

In the cooling stage, the air conditioner may be operated according to an operation parameter set by a user, for example, the air conditioner is controlled to operate for a preset time according to a preset parameter, or the air conditioner is controlled to operate according to a preset operation parameter and a cooling threshold, for example, a temperature threshold or a time threshold, or the like, or the cooling threshold is set, and a corresponding operation parameter is obtained according to a reference parameter (for example, at least one of an environmental parameter and an operation parameter) and the cooling threshold, and the operation is performed according to the operation parameter.

Similarly, in the temperature return stage, the air conditioner may be controlled to operate according to an operation parameter set by a user, for example, the air conditioner is controlled to operate for a preset time according to a preset parameter, or the air conditioner is controlled to operate according to a preset operation parameter and a target temperature rise threshold is set, such as a temperature threshold or a time threshold, or the target temperature rise threshold is set, and a corresponding operation parameter is obtained according to a temperature decrease threshold and the target temperature rise threshold, and the operation is performed according to the operation parameter.

In the supercooling prevention mode, if the indoor temperature or the sensible temperature drops too low in the mode, the temperature return operation is performed; it is understood that the temperature returning operation may be performed if the temperature difference between the outdoor temperature and the indoor temperature is too large.

It is understood that the cooling rate of the cooling phase may be greater than the heating rate of the warming phase, so as to rapidly decrease the temperature, so that the user quickly feels the temperature decrease, and slowly increase the temperature back to the target warming threshold in the warming phase, so that the indoor environment is maintained at a lower temperature for a longer time, so that the user feels the indoor cool, and the user comfort is improved. For example, a compressor of the air conditioner is controlled to operate according to a first frequency in a cooling stage; and controlling the compressor of the air conditioner to operate according to a second frequency in the temperature return operation stage, wherein the first frequency is greater than the second frequency, the frequency in the first stage can be the maximum frequency of the operation of the air conditioner, and the frequency in the second stage can be a preset second frequency or can be obtained through a target temperature rise threshold value. Optionally, the first frequency and the second frequency may be preset by a user and stored in at least one of the air conditioner, the control device, and the server.

And in the temperature return stage, the indoor temperature is adjusted to be a target temperature value, the target temperature value can be a temperature value set by a user, and the target temperature value can also be obtained through big data analysis. It will be appreciated that the room temperature at the beginning of the cool down phase is greater than the room temperature at the end of the warm up phase to provide the final cooling to the user.

Because the wind speed and the humidity have influence on the sensible temperature of the user, the sensible temperature of the user can be adjusted by adjusting at least one of the wind speed and the humidity in a cooling stage and a temperature returning stage so as to make the feeling of the user more comfortable, and optionally at least one of a fan of the air conditioner and a fan linked with the air conditioner is controlled to operate at a first rotating speed in the cooling operation stage; and controlling at least one of a fan of the air conditioner and a fan linked with the air conditioner to operate at a second rotating speed in the temperature return operation stage, wherein the first rotating speed is greater than the second rotating speed. This indoor user's impression to the wind speed accessible adjusts the rotational speed of indoor fan or the rotational speed of indoor fan and realizes, and this indoor fan can link with the air conditioner. The humidity can also be coordinated in the cooling stage and the tempering stage, namely the user is more comfortable in the cooling stage and the tempering stage through the temperature setting, if the humidity set in the tempering stage is less than the humidity set in the cooling stage, the lower the indoor humidity is, the higher the body sensing temperature sensed by the user is, under the same indoor temperature environment.

In the technical scheme disclosed in this embodiment, the supercooling-prevention mode is used to reduce the indoor temperature of the air conditioner in a manner of reducing the temperature first and then raising the temperature, and in this process, since the temperature-return trigger threshold is smaller than the target temperature-raising threshold, the indoor temperature is reduced to a temperature at which the user feels cooler, and then the indoor temperature is raised to a more comfortable temperature.

In the cooling stage and when an operation parameter adjusting instruction is received, controlling the air conditioner to exit the cooling stage; or controlling the air conditioner to exit the temperature return stage when the temperature return stage receives the operation parameter adjusting instruction. It can be understood that the cooling stage and the temperature returning stage can also be exited when a shutdown instruction is received; or exiting the supercooling prevention mode upon receiving an exit command of the supercooling prevention mode.

In this embodiment, the distance between the user and the preset position can be acquired through the mobile terminal, and the distance between the user and the preset position is sent to the air conditioner, so that the air conditioner performs the cooling operation when detecting that the distance between the user and the preset position is not greater than the preset distance, and performs the temperature return operation when detecting that the air conditioner meets the temperature return trigger threshold. Or the mobile terminal acquires the distance between the user and the preset position, and sends the distance between the user and the preset position to the server, so that the server generates a cooling operation instruction and sends the cooling operation instruction to the air conditioner when detecting that the distance between the user and the preset position is not greater than the preset distance, so as to control the air conditioner to execute the cooling operation, and when detecting that the air conditioner meets a temperature return trigger threshold value, generates a temperature return operation instruction and sends the temperature return operation instruction to the air conditioner, so as to control the air conditioner to execute the temperature return operation.

In this embodiment, the distance between the user and the preset position is determined according to the current position of the user and the preset position. The current location of the user may be detected through the GPS function of the mobile terminal. Because there is more than one route between a certain position and the preset position, a user can set a common route, and the distance between the user and the preset position is determined according to the current position of the user and the common route. Note that the preset position may be a home or a company.

In this embodiment, the air conditioner may be controlled to perform the temperature return operation when at least one of the environmental parameter, the sensible temperature, and the operation parameter of the air conditioner satisfies the temperature return condition, or may be controlled to perform the temperature return operation when it is detected that the user reaches the preset position. It should be noted that, whether the user arrives at the preset position may be detected through a GPS function, or whether the user arrives at the preset position may be detected through a camera, a radar sensor, and other devices.

Specifically, when the user reaches the preset position, the air conditioner is controlled to execute a temperature return operation in order to avoid that the user experience is influenced by too low indoor environment temperature; and when the user does not reach the preset position, if the temperature return operation is executed in advance, when the user reaches the preset position, the indoor environment temperature may be higher, so that the indoor environment is not cool enough, which influences the user experience to a certain extent, so that the air conditioner is controlled to execute the constant temperature operation, and when the user is detected to go home, the air conditioner is controlled to execute the temperature return operation. It should be noted that the constant temperature operation is that the air conditioner operates according to the set temperature and the set wind speed corresponding to the temperature return condition.

The user can send a change instruction through the preset mobile terminal, wherein the change instruction is at least used for changing the target cooling time of the air conditioner, the operation parameters of the cooling operation process, the target temperature return time, the operation parameters of the temperature return operation process and the like. When the change instruction is detected, the air conditioner is not required to be triggered to execute the cooling operation according to the distance between the user and the preset position, and the air conditioner is controlled to execute the cooling operation when the target cooling time is reached.

The operating parameters of the cooling phase can be obtained by: the method comprises the steps of obtaining the moving speed of a user, determining the time length of the user reaching the preset position according to the moving speed and the distance between the user and the preset position, and obtaining the operation parameters of a cooling stage according to the current operation parameters of the air conditioner, the current environment parameters, the temperature return trigger threshold value and the time length of the user reaching the preset position. The step of obtaining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the time length of the user reaching the preset position comprises the following steps: determining a cooling difference value according to the current environmental parameters and the temperature return triggering threshold value; and determining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the time length of the user reaching the preset position and the cooling difference.

In the technical scheme disclosed in this embodiment, the distance between the user and the preset position is acquired, when the distance between the user and the preset position is not greater than the preset distance, the air conditioner is controlled to perform the cooling operation, and when the air conditioner meets the temperature return trigger threshold, the air conditioner is controlled to perform the temperature return operation. The invention realizes that when the user arrives at the destination, the indoor environment is cool enough but the temperature is not too low.

In one embodiment, the indoor temperature at the beginning of the cooling phase is greater than the indoor temperature at the end of the warming phase, so that the indoor temperature is cooled first, and then the indoor temperature is raised to a more comfortable temperature, and the user feels more comfortable after the cooling and warming operations.

The program corresponding to the method disclosed in this embodiment may be run in an air conditioner, and when the program is run in the air conditioner, the air conditioner is directly controlled to run according to the running parameters of the temperature returning stage and the temperature reducing stage, the temperature reducing threshold and the target temperature increasing threshold, and when the program is run in a server, the running parameters of the temperature returning stage and the temperature reducing stage, the temperature reducing threshold and the target temperature increasing threshold are sent to the air conditioner, so that the air conditioner runs according to the running parameters of the temperature returning stage and the temperature reducing stage, the temperature reducing threshold and the target temperature increasing threshold, that is, when the temperature reducing stage is entered, the running parameters of the temperature reducing stage and the temperature reducing threshold are sent to the air conditioner, so that the air conditioner performs a temperature reducing operation according to the running parameters and the temperature reducing threshold, and when the temperature returning stage is entered, the running parameters of the temperature returning stage and the target temperature increasing threshold, the air conditioner carries out temperature return operation according to the operation parameters and a target temperature rise threshold value; or the operation parameters of the cooling stage are sent to an air conditioner, so that the air conditioner can perform cooling operation according to the operation parameters, and when at least one of the operation parameters, the somatosensory temperature and the environmental parameters of the air conditioner meets a cooling threshold value, information of exiting the cooling stage is sent to the air conditioner; and sending the operation parameters of the temperature return stage to an air conditioner for the air conditioner to carry out temperature return operation according to the operation parameters, and sending information for exiting the temperature return stage to the air conditioner when at least one of the operation parameters, the body sensing temperature and the environment parameters of the air conditioner meets a target temperature rise threshold value.

In the technical scheme disclosed in this embodiment, the temperature reduction operation is performed by executing the temperature reduction stage to reduce the indoor temperature, and the indoor temperature is returned by the temperature return operation, so that the user feels cool in the room first and then heats up to avoid the supercooling of the user, thereby improving the comfort of the user.

The temperature-return triggering threshold value can be at least one of indoor environment temperature, difference value of outdoor environment temperature and indoor environment temperature, user sensible temperature and operation time length, and when the temperature-return triggering threshold value comprises a plurality of parameters, when each parameter reaches the corresponding temperature-return triggering threshold value, the temperature-return stage is directly started; or setting a weight value corresponding to each parameter, obtaining a final value according to each weight value, and comparing the final value with a temperature return trigger threshold value; it can be understood that a generation model of the back-temperature trigger threshold may also be set, and each parameter is input into the model to output the back-temperature trigger threshold, and the model may be generated in a big data manner and is not described herein again.

The operating parameter, the sensible temperature and at least one of the environmental parameters satisfying the back-temperature triggering threshold may include that the operating parameter and/or the environmental parameter itself satisfies the back-temperature triggering threshold, and another parameter value obtained by the operating parameter and/or the environmental parameter satisfies the back-temperature triggering threshold, for example, a calculation formula of the sensible temperature may be:

Ts＝T₁+W₁×(H-H₀)

wherein Ts represents sensible temperature, T₁Is the indoor temperature, H is the indoor air humidity, W is the indoor fan speed of the air conditioner, H₀Is a standard humidity value, W₁And the sensible temperature is a coefficient, and the sensible temperature can be obtained by calculating the indoor temperature and the indoor humidity, namely when the sensible temperature is greater than the preset sensible temperature, the environmental parameter meets the preset cooling threshold value. The operating parameter may include at least one of an indoor temperature, an indoor humidity, a temperature difference between an outdoor temperature and an indoor temperature; the operational time parameter may include an operational time period, which may include or include an indoor heat exchanger coil temperature, as it is understood that the indoor temperature is related to the heat exchanger coil temperature.

At least one of the operating parameter, the sensible temperature and the environmental parameter meeting a tempering trigger threshold value comprises at least one of:

reducing the indoor environment temperature to a first preset indoor environment temperature;

the difference between the outdoor environment temperature and the indoor environment temperature reaches a first preset difference;

the somatosensory temperature of the user is reduced to a first preset somatosensory temperature;

the running time of the cooling operation of the air conditioner reaches a first preset time.

The first preset indoor environment temperature can be 22-24 ℃, the first preset difference value can be 2-20 ℃, the first preset sensible temperature can be 23-27 ℃, and the first preset time can be 10-30 min.

The temperature-return trigger threshold can be obtained in real time, or can be a preset temperature-return trigger threshold, the preset temperature-return trigger threshold can be updated, and the real-time obtaining or continuous updating mode comprises the following steps:

the temperature-return triggering threshold is obtained according to first reference information, wherein the first reference information includes at least one of environmental parameters, an operation state of the air conditioner, current time information, user information, position information of the air conditioner and a refrigeration rate, that is, the step of obtaining the temperature-return triggering threshold includes: acquiring first reference information, and acquiring a corresponding temperature return trigger threshold according to the first reference information.

It can be understood that the temperature return trigger threshold value obtained according to the first reference information may be obtained through a preset formula, such as a linear regression formula, to obtain a corresponding temperature return trigger threshold value; or, the method can also be implemented by a mapping table, for example, different reference information intervals correspond to different temperature return trigger thresholds; or, the operation parameter may be obtained through a preset model, such as a big data model, and the model training may be performed through the first reference information and the corresponding temperature-return trigger threshold set by each user to obtain a training model corresponding to the temperature-return trigger threshold, and then after the operation parameter of the air conditioner is obtained, the output temperature-return trigger threshold may be obtained from the model corresponding to the obtained operation parameter input value.

When the air conditioner control method is operated in the server, when entering into the anti-supercooling mode, executing cooling operation to send a cooling instruction to the air conditioner, wherein the air conditioner performs the cooling operation when receiving the cooling instruction; and acquiring a temperature return triggering threshold value, and sending a temperature rise instruction to the air conditioner when at least one of the operation parameters and the environmental parameters of the air conditioner meets the temperature return triggering threshold value.

It can be understood that the above-mentioned air conditioner control method may also be operated in an air conditioner, when operating in the air conditioner, directly after entering into the anti-supercooling mode, executing a cooling stage, performing cooling operation to reduce the indoor temperature, taking the first reference information, obtaining the corresponding temperature return trigger threshold according to the first reference information, and when at least one of the operation parameter and the environmental parameter of the air conditioner satisfies the temperature return trigger threshold, executing the temperature return stage, performing temperature return operation to raise the indoor temperature.

In other variant embodiments, after entering the anti-supercooling mode, a cooling phase is executed, a cooling operation is performed to reduce the indoor temperature, and the server acquires the temperature return trigger threshold; and when at least one of the operating parameters and the environmental parameters of the air conditioner meets a temperature return triggering threshold value, executing a temperature return stage and performing temperature return operation to raise the indoor temperature.

The first reference information can be a plurality of pieces of first reference information, the temperature return trigger thresholds corresponding to different pieces of reference information are different, when the first reference information is a plurality of pieces of first reference information, the weight corresponding to each piece of first reference information can be set through a linear regression model, and the temperature return trigger thresholds are obtained according to the weight corresponding to each piece of first reference information and the first reference information; the weight of each first reference information can be obtained through big data training, and a final model can be obtained according to a temperature return trigger threshold value set by each user; the model has a learning function, and can continuously collect the temperature return triggering threshold value set by the user to update the model.

It can be understood that after the temperature return trigger threshold is obtained according to the first reference information, the previously stored temperature return trigger threshold can be updated, and meanwhile, the recommendation information can be generated according to the temperature return trigger threshold and sent to the control terminal corresponding to the air conditioner or the air conditioner; it can be understood that only the temperature return trigger threshold may be updated, and when the user sets the temperature return trigger threshold, the recommendation information is output and displayed on the setting interface by the air conditioner or the control terminal. Or, the recommendation of the temperature return trigger threshold may be performed when a recommendation condition is satisfied, such as when the air conditioner is turned on or the time reaches a preset time point.

In the technical scheme disclosed in the embodiment, the temperature-return triggering threshold is obtained by referring to the information, and the temperature-rise action is triggered according to the temperature-return triggering threshold, so that the control on the supercooling prevention is more accurate.

In an embodiment, the temperature-return trigger threshold may be a pre-stored temperature-reduction threshold, which may be set manually by a user, or may be obtained according to big data, and the temperature-return trigger threshold for big data analysis is stored, and when the temperature-return trigger threshold is obtained, the stored temperature-return trigger threshold is directly obtained; certainly, the stored temperature-return trigger threshold is continuously updated based on the continuous update of the big data; alternatively, the temperature-returning trigger threshold may be obtained after entering the anti-supercooling mode or the temperature-lowering phase.

The realization mode of the back temperature trigger threshold obtained by the big data can be as follows: the temperature-return triggering threshold is obtained according to a cooling threshold set by each user within a preset time interval, and the temperature-return triggering threshold is the cooling threshold with the set frequency meeting a preset frequency condition. The specific implementation steps can include: obtaining a cooling threshold value set by each user within a preset time interval; and taking the temperature reduction threshold with the set frequency meeting the preset frequency condition as a temperature return trigger threshold. The preset frequency condition can be that the set frequency is maximum or the set frequency is greater than the preset frequency, when a plurality of temperature return triggering thresholds which are greater than the preset frequency are provided, the temperature return triggering thresholds can be stored, and a user selects a required temperature return triggering threshold; when the temperature return triggering threshold value which is larger than the preset frequency is not available, sample data can be added, namely, big data analysis is carried out again by combining the temperature reduction threshold value set by the user in the previous time interval.

When the air conditioner control method is operated in an air conditioner or a server, the obtained temperature return triggering threshold value can be directly adopted for temperature rise judgment, and when the service judgment requires temperature rise, a temperature rise instruction is sent to the air conditioner so that the air conditioner executes temperature return operation; or after the air conditioner enters a cooling stage or a supercooling prevention mode, the air conditioner actively requests a temperature return triggering threshold value from the server, and the server feeds back the temperature return triggering threshold value obtained through the steps to the air conditioner.

It is understood that the temperature-return trigger threshold set by the user may also be recommended to the user based on big data analysis, for example, when the operation of the trigger setting interface is detected, the temperature-return trigger threshold obtained according to the temperature-reduction threshold set by the user is obtained, recommendation information is generated according to the obtained temperature-return trigger threshold, and the recommendation information is output. The conditions for triggering recommendation are not limited to trigger setting operation, and may be, for example, that multiple time points reach a preset time point or that an air conditioner is turned on.

Because the requirements of different types of users or users in different places on the temperature return triggering threshold values may be different, the temperature reduction threshold values set by the users can be analyzed by combining other parameters to obtain the temperature return triggering threshold values required by the users, so that the obtained temperature return triggering threshold values are more accurate, the users can be grouped according to second reference information, the temperature reduction threshold values with the frequency meeting the preset frequency condition set in each user group are obtained as the temperature return triggering threshold values, and the second reference information can comprise environmental parameters, the running state of the air conditioner, current time information, user information, position information of the air conditioner and the refrigeration rate. The user may be classified by only a single second reference information, or may be classified by combining a plurality of second reference information at the same time, for example, combining the user information and the location information. The preset condition may be that the set frequency is the highest or greater than the preset frequency, which is not described in detail again

When the second reference information is obtained, the users can be divided into all user groups according to the second reference information, the temperature-return triggering threshold value corresponding to each user group is obtained, and after the temperature-return triggering threshold value corresponding to each user group is obtained, the second reference information corresponding to each user group and the corresponding temperature-return triggering threshold value are stored in a correlated mode. When the temperature return trigger threshold is obtained, the second reference information of the air conditioner can be obtained first, and the corresponding temperature return trigger threshold is obtained according to the second reference information.

For example, in the process of executing a cooling stage, at least one of an operation parameter, a sensible temperature and the environmental parameter of the air conditioner is acquired; acquiring second reference information of an air conditioner, and acquiring a temperature return trigger threshold corresponding to the second reference information; and when at least one of the operation parameters, the somatosensory temperature and the environment parameters meets a temperature return triggering threshold value, controlling the air conditioner to exit the cooling stage. And controlling the air conditioner to exit the cooling stage, wherein the server can directly send a heating instruction to the air conditioner, or the air conditioner directly performs a temperature return operation.

It can be understood that when the recommendation condition is met, second reference information of the air conditioner can also be acquired, and corresponding recommendation information is generated according to a temperature return trigger threshold corresponding to the second reference information, where the recommendation condition may include that the air conditioner is started, enters a temperature return trigger threshold setting interface, or a time point reaches a recommendation time point.

The location information may include at least one of a geographic area, a climate area, a city level, a province, a town, and a region, the geographic area may include a north part, a south part, an east part, a west part, a middle part, and the like, and each region may be further divided, such as a northeast part, a northwest part, and the like; the climate area can be divided into tropical zone, subtropical zone, temperate zone and other climate areas; the city grade can be a city in the direct jurisdiction, a first-line city, a second-line city and the like, and all parameters in the position information can be combined to obtain the temperature return triggering threshold value.

The time information may be at least one of season, month, time attribute (such as working day or holiday), day night, and 24 hour time period, or may be further integrated, such as which time period of which season.

The operation state may include at least one of a temperature setting, a wind speed setting, a humidity setting, and an operation duration of the air conditioner, the temperature setting may include a temperature set by a user, the wind speed, and the humidity are the same, and the operation duration may be a continuous operation duration after the air conditioner is turned on.

The environmental parameter may include at least one of an indoor temperature, an outdoor temperature, and humidity, and weather, which may be obtained through weather forecast, such as sunny days, cloudy days, rainy days, and the like, where different weather users experience different temperatures.

The cooling rate may be obtained by including at least one of a number of matches of the air conditioner, energy efficiency, room area/volume, heat insulation performance, and outdoor temperature, and the cooling rate calculation model may be preset, and a user may input at least one of the number of matches, energy efficiency, room area/volume, heat insulation performance, and outdoor temperature when the air conditioner is in use, and may obtain a corresponding cooling rate after the user inputs.

The user information may include at least one of a user gender, a user age group, and a user health condition, the user health condition may be a user health or a disease, and the user disease may be specifically classified into a disease type.

The following description is given of a way of grouping users by using location information, and other second reference information is not repeated herein in the same way, where the users are divided into a plurality of user groups according to the location information, and the temperature-return trigger threshold corresponding to each location information is the temperature-reduction threshold whose frequency meets the preset frequency condition set in the corresponding user group. The method comprises the following specific steps: acquiring position information corresponding to each user, and grouping the users according to the position information to obtain each user group, wherein each user group corresponds to one piece of position information; and taking the temperature reduction threshold with the frequency meeting the preset frequency condition set in each user group as the corresponding temperature return trigger threshold of the user group. The preset condition may be that the set frequency is the highest or greater than the preset frequency, and details are not repeated.

When the position information is obtained, the users can be divided into all user groups according to the position information, the temperature-return triggering threshold value corresponding to each user group is obtained, and after the temperature-return triggering threshold value corresponding to each user group is obtained, the position information corresponding to each user group and the corresponding temperature-return triggering threshold value are stored in a correlated mode. When the temperature return trigger threshold is obtained, the position information of the position where the air conditioner is located can be obtained first, and the corresponding temperature return trigger threshold is obtained according to the position information. For example, in the process of executing a cooling stage, at least one of an operation parameter, a sensible temperature and the environmental parameter of the air conditioner is acquired; acquiring the position information of an air conditioner, and acquiring a temperature return triggering threshold corresponding to the position information; and when at least one of the operation parameters, the somatosensory temperature and the environment parameters meets a temperature return triggering threshold value, controlling the air conditioner to exit the cooling stage. And controlling the air conditioner to exit the cooling stage, wherein the server can directly send a heating instruction to the air conditioner, or the air conditioner directly performs a temperature return operation.

It can be understood that when the recommendation condition is met, the position information of the position where the air conditioner is located can be obtained, and the corresponding recommendation information is generated according to the temperature return trigger threshold corresponding to the position information, wherein the recommendation condition may include that the air conditioner is started, enters a temperature return trigger threshold setting interface, or the time point reaches the recommendation time point.

In the technical scheme disclosed in this embodiment, a final back temperature trigger threshold can be obtained by means of big data analysis, so that the accuracy of setting the back temperature trigger threshold is improved, back temperature can be triggered more accurately, and the comfort of a user is further improved.

In an embodiment, the habit data of the user may be analyzed, and a final rewarming trigger threshold is obtained according to the analysis, that is, the rewarming trigger threshold is obtained according to the habit data of the user setting the rewarming trigger threshold in a preset time interval, and the rewarming trigger threshold is the habit data of which the frequency set by the user meets a preset frequency condition, that is, the corresponding steps may include: acquiring habit data of a user in a preset time interval, and acquiring habit data with a frequency set by the user and meeting a preset frequency condition as a temperature return trigger threshold.

The habit data can be used for setting a temperature-return triggering threshold value with frequency meeting a preset frequency condition for a user, and can also be obtained for habit operation of the user, for example, the operation frequency of the user after the air conditioner is started meets the action of the preset frequency condition, for example, when the user first adjusts the temperature after the air conditioner is started, the temperature with frequency meeting the preset condition is set, or the operation duration corresponding to the temperature adjustment is first performed after the air conditioner is started, or the setting frequency of at least one of the operation duration, the indoor temperature, the indoor-outdoor temperature difference and the somatosensory temperature when the air conditioner first performs the temperature-return operation meets the preset frequency condition.

After the temperature return trigger threshold is obtained according to the habit data, the temperature return trigger threshold can be stored and updated regularly, or the corresponding temperature return trigger threshold is updated every time the air conditioner is started; it can be understood that, when the recommendation condition is satisfied, the recommendation information may be generated according to the temperature-return trigger threshold, and the recommendation information is output, where the recommendation condition is already described in the foregoing and is not described again.

When the back-temperature trigger threshold is obtained according to the habit data of the user, other parameters, such as at least one of time information, environmental parameters and operation state, may be used, that is, the habit data is grouped according to other parameters, so as to obtain the back-temperature trigger threshold corresponding to each other parameter, and the manner of obtaining the back-temperature trigger threshold after grouping is referred to above, and is not described herein again.

In the technical scheme disclosed in this embodiment, directly obtain the rewarming according to user's habit data and trigger the threshold value to the rewarming that makes and obtain triggers the threshold value and more closes to user's habit, can trigger the rewarming more accurately, further improves user's travelling comfort.

In an embodiment, the temperature-return triggering threshold is obtained according to an operation parameter of the air conditioner within a preset time interval, a temperature-return operation is obtained according to the operation parameter, a temperature-reduction threshold of the temperature-return operation is obtained, the temperature-reduction threshold, which meets a preset frequency condition with the occurrence frequency, is used as the temperature-return triggering threshold, wherein the temperature-return operation is used for temperature adjustment by a user, a target temperature of the temperature adjustment is higher than a current set temperature, and when the temperature-reduction threshold is detected, at least one of the operation parameter, the somatosensory temperature and the environmental parameter of the air conditioner is obtained.

The operation parameters may include temperature adjustment and/or operation duration, it is understood that the operation parameters may also include other operation parameters, when the operation parameters are analyzed, a temperature return operation may be first identified in each operation parameter, the temperature return operation is first to perform temperature adjustment on the air conditioner, meanwhile, an adjusted target temperature (set temperature) is higher than a set temperature before adjustment, after the temperature return operation is identified, at least one of the operation parameters and the environmental parameters of the air conditioner may be obtained, and a temperature return trigger threshold value is obtained according to at least one of the operation parameters and the environmental parameters.

The specific steps can correspond to: the method comprises the steps of obtaining operation parameters of the air conditioner within a preset time interval, obtaining temperature return operation according to the operation parameters, obtaining a cooling threshold according to the temperature return operation, and taking the cooling threshold with the occurrence frequency meeting a preset frequency condition as a temperature return trigger threshold.

The method can be operated in a server, and when the server enters a supercooling prevention mode, the method executes cooling operation to send a cooling instruction to the air conditioner, wherein the air conditioner performs the cooling operation when receiving the cooling instruction; and acquiring a temperature return triggering threshold value, and sending a temperature rise instruction to the air conditioner when at least one of the operation parameters and the environmental parameters of the air conditioner meets the temperature return triggering threshold value. The temperature return trigger threshold value can be obtained in advance through operation parameters; or the information can be obtained in advance when the air conditioner runs, and the information can be sent to the air conditioner by the server after being updated, or the information can be obtained actively after the air conditioner is started or enters into a supercooling prevention mode when the air conditioner runs.

After the temperature return trigger threshold is obtained according to the habit data, the temperature return trigger threshold can be stored and updated regularly, or the corresponding temperature return trigger threshold is updated every time the air conditioner is started; it can be understood that, when the recommendation condition is satisfied, the recommendation information may be generated according to the temperature-return trigger threshold, and the recommendation information is output, where the recommendation condition is already described in the foregoing and is not described again.

It can be understood that when the analysis is performed according to the operation parameters of the air conditioner, the analysis can be performed only by the air conditioner which needs to set the temperature return triggering threshold value; and analyzing the operation parameters corresponding to each user group after grouping according to the second reference information to obtain the temperature return triggering threshold corresponding to each second reference information.

In the technical scheme disclosed in the embodiment, the temperature-return triggering threshold value is directly obtained according to the operation parameters of the air conditioner, so that the obtained temperature-return triggering threshold value is closer to the use of a user, the temperature-return can be triggered more accurately, and the comfort of the user is further improved.

In an embodiment, the recommendation information of the temperature-return trigger threshold may be generated according to the temperature-return trigger threshold, and when the recommendation information is generated, the recommendation information may also be generated by combining first reference information and the temperature-return trigger threshold, where the first reference information is at least one of an environmental parameter, an operating state of the air conditioner, current time information, user information, location information of the air conditioner, and a cooling rate.

It can be understood that when the recommendation condition is met, the first reference information corresponding to the target air conditioner can be acquired, the corresponding temperature return trigger threshold value is acquired according to the first reference information, the recommendation information is generated according to the temperature return trigger threshold value and the first reference information, the generated recommendation information is output, the output of the recommendation information comprises sending the recommendation information to at least one of the air conditioner and the control terminal, and the mode of outputting the recommendation information by the air conditioner and the control terminal can comprise at least one of voice broadcasting and displaying. The recommended condition may include at least one of a time point reaching a preset time point, a turning-on of the air conditioner, and a setting operation triggering a warm-up trigger threshold.

In the technical scheme disclosed in the embodiment, the user can effectively set the relatively accurate temperature-return trigger threshold value through a recommended mode.

In one embodiment, the air conditioner can operate according to preset operating parameters during the cooling operation, and can also be obtained through at least one of the current operating parameters, the sensible temperature and the environmental parameters and a temperature return trigger threshold; the preset operating parameter may include at least one of a temperature setting, a humidity setting, and a wind speed, both of which are related to an operating frequency of the compressor.

In order to rapidly cool the air conditioner during the cooling stage so that the user feels cool quickly during the cooling stage, the air conditioner may be operated at a high wind speed and/or a high frequency, that is, the cooling stage is performed, and the step of controlling the air conditioner to perform the cooling operation to reduce the indoor temperature includes at least one of the following steps:

controlling a compressor of the air conditioner to operate at a maximum frequency;

and controlling a fan of the air conditioner to operate according to the automatic wind or the maximum wind speed.

It will be appreciated that the frequency of the compressor may also be a predetermined percentage of the maximum frequency, and similarly the wind speed may also be a predetermined percentage of the maximum wind speed; the automatic wind may be adjusted according to environmental parameters such as temperature and humidity, and the wind speed may be increased accordingly in the cooling phase and in the automatic wind mode.

When the air conditioner obtains the operation parameters of the air conditioner in the cooling stage, the first reference information can be combined, the operation parameters corresponding to different first reference information are different, for example, the lower the indoor temperature is, the lower the corresponding fan rotating speed may be.

In other modified embodiments, the operation parameters of the cooling phase may also be obtained by performing the cooling phase in the following manner, and the step of controlling the air conditioner to perform the cooling operation to reduce the indoor temperature includes:

acquiring at least one of an operating parameter, a somatosensory temperature and the environmental parameter of the air conditioner, and acquiring a temperature return trigger threshold;

acquiring an operating parameter of a cooling stage according to at least one of the operating parameter, the somatosensory temperature and the environmental parameter and the temperature return trigger threshold;

and entering a cooling stage, and controlling the air conditioner to perform cooling operation according to the operation parameters.

Through operating parameter, body temperature and in the environmental parameter at least one and the operating parameter of cooling stage is acquireed to the temperature return trigger threshold value to the air conditioner that makes can reduce fast to the temperature return trigger threshold value, can guarantee simultaneously that the temperature in cooling stage reduces to the temperature return trigger threshold value.

In the technical scheme disclosed in this embodiment, the operating parameters in the cooling stage can be obtained according to the environmental parameters or the operating parameters, and the operation can also be performed according to the preset operating parameters in the cooling stage, so that the indoor temperature is rapidly reduced, and the comfort of the user is improved.

In an embodiment, as shown in fig. 3, on the basis of the above embodiment, the air conditioner control method further includes:

and step S40, when the air conditioner meets the target temperature rise threshold value of the temperature return stage, controlling the air conditioner to exit the temperature return stage.

The target temperature-raising threshold value can be at least one of indoor environment temperature, difference value between outdoor environment temperature and indoor environment temperature, user body feeling temperature and operation time length, and when the target temperature-raising threshold value comprises a plurality of parameters, when each parameter reaches the corresponding target temperature-raising threshold value, the temperature-raising stage is directly started; or setting a weight value corresponding to each parameter, obtaining a final value according to each weight value, and comparing the final value with a target temperature rise threshold value; it can be understood that a generation model of the target temperature increase threshold may also be set, and each parameter is input into the model to output the target temperature increase threshold, and the model may be generated in a big data manner and is not described herein again.

The operating parameter, the sensible temperature, and at least one of the environmental parameters satisfying the target warming threshold may include that the operating parameter and/or the environmental parameter itself satisfies the target warming threshold, and another parameter value obtained by the operating parameter and/or the environmental parameter satisfies the target warming threshold, for example, a calculation formula of the sensible temperature may be:

Ts＝T₁+W₁×(H-H₀)

wherein the content of the first and second substances,ts represents sensible temperature, T₁Is the indoor temperature, H is the indoor air humidity, W is the indoor fan speed of the air conditioner, H₀Is a standard humidity value, W₁And if the temperature is the coefficient, the sensible temperature can be obtained by calculating the indoor temperature and the indoor humidity, namely when the sensible temperature is higher than the preset sensible temperature, the environmental parameter meets the preset temperature-rising threshold value. The operating parameter may include at least one of an indoor temperature, an indoor humidity, a temperature difference between an outdoor temperature and an indoor temperature; the operational time parameter may include an operational time period, which may include or include an indoor heat exchanger coil temperature, as it is understood that the indoor temperature is related to the heat exchanger coil temperature.

At least one of the operating parameter, the sensible temperature and the environmental parameter meeting a target warming threshold value comprises at least one of:

the indoor environment temperature is increased to a second preset indoor environment temperature;

the difference between the outdoor environment temperature and the indoor environment temperature reaches a second preset difference;

the somatosensory temperature of the user is increased to a second preset somatosensory temperature;

and the running time of the heating operation of the air conditioner reaches a second preset time.

The second preset indoor environment temperature can be 24-28 ℃, the second preset difference value can be 2-20 ℃, the second preset sensible temperature can be 25-29 ℃, and the second preset time can be 10-30 min.

The target temperature-raising threshold can be obtained in real time or can be a preset target temperature-raising threshold, the preset target temperature-raising threshold can be updated, and the real-time obtaining or continuous updating mode comprises the following steps:

the target temperature-increasing threshold is obtained according to third reference information, where the third reference information includes at least one of an environmental parameter, an operation state of the air conditioner, current time information, user information, location information of the air conditioner, and a cooling rate, that is, the step of obtaining the target temperature-increasing threshold includes: and acquiring third reference information, and acquiring a corresponding target temperature rise threshold according to the third reference information.

It can be understood that the target temperature increase threshold obtained according to the third reference information may be obtained by a preset formula, such as a linear regression formula, to obtain a corresponding target temperature increase threshold; or, the method can also be implemented by a mapping table, for example, different reference information intervals correspond to different target temperature rise thresholds; or, the target temperature rise threshold value may be obtained through a preset model, for example, a big data model, and model training may be performed through third reference information set by each user and the corresponding target temperature rise threshold value to obtain a training model corresponding to the target temperature rise threshold value, and then after the operation parameters of the air conditioner are obtained, the output target temperature rise threshold value may be obtained from the model corresponding to the obtained operation parameter input value.

When the air conditioner control method is operated in the server, when entering into the anti-supercooling mode, executing a heating operation to send a heating instruction to the air conditioner, wherein the air conditioner performs the heating operation when receiving the heating instruction; acquiring a target cooling threshold, and sending a heating instruction to the air conditioner when at least one of the operating parameters and the environmental parameters of the air conditioner meets the target cooling threshold; and acquiring a target temperature-rising threshold, and sending a temperature-rising stopping instruction to the air conditioner when at least one of the operating parameters and the environmental parameters of the air conditioner meets the target temperature-rising threshold.

It can be understood that the above-mentioned air conditioner control method may also be implemented in an air conditioner, when implemented in the air conditioner, directly after entering into the anti-supercooling mode, executing a cooling stage, performing a heating operation to reduce the indoor temperature, obtaining first reference information, obtaining a corresponding target cooling threshold according to the first reference information, executing a heating stage when at least one of the operating parameter and the environmental parameter of the air conditioner satisfies the target cooling threshold, performing a heating operation to raise the indoor temperature, and exiting the heating stage when at least one of the operating parameter and the environmental parameter of the air conditioner satisfies the target heating threshold.

In other variant embodiments, after entering the anti-supercooling mode, a cooling phase is executed, a cooling operation is performed to reduce the indoor temperature, and the server obtains a target cooling threshold; when at least one of the operation parameters and the environmental parameters of the air conditioner meets the target temperature-reducing threshold value, executing a temperature-increasing stage, performing temperature-increasing operation to increase the indoor temperature, and when at least one of the operation parameters and the environmental parameters of the air conditioner meets the target temperature-increasing threshold value, exiting the temperature-increasing stage

The third reference information can be multiple, the target temperature rise threshold values corresponding to different reference information are different, when the third reference information is multiple, the weight corresponding to each third reference information can be set through a linear regression model, and the target temperature rise threshold value is obtained according to the weight corresponding to each third reference information and the third reference information; the weight of each third reference information can be obtained through big data training, and a final model can be obtained according to a target temperature rise threshold set by each user; the model has a learning function, and can continuously collect a target temperature rise threshold value set by a user to update the model.

It can be understood that after the target temperature increase threshold is obtained according to the third reference information, the target temperature increase threshold stored before can be updated, and meanwhile, the recommendation information can be generated according to the target temperature increase threshold and sent to the control terminal corresponding to the air conditioner or the air conditioner; it can be understood that only the target temperature-raising threshold may be updated, and when the user sets the target temperature-raising threshold, the recommendation information is output and displayed on the setting interface by the air conditioner or the control terminal. Alternatively, the recommendation of the target temperature rise threshold may be performed when a recommendation condition is satisfied, such as when the air conditioner is turned on or the time reaches a preset time point.

In the technical scheme disclosed in the embodiment, the target temperature-raising threshold value is obtained by referring to the information, and the temperature-raising action is cut off according to the target temperature-raising threshold value, so that the control on the supercooling prevention is more accurate.

In an embodiment, the target temperature-raising threshold may be a pre-stored temperature-raising threshold, the pre-stored temperature-raising threshold may be set manually by a user, or may be obtained according to big data, and the target temperature-raising threshold analyzed by the big data is saved, and when the target temperature-raising threshold is obtained, the saved target temperature-raising threshold is directly obtained; of course, based on the continuous update of the big data, the stored target temperature-increasing threshold value is also continuously updated; alternatively, the target warming threshold may be obtained after entering the anti-supercooling mode or the warming phase.

The implementation of the target temperature rise threshold obtained by the big data can be as follows: the target temperature-rise threshold is obtained according to temperature-rise thresholds set by users within a preset time interval, and the target temperature-rise threshold is the temperature-rise threshold with the set frequency meeting a preset frequency condition. The specific implementation steps can include: acquiring a temperature rise threshold value set by each user within a preset time interval; and taking the temperature rise threshold with the set frequency meeting the preset frequency condition as a target temperature rise threshold. The preset frequency condition can be that the set frequency is maximum or the set frequency is greater than the preset frequency, when a plurality of target temperature-rising thresholds which are greater than the preset frequency are provided, the target temperature-rising thresholds can be stored, and a user selects a required target temperature-rising threshold; when the target temperature rise threshold value which is larger than the preset frequency is not available, sample data can be added, namely, big data analysis is carried out again by combining the temperature rise threshold value set by the user in the previous time interval.

When the air conditioner control method is operated in an air conditioner or a server, the obtained target temperature rise threshold value can be directly adopted for temperature rise stop judgment, and when the service judgment requires temperature rise stop, a temperature rise stop instruction is sent to the air conditioner so that the air conditioner exits the temperature rise operation; or after the air conditioner enters a heating stage or a supercooling prevention mode, the air conditioner actively requests a target heating threshold value from the server, and the server feeds back the target heating threshold value obtained through the steps to the air conditioner.

It is understood that the target temperature increase threshold set by the user may also be recommended to the user based on big data analysis, for example, when an operation of triggering the setting interface is detected, the target temperature increase threshold obtained according to the temperature increase threshold set by the user is acquired, recommendation information is generated according to the obtained target temperature increase threshold, and the recommendation information is output. The conditions for triggering recommendation are not limited to trigger setting operation, and may be, for example, that multiple time points reach a preset time point or that an air conditioner is turned on.

Because the requirements of different types of users or users in different places on the target temperature-raising threshold value may be different, the temperature-raising threshold values set by the users may also be analyzed in combination with other parameters to obtain target temperature-raising threshold values required by the users, so that the obtained target temperature-raising threshold values are more accurate, the users may be grouped according to fourth reference information, the temperature-raising threshold values set in the user groups at a frequency satisfying a preset frequency condition are obtained as the target temperature-raising threshold values, and the fourth reference information may include environmental parameters, an operating state of the air conditioner, current time information, user information, position information of the air conditioner, and a cooling rate. The user may be classified by only a single fourth reference information, or may be classified by combining a plurality of fourth reference information, for example, combining the user information and the location information. The preset condition may be that the set frequency is the highest or greater than the preset frequency, which is not described in detail again

When the second reference information is obtained, the users can be divided into all user groups according to the fourth reference information, the target temperature-rising threshold corresponding to all the user groups is obtained, and after the target temperature-rising threshold corresponding to all the user groups is obtained, the fourth reference information corresponding to all the user groups and the corresponding target temperature-rising threshold are stored in a correlated mode. When the target temperature-increasing threshold is obtained, the fourth reference information of the air conditioner may be obtained first, and the corresponding target temperature-increasing threshold is obtained according to the fourth reference information.

For example, in the process of executing a heating stage, at least one of an operation parameter, a sensible temperature and the environmental parameter of the air conditioner is acquired; acquiring fourth reference information where an air conditioner is located, and acquiring a target temperature rise threshold corresponding to the fourth reference information; and when at least one of the operation parameters, the somatosensory temperature and the environment parameters meets a target heating threshold, controlling the air conditioner to exit the heating stage. And controlling the air conditioner to exit the temperature rise stage, wherein the server can directly send a temperature rise instruction to the air conditioner, or the air conditioner directly carries out temperature rise operation.

It can be understood that when the recommendation condition is met, fourth reference information of the air conditioner can also be acquired, and corresponding recommendation information is generated according to a target temperature rise threshold corresponding to the fourth reference information, where the recommendation condition may include that the air conditioner is started, enters a target temperature rise threshold setting interface, or that a time point reaches a recommendation time point.

The location information may include at least one of a geographic area, a climate area, a city level, a province, a town, and a region, the geographic area may include a north part, a south part, an east part, a west part, a middle part, and the like, and each region may be further divided, such as a northeast part, a northwest part, and the like; the climate area can be divided into tropical zone, subtropical zone, temperate zone and other climate areas; the city grade can be a city in the direct jurisdiction, a first-line city, a second-line city and the like, and all parameters in the position information can be combined to obtain the target temperature-rising threshold value.

The time information may be at least one of season, month, time attribute (such as working day or holiday), day night, and 24 hour time period, or may be further integrated, such as which time period of which season.

The operation state may include at least one of a temperature setting, a wind speed setting, a humidity setting, and an operation duration of the air conditioner, the temperature setting may include a temperature set by a user, the wind speed, and the humidity are the same, and the operation duration may be a continuous operation duration after the air conditioner is turned on.

The environmental parameter may include at least one of an indoor temperature, an outdoor temperature, and humidity, and weather, which may be obtained through weather forecast, such as sunny days, cloudy days, rainy days, and the like, where different weather users experience different temperatures.

The cooling rate may be obtained by including at least one of a number of matches of the air conditioner, energy efficiency, room area/volume, heat insulation performance, and outdoor temperature, and the cooling rate calculation model may be preset, and a user may input at least one of the number of matches, energy efficiency, room area/volume, heat insulation performance, and outdoor temperature when the air conditioner is in use, and may obtain a corresponding cooling rate after the user inputs.

The user information may include at least one of a user gender, a user age group, and a user health condition, the user health condition may be a user health or a disease, and the user disease may be specifically classified into a disease type.

The following description is given of a manner of grouping users by using location information, and similarly, other fourth reference information is not repeated herein, where the users are divided into a plurality of user groups according to the location information, and a target temperature-raising threshold corresponding to each location information is a temperature-raising threshold whose frequency meets a preset frequency condition and is set in a corresponding user group. The method comprises the following specific steps: acquiring position information corresponding to each user, and grouping the users according to the position information to obtain each user group, wherein each user group corresponds to one piece of position information; and taking the temperature rise threshold with the frequency meeting the preset frequency condition set in each user group as a target temperature rise threshold corresponding to the user group. The preset condition may be that the set frequency is the highest or greater than the preset frequency, and details are not repeated.

When the position information is obtained, the users can be divided into all user groups according to the position information, the target temperature-rising threshold corresponding to all the user groups is obtained, and after the target temperature-rising threshold corresponding to all the user groups is obtained, the position information corresponding to all the user groups and the corresponding target temperature-rising threshold are stored in a correlated mode. When the target temperature-raising threshold is obtained, the position information of the position of the air conditioner can be obtained first, and the corresponding target temperature-raising threshold is obtained according to the position information. For example, in the process of executing a heating stage, at least one of an operation parameter, a sensible temperature and the environmental parameter of the air conditioner is acquired; acquiring position information of an air conditioner, and acquiring a target temperature rise threshold corresponding to the position information; and when at least one of the operation parameters, the somatosensory temperature and the environment parameters meets a target heating threshold, controlling the air conditioner to exit the heating stage. And controlling the air conditioner to exit the temperature rise stage, wherein the server can directly send a temperature rise instruction to the air conditioner, or the air conditioner directly carries out temperature rise operation.

It can be understood that when the recommendation condition is met, the position information of the position where the air conditioner is located may also be obtained, and the corresponding recommendation information is generated according to the target temperature-raising threshold corresponding to the position information, where the recommendation condition may include that the air conditioner is turned on, enters a target temperature-raising threshold setting interface, or that the time point reaches the recommendation time point.

In the technical scheme disclosed in this embodiment, a final target temperature rise threshold value can be obtained by means of big data analysis, so that accuracy of setting the target temperature rise threshold value is improved, the temperature return can be exited more accurately, and comfort of a user is further improved.

In an embodiment, the habit data of the user may be analyzed, and a final target temperature-increasing threshold is obtained according to the analysis, that is, the target temperature-increasing threshold is obtained according to the habit data of the target temperature-increasing threshold set by the user within a preset time interval, and the target temperature-decreasing threshold is the habit data of which the frequency set by the user meets a preset frequency condition, that is, the corresponding steps may include: acquiring habit data of a user in a preset time interval, and acquiring habit data with frequency set by the user and meeting a preset frequency condition as a target temperature-rising threshold.

The habit data can be a target temperature rise threshold value with frequency meeting a preset frequency condition for a user, and can also be obtained for habit operation of the user, for example, the operation frequency of the user after the air conditioner is started meets the action of the preset frequency condition, for example, when the user first adjusts the temperature after the air conditioner is started, the set frequency meets the temperature of the preset condition, or the corresponding operation duration of the second temperature adjustment after the air conditioner is started, or the set frequency of at least one of the operation duration, the indoor temperature, the indoor and outdoor temperature difference and the somatosensory temperature when the air conditioner is cooled meets the preset frequency condition.

After the target temperature-rising threshold is obtained according to the habit data, the target temperature-rising threshold can be stored and updated at regular time, or the corresponding target temperature-rising threshold is updated every time the air conditioner is started; it can be understood that, when the recommendation condition is satisfied, the recommendation information may also be generated according to the target temperature increase threshold, and the recommendation information is output, where the recommendation condition is already described in the foregoing and is not described again.

When the target temperature-increasing threshold is obtained according to the user habit data, other parameters, such as at least one of time information, environmental parameters and an operation state, may be used, that is, the habit data is grouped according to the other parameters, so as to obtain the target temperature-increasing threshold corresponding to each other parameter, and the manner of obtaining the target temperature-increasing threshold after grouping is referred to above, and is not described herein again.

In the technical scheme disclosed in the embodiment, the target heating threshold is directly obtained according to the habit data of the user, so that the obtained target heating threshold is closer to the habit of the user, the temperature return can be triggered more accurately, and the comfort of the user is further improved.

In an embodiment, the target temperature-raising threshold is obtained according to an operation parameter of the air conditioner within a preset time interval, a temperature-lowering operation is obtained according to the operation parameter, a temperature-raising threshold of the temperature-lowering operation is obtained, and the temperature-raising threshold whose occurrence frequency meets a preset frequency condition is used as the target temperature-raising threshold, wherein the temperature-raising operation is performed for a user, a target temperature of the temperature adjustment is higher than a set temperature before the adjustment, and the temperature-raising threshold is at least one of the operation parameter, a somatosensory temperature and an environmental parameter of the air conditioner when the temperature-lowering operation is detected.

The operation parameters may include temperature adjustment and/or operation duration, it is understood that the operation parameters may also include other operation parameters, when the operation parameters are analyzed, a cooling operation may be first identified in each operation parameter, the cooling operation is first to perform temperature adjustment on the air conditioner, meanwhile, an adjusted target temperature (set temperature) is less than a set temperature before adjustment, after the heating operation is identified, at least one of the operation parameters and the environmental parameters of the air conditioner may be obtained, and a target heating threshold value may be obtained according to at least one of the operation parameters and the environmental parameters.

The specific steps can correspond to: the method comprises the steps of obtaining operation parameters of the air conditioner within a preset time interval, obtaining cooling operation according to the operation parameters, obtaining a heating threshold according to the cooling operation, and taking the heating threshold with the occurrence frequency meeting a preset frequency condition as the target heating threshold.

The method can be operated in a server, and when the server enters a supercooling prevention mode, the method executes cooling operation to send a cooling instruction to the air conditioner, wherein the air conditioner performs the cooling operation when receiving the cooling instruction; the method comprises the steps of obtaining a target temperature reduction threshold value, sending a temperature increasing instruction to the air conditioner when at least one of the operation parameters and the environment parameters of the air conditioner meets the target temperature reduction threshold value, obtaining the target temperature increasing threshold value, and sending a temperature quitting instruction to the air conditioner when at least one of the operation parameters and the environment parameters of the air conditioner meets the target temperature increasing threshold value. The target temperature rise threshold value can be obtained in advance through the operation parameters; or the information can be obtained in advance when the air conditioner runs, and the information can be sent to the air conditioner by the server after being updated, or the information can be obtained actively after the air conditioner is started or enters into a supercooling prevention mode when the air conditioner runs.

After the target temperature-rising threshold is obtained according to the habit data, the target temperature-rising threshold can be stored and updated at regular time, or the corresponding target temperature-rising threshold is updated every time the air conditioner is started; it can be understood that, when the recommendation condition is satisfied, the recommendation information may also be generated according to the target temperature increase threshold, and the recommendation information is output, where the recommendation condition is already described in the foregoing and is not described again.

It can be understood that, when the analysis is performed according to the operation parameters of the air conditioner, the analysis can be performed only by the air conditioner which needs to set the target temperature rise threshold value; and analyzing the operation parameters corresponding to each user group after grouping according to the second reference information to obtain the target temperature rise threshold corresponding to each second reference information.

In the technical scheme disclosed in the embodiment, the target heating threshold value is directly obtained according to the operating parameters of the air conditioner, so that the obtained target heating threshold value is closer to the use of a user, the temperature return can be triggered more accurately, and the comfort of the user is further improved.

In an embodiment, the recommendation information of the target temperature-increasing threshold may be generated according to the target temperature-increasing threshold, and when the recommendation information is generated, the recommendation information may also be generated by combining second reference information and the target temperature-increasing threshold, where the first reference information is at least one of an environmental parameter, an operating state of the air conditioner, current time information, user information, location information of the air conditioner, and a cooling rate.

It can be understood that when the recommendation condition is met, the first reference information corresponding to the target air conditioner may be acquired, the corresponding target temperature-rising threshold value may be acquired according to the first reference information, the recommendation information may be generated according to the target temperature-rising threshold value and the second reference information, the generated recommendation information may be output, the output of the recommendation information includes sending to at least one of the air conditioner and the control terminal, and the manner in which the air conditioner and the control terminal output the recommendation information may include at least one of voice broadcast and display. The recommended condition may include at least one of a time point reaching a preset time point, a turning-on of the air conditioner, and a setting operation triggering a target temperature increase threshold.

In the technical scheme disclosed in this embodiment, a user can effectively set a relatively accurate target temperature rise threshold value in a recommended manner.

In one embodiment, the air conditioner can operate according to preset operation parameters during the heating operation, and can also be obtained through at least one of the current operation parameters, the sensible temperature and the environmental parameters and a target heating threshold; the preset operating parameter may include at least one of a temperature setting, a humidity setting, and a wind speed, both of which are related to an operating frequency of the compressor.

After the cooling stage is finished, a heating stage is executed, and the step of controlling the air conditioner to perform heating operation to raise the indoor temperature comprises the following steps:

after the cooling stage is finished, acquiring at least one of an operation parameter, a body sensing temperature and the environment parameter of the air conditioner, and acquiring a target heating threshold value of the heating stage;

acquiring an operation parameter of a heating stage according to the target heating threshold and at least one of the operation parameter, the somatosensory temperature and the environmental parameter;

and entering a temperature rise stage, and controlling the air conditioner to carry out temperature rise operation according to the operation parameters.

The temperature-return operation includes at least one of a temperature setting, a wind speed setting, and a humidity setting, the temperature setting and the humidity setting corresponding to an operating frequency of the compressor.

It is understood that the temperature setting, the wind speed setting, and the humidity setting may be combined with the first reference information.

In the technical scheme disclosed in the embodiment, the operation parameters in the temperature rise stage can be obtained according to the environmental parameters or the operation parameters, so that the indoor temperature rise is more stable, and the comfort of a user is improved.

In an embodiment, when the air conditioner is controlled to cool first and then warm up, the air conditioner may cool down first and then warm up slowly, so that the indoor environment may be quickly cooled down to a cooler temperature and slowly return to a more comfortable temperature, that is, the cooling rate of the cooling stage is greater than the warming rate of the warming stage, and the cooling rate of the cooling stage is greater than the warming rate of the warming stage, which can be obtained by adjusting at least one of the operating frequency of the compressor and the rotational speed of the fan, that is:

controlling a compressor of the air conditioner to operate according to a first preset frequency in the cooling operation stage; and controlling a compressor of the air conditioner to run according to a second frequency in the temperature-rising operation stage, wherein the first preset frequency is greater than the second frequency.

Or at least one of a fan of the air conditioner and a fan linked with the air conditioner is controlled to operate at a first rotating speed in the cooling operation stage; and controlling at least one of a fan of the air conditioner and a fan linked with the air conditioner to operate at a second rotating speed in the temperature-raising operation stage, wherein the first rotating speed is greater than the second rotating speed.

The fan linked with the air conditioner can be a fan in the same internet of things with the air conditioner or a fan which is linked with the air conditioner in advance.

In the technical scheme disclosed in the embodiment, the air conditioner can be controlled to rapidly cool to a cooler temperature, and then slowly warm to a more comfortable temperature in the warming stage, so that a user can feel more comfortable in a cooler environment for a longer time.

In an embodiment, the supercooling prevention command can be triggered by the supercooling prevention command sent by the control terminal, that is, the supercooling prevention mode is entered when the supercooling prevention command sent by the control terminal is received.

In this embodiment, the air conditioner can be controlled to start up through the start-up control, and the anti-supercooling mode is triggered through the anti-supercooling control after the air conditioner is started up; or, a start-up supercooling-prevention key may be arranged on the control device, and the supercooling-prevention start-up instruction is triggered by the start-up supercooling-prevention key, that is, when the supercooling-prevention start-up instruction is received, the air conditioner is controlled to start up and enter the supercooling-prevention mode, and the supercooling-prevention start-up instruction is triggered by an entity key or a virtual key on the control device.

When entering into the anti-supercooling mode through the anti-supercooling command, at least one of the current environmental parameter terminals may already meet the target cooling threshold, and at the moment, the temperature rise stage can be directly entered, that is, the environmental parameters are obtained when entering into the anti-supercooling mode; judging whether the environmental parameter is higher than a target environmental threshold value; when the environmental parameter is higher than the cooling target threshold value, executing the cooling stage; and when the environmental parameter is less than or equal to the cooling target threshold, executing the heating phase.

It can be understood that, when the environmental parameter is less than or equal to the target cooling threshold, the air conditioner may also be controlled to perform a heating operation to heat to the target cooling threshold; after the temperature is raised to the temperature-lowering target threshold value, executing a constant temperature stage; and after the constant temperature stage is finished, executing the temperature rising stage. After the indoor temperature is kept at a cool temperature for a period of time, the temperature is raised, and the comfort of a user is improved.

In the technical scheme disclosed in the embodiment, the virtual or physical supercooling-preventing key is arranged on the control equipment to trigger the supercooling-preventing mode, so that a user can quickly and conveniently control the air conditioner to enter the supercooling-preventing mode.

In one embodiment, the anti-overcooling mode is entered when a cool down operation is detected. It can be understood that, when a user performs a cooling operation, a corresponding indoor temperature is set, the temperature can be used as a target temperature, a body-sensing temperature can be obtained according to the temperature and used as the target temperature, or a temperature difference between the indoor temperature and the outdoor temperature can be obtained according to the temperature and used as the target temperature, if the target temperature set by the user is higher, the target temperature can be directly used as a target cooling threshold, that is, when the user enters the anti-supercooling mode, the target temperature of the cooling operation is obtained; and when the target temperature is greater than a target cooling threshold, taking the target temperature as a target heating threshold of the heating stage, and executing the cooling stage.

When the target temperature is less than or equal to a target cooling threshold value, executing the cooling stage;

or when the target temperature is less than or equal to a target cooling threshold, taking the target temperature as a target cooling threshold of a cooling stage, and executing the cooling stage.

When the target temperature is less than or equal to the target temperature-reducing threshold, the temperature can be reduced directly, or the target temperature is used as the extreme temperature-reducing target temperature-reducing threshold, so that the temperature can be reduced to the target temperature.

In the technical scheme disclosed in this embodiment, the anti-supercooling mode is triggered through cooling operation to avoid the temperature being too low during cooling, so as to improve the comfort of the user.

The invention also provides an air conditioner, which comprises a control program of the air conditioner, wherein the control program of the air conditioner is configured to realize the steps of the control method of the air conditioner under the execution main body of the air conditioner.

The invention also provides a server, which comprises a control program of the air conditioner, wherein the control program of the air conditioner is configured to realize the steps of the control method of the air conditioner under the execution main body of the server.

The invention also provides a mobile terminal, which comprises a control program of the air conditioner, wherein the control program of the air conditioner is configured to realize the steps of the control method of the air conditioner under the execution main body of the mobile terminal.

An embodiment of the present invention further provides a computer-readable storage medium, where a control program of an air conditioner is stored in the computer-readable storage medium, and the control program of the air conditioner is executed by a processor to implement the steps of the control method of the air conditioner under the execution of the air conditioner, the server, or the mobile terminal.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a television, a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A control method of an air conditioner is characterized by comprising the following steps:

acquiring the distance between a user and a preset position;

when the distance between the user and the preset position is not more than the preset distance, controlling an air conditioner to execute cooling operation;

and when the air conditioner meets a temperature return triggering threshold value, controlling the air conditioner to execute temperature return operation.

2. The method of claim 1, wherein the air conditioner is determined to satisfy the temperature return trigger threshold when at least one of an operating parameter, a sensible temperature, and an environmental parameter of the air conditioner satisfies the temperature return trigger threshold.

3. The method of controlling an air conditioner according to claim 2, wherein the at least one of an operating parameter, a sensible temperature, and an environmental parameter of the air conditioner satisfying the back-temperature trigger threshold includes at least one of:

reducing the indoor environment temperature to a preset indoor environment temperature;

the difference between the outdoor environment temperature and the indoor environment temperature reaches a preset difference;

the running time of the air conditioner cooling operation reaches the preset time;

the body sensing temperature of the user reaches the preset body sensing temperature.

4. The method of claim 1, wherein the step of controlling the air conditioner to perform a cooling operation when the user is not more than a preset distance from the preset location comprises:

acquiring current operating parameters and environmental parameters of the air conditioner;

acquiring operation parameters of a cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the distance between the user and the preset position;

and entering a cooling stage, and controlling the air conditioner to execute cooling operation according to the operation parameters.

5. The method as claimed in claim 4, wherein the step of obtaining the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature-returning trigger threshold and the distance between the user and the preset position comprises:

acquiring the moving speed of the user;

determining the time length of the user reaching the preset position according to the moving speed and the distance between the user and the preset position;

and acquiring the operation parameters of the cooling stage according to the current operation parameters of the air conditioner, the current environmental parameters, the temperature return trigger threshold and the time for the user to reach the preset position.

6. The method of controlling an air conditioner according to claim 1, wherein the step of controlling the air conditioner to perform a warm-up operation is preceded by the step of:

when the air conditioner meets a temperature return triggering threshold value, detecting whether the user reaches the preset position;

when the user reaches the preset position, the step of controlling the air conditioner to execute the temperature return operation is executed;

and controlling the air conditioner to execute constant temperature operation when the user does not reach the preset position, and executing the step of controlling the air conditioner to execute temperature return operation when the user is detected to reach the preset position.

7. A control method of an air conditioner, characterized by comprising:

when a cooling instruction is received, performing cooling operation;

when a temperature rising instruction is received or the air conditioner meets a temperature rising triggering threshold value, temperature rising operation is executed, wherein the server acquires the distance between the user and the preset position, and when the distance between the user and the preset position is not more than the preset distance, a temperature reducing instruction is sent to the air conditioner.

8. An air conditioner control device comprising a memory, a processor, and a control program of an air conditioner stored on the memory and executable on the processor, the control program of the air conditioner realizing the steps of the control method of the air conditioner according to any one of claims 1 to 6 when executed by the processor.

9. An air conditioner, characterized in that the air conditioner comprises a memory, a processor, and a control program of the air conditioner stored on the memory and executable on the processor, the control program of the air conditioner realizing the steps of the control method of the air conditioner according to any one of claims 1 to 6 or claim 7 when executed by the processor.

10. A computer-readable storage medium, characterized in that a control program of an air conditioner is stored thereon, which when executed by a processor implements the steps of the control method of the air conditioner according to any one of claims 1 to 6 or claim 7.

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