CN111256322B

CN111256322B - Temperature control method, device and storage medium

Info

Publication number: CN111256322B
Application number: CN201811462686.0A
Authority: CN
Inventors: 樊其锋; 翟浩良
Original assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2018-11-30
Filing date: 2018-11-30
Publication date: 2021-10-26
Anticipated expiration: 2038-11-30
Also published as: CN111256322A

Abstract

The invention discloses a temperature control method, a temperature control device and a storage medium. The temperature control method comprises the following steps: obtaining a comfortable environment temperature value corresponding to the current time information in the comfortable curve; and controlling the operation of the air conditioning equipment according to the obtained comfortable environment temperature value. The air conditioner is controlled according to the time information and the comfortable environment temperature value in the comfortable curve, so that the indoor environment is at the comfortable environment temperature value under each time information, the set temperature value is not adjusted, and the user feels more comfortable under the condition that the user is always at the more comfortable environment temperature.

Description

Temperature control method, device and storage medium

Technical Field

The invention relates to the technical field of air conditioners, in particular to a temperature control method, a temperature control device and a storage medium.

Background

In the life of people, the air conditioner is an indispensable household appliance, and people pay attention to improving the air outlet comfort of the air conditioner. The user often pursues that indoor ambient temperature is comfortable in the air conditioner operation process, often carries out the regulation of air conditioner settlement temperature for guaranteeing that indoor ambient temperature is comfortable user, but only can guarantee the temperature and go up the regulation or down after the regulation of settlement temperature to can not necessarily adjust the ambient temperature that the value corresponds, make the user experience comfortable inadequately.

Disclosure of Invention

The invention mainly aims to provide a temperature control method, a temperature control device and a storage medium, and aims to solve the technical problem that a user feels uncomfortable due to the fact that only a set temperature is adjusted when an air conditioner is adjusted in the prior art.

To achieve the above object, the present invention provides a temperature control method:

in a first aspect of the temperature control method of the present invention, the temperature control method includes the steps of:

obtaining a comfortable environment temperature value corresponding to the current time information in the comfortable curve;

and controlling the operation of the air conditioning equipment according to the obtained comfortable environment temperature value.

A second aspect is proposed on the basis of the first aspect, in which the step of controlling the operation of the air conditioning equipment according to the obtained comfort environment temperature value includes:

acquiring a corresponding set temperature according to the comfortable environment temperature value;

and controlling the operation of the air conditioning equipment according to the set temperature.

In a second aspect, the step of obtaining the corresponding set temperature according to the comfort environment temperature value includes:

when the comfortable environment temperature is higher than the current environment temperature, the set temperature is higher than or equal to the comfortable environment temperature;

and when the comfortable environment temperature is lower than the current environment temperature, the set temperature is lower than or equal to the comfortable environment temperature.

In the first and second aspects, the comfort curve is generated from the comfort temperature corresponding to each time information and the corresponding time information.

A third aspect is provided on the basis of the first or second aspect, in which the comfort temperature is obtained by following sub-aspects, and the sub-aspects are in parallel relation:

according to the first sub-scheme, the comfortable temperature corresponding to each time information is obtained according to the upper temperature limit value and the lower temperature limit value of the current time information in the comfortable temperature zone, and the comfortable curve is located in the comfortable temperature zone.

In the first sub-scheme, the comfort temperature value of each time information of the comfort curve is an average value of the upper temperature limit value and the lower temperature limit value of the current time information.

In a second sub-scheme, before the step of obtaining the target temperature value corresponding to the current time information in the comfort curve, the method further includes:

acquiring reference information;

and acquiring a comfort curve corresponding to the reference information, wherein the reference information comprises at least one of user information, position information, scene information, a climate characteristic interval and time information.

A fourth aspect is proposed on the basis of the first or second aspect, in which the comfort curve is obtained by following sub-aspects, and the sub-aspects are in a parallel relationship:

according to a first sub-scheme, the comfort curve is obtained according to historical data of the air conditioning equipment of at least one user.

Optionally, the comfort curve is generated from historical data of the air conditioning device for different user types, the user types being divided according to at least one of user information, location information, scene information, climate characteristic intervals, and time information.

Optionally, the users are grouped according to different user types, historical data of the air conditioning devices corresponding to the plurality of user groups is analyzed, a comfort curve is generated, and each user group corresponds to a comfort curve.

Optionally, a comfortable temperature at which each time information setting frequency meets a preset frequency condition is obtained according to the historical data, and a comfortable curve is obtained according to the comfortable temperature.

Optionally, the comfort curve is a comfort curve generated from historical data of the current user's air conditioning device.

Optionally, the comfort curve is obtained according to feedback information of the user.

Optionally, the comfort curve is modified according to feedback information of the user.

Optionally, the feedback information of the user includes a temperature adjustment operation and a thermal sensation feedback.

Optionally, recommendation information is generated according to the comfort curve.

Optionally, the comfort curve is shared by:

the instant messaging application program sends a sharing instruction to an instant messaging server based on a friend list, wherein the sharing instruction comprises user information to be shared;

the instant messaging server sends the sharing instruction to an air conditioning equipment server associated with the instant messaging server;

and the air conditioning equipment server sets the corresponding relation between the user information in the sharing instruction and the comfort curve according to the sharing instruction.

Optionally, the comfort curve is shared by:

the method comprises the steps that an air conditioning equipment application program sends a sharing instruction to an air conditioning equipment server based on a friend list, wherein the sharing instruction comprises user information to be shared;

Optionally, the air conditioning server sets a corresponding relationship between the air conditioning equipment and the comfort curve according to the setting instruction; the air conditioning device corresponds to the user information.

Optionally, the air conditioning server sets a corresponding relationship between the air conditioning equipment and a comfort curve according to a setting instruction, and sends the comfort curve to the air conditioning equipment; the air conditioning device takes the received comfort curve as a default parameter.

Alternatively, the comfort curve is a comfort curve transmitted by synchronous control from other air conditioning apparatuses of the same group as the current air conditioning apparatus.

Optionally, the step of controlling the operation of the air conditioning equipment according to the obtained comfort environment temperature value includes:

obtaining a fluctuation value corresponding to the comfortable environment temperature value;

correcting the comfortable environment temperature value according to the fluctuation value to obtain a target environment temperature value;

and controlling the air conditioner to operate according to the target environment temperature value.

Optionally, the step of obtaining the correction value of the comfort environment temperature value according to the comfort environment temperature value and the indoor temperature value is executed at preset time intervals; and controlling the air conditioning equipment to operate according to the comfortable environment temperature value within the preset time interval.

Optionally, when the air conditioner is turned on or the air conditioner enters a sleep mode, the step of obtaining the comfort environment temperature value corresponding to the current time information in the comfort curve is performed.

Optionally, the current time information includes a current time point or a current operation duration.

In addition, in order to achieve the above object, the present invention further provides a temperature control method, including:

receiving a temperature adjusting instruction sent by external equipment, and acquiring a comfortable environment temperature corresponding to the temperature adjusting instruction, wherein the external equipment acquires a comfortable environment temperature value corresponding to current time information in a comfortable curve;

obtaining a set temperature value corresponding to the comfortable environment temperature value

And controlling the air conditioning equipment to operate according to the set temperature value.

Optionally, the step of obtaining the set temperature value corresponding to the comfort environment temperature value includes:

receiving a temperature adjusting instruction sent by external equipment, acquiring a set temperature value corresponding to the temperature adjusting instruction, wherein the external equipment acquires a comfortable environment temperature value corresponding to current time information in a comfortable curve, and acquires the set temperature value according to the comfortable environment temperature value;

and controlling the operation of the air conditioning equipment according to the received set temperature value.

In addition, in order to achieve the above object, the present invention further provides a temperature control device, which includes a memory, a processor, and a temperature control program stored in the memory and operable on the processor, wherein the temperature control program, when executed by the processor, implements the steps of the temperature control method according to any one of claims 1 to 26.

Optionally, the temperature control device is an air conditioner or a fan.

Further, to achieve the above object, the present invention also proposes a computer-readable storage medium having stored thereon a temperature control program which, when executed by the processor, implements the steps in the temperature control method as described above.

According to the temperature control method, the temperature control device and the storage medium provided by the embodiment of the invention, the comfortable environment temperature value corresponding to the current time information in the comfortable curve is obtained; the operation of the air conditioning equipment is controlled according to the obtained comfortable environment temperature value, the air conditioner is controlled according to the time information and the comfortable environment temperature value in the comfortable curve, so that the indoor environment is at the comfortable environment temperature value under each time information, the set temperature value is not adjusted, the user is always at the comfortable environment temperature, and the user feels more comfortable.

Drawings

FIG. 1 is a schematic flow chart of a temperature control method according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of a hardware device related to the temperature control method of the present invention;

FIG. 3 is a functional block diagram of the air conditioning apparatus of FIG. 2;

FIG. 4 is a schematic view of a comfort curve;

FIG. 5 is a detailed flowchart of a comfort curve sharing step in the temperature control method according to an embodiment of the present invention;

FIG. 6 is a schematic flow chart illustrating another step of sharing comfort curves in the temperature control method according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of an interface for acquiring user feedback information in a temperature control method according to an embodiment of the present invention;

fig. 8 is a detailed flowchart of step S20 in fig. 1.

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.

Referring to fig. 1, fig. 1 is a schematic flow chart of a temperature control method according to an embodiment of the invention. In this embodiment, the temperature control method includes the steps of:

s10, obtaining a comfortable environment temperature value corresponding to the current time information in the comfortable curve;

and S20, controlling the operation of the air conditioning equipment according to the obtained comfortable environment temperature value.

The current time information includes, for example, time information such as 8 am, 12 pm, 15 minutes, and the like, or an operation time period of the air conditioning equipment, which is a continuous operation time period after the air conditioning equipment is turned on, such as 30 minutes, 4 hours, and the like. When the air conditioning equipment operates in comfort control, the operation of the air conditioning equipment is controlled according to the comfortable environment temperature value corresponding to the current time information, so that the current indoor environment temperature is the comfortable environment temperature value. In this embodiment, the comfortable ambient temperature value is an indoor ambient temperature value or a somatosensory temperature value.

In this embodiment, the air conditioner is controlled according to the time information and the comfortable ambient temperature value in the comfortable curve, so that the indoor environment is at the comfortable ambient temperature value under each time information, rather than adjusting the set temperature value, so that the user is always at a relatively comfortable ambient temperature, and the user feels relatively comfortable.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of a hardware device related to the temperature control method of the present invention. The hardware device related to the temperature control method of the embodiment of the present invention includes, for example: air conditioning equipment 100, server 200, user terminal 300. Specifically, the method comprises the following steps:

referring to fig. 3, fig. 3 is a functional block diagram of the air conditioning apparatus of fig. 2. The air conditioning apparatus 100 includes at least a network module 110 and a control device 120, and of course, a temperature adjustment assembly 130. The network module 110 establishes data communication with the server 200 through a network protocol, so as to send a request or an instruction to the server 200, or receive a parameter or a control instruction sent by the server 200. Such as internet of things protocol, etc. The control device 120 includes, for example, an electronic controller, which can control the operation of the temperature adjustment assembly 130 according to its own control logic. Of course, if the network module 110 receives the comfortable environment temperature, the set temperature, or the temperature adjustment instruction sent by the server, and transmits the received comfortable environment temperature, the set temperature, or the temperature adjustment instruction to the control device 120, the control device 120 may further control the temperature adjustment assembly 130 according to the temperature comfortable environment temperature, the set temperature, or the temperature adjustment instruction received by the network module 110, so as to adjust the indoor environment temperature.

The air conditioning apparatus 100 described above includes, for example, an air conditioner or a fan having a temperature adjusting function. If the air conditioning apparatus 100 includes an air conditioner, the temperature adjustment assembly includes, for example, a compressor, a heat exchanger, a fan, and the like. If the air conditioning apparatus 100 includes a fan having a temperature adjusting function, the temperature adjusting assembly includes, for example, an ice bank, a heat exchanger, a blower, and the like.

The server 200 is, for example, a single server, or a server group composed of a plurality of servers, for example, a server corresponding to the air conditioning equipment, and a server corresponding to other different applications. In addition, in addition to implementing control of the air conditioning apparatus 100, the server 200 may acquire upload data of the air conditioning apparatus 100, such as operation data, operation parameters, environmental parameters of the air conditioning apparatus 100, and an operation state of the air conditioning apparatus 100, and the like. The server 200 may obtain necessary information such as a comfort curve by analyzing the history data of each air conditioning device 100, so as to improve the control effect of the air conditioning device.

The user terminal 300 is a terminal device having a control function, such as a mobile phone, a tablet computer, an IPad, and a smart watch. The user terminal 300 is installed with an application having a control function, and after the user terminal 300 establishes a connection with an application server, an instruction can be sent to the application server by using the application, and the air conditioning apparatus 100 is controlled by an air conditioning apparatus server associated with the application server. It should be noted that, if the air conditioning apparatus is provided with a function of installing an application program and performing network control, the air conditioning apparatus may be the user terminal 300.

Taking the air conditioning equipment 100 as an air conditioner as an example, taking an application program as an example of an instant messaging APP, wherein the instant messaging APP is implemented in advance between an instant messaging server and the air conditioning server, the user account of the instant messaging APP is associated with the user account of the air conditioner, when a user triggers an opening instruction through the instant messaging APP, the opening instruction is sent to the instant messaging server firstly, and the opening instruction is sent to the air conditioning server through the pre-implemented association relation, so that the air conditioning server sends the opening instruction to the air conditioning equipment corresponding to the user account of the air conditioner, and the air conditioning equipment 100 is controlled to be started.

Taking the air conditioning equipment 100 as an air conditioner as an example, taking an application program as an air conditioner APP as an example, the air conditioner APP triggers an opening instruction through the air conditioner APP through the association between the user account of the air conditioner APP and the air conditioning equipment in the air conditioner server, the opening instruction is sent to the air conditioner server, and the air conditioner server sends the opening instruction to the air conditioning equipment corresponding to the user account of the air conditioner APP through the pre-realized association relationship.

Further, in the user terminal 300, a user account of an application may control at least one air conditioning device. The user account of one application may correspond to at least one comfort curve, and when the user terminal 300 is used to perform temperature control, if the user account corresponds to multiple comfort curves, the corresponding relationship between the comfort curve and the air conditioning equipment needs to be set, and the operation of the air conditioning equipment corresponding to the user account is controlled based on the comfort curve. In one embodiment, the correspondence between the user account number of the user terminal 300 and the comfort curve and the air conditioning equipment is further stored in the server 200.

Further, the comfort curve in the embodiment of the present invention may be stored in the server 200, and may also be stored in the air-conditioning apparatus 100. When the comfort curve is stored in the server 200, and temperature control is performed, the server 200 generates a corresponding control instruction (which may include a comfort ambient temperature value or a set temperature value corresponding to the comfort ambient temperature value) according to the comfort curve, and sends the control instruction to the air conditioning equipment 100 to control operation of the air conditioning equipment, so that the current indoor ambient temperature value is adjusted to the corresponding comfort ambient temperature value. Of course, the server 200 may also send the comfort environment temperature value corresponding to the time point in the comfort curve to the air conditioning equipment 100, and the air conditioning equipment 100 controls the current indoor environment temperature value to be the comfort environment temperature value according to the comfort environment temperature value. The technical scheme enables the temperature control to be located at the server 200 side, thereby simplifying the control of the air conditioning equipment and reducing the manufacturing cost of the air conditioning equipment. In addition, a comfort curve is located in the server 200, and parameters of the comfort curve may be easily set and updated.

When the comfort curve is stored in the air-conditioning apparatus 100, the control means 120 of the air-conditioning apparatus 100 comprises, for example, a processor, a memory and a temperature control program stored on said memory, the temperature control program comprising the comfort curve and a control logic for controlling according to the comfort curve. That is, the temperature control program is executed by the processor, so as to control the operation of the temperature adjustment assembly 130 according to the comfort parameter corresponding to the time point in the comfort curve, so that the current indoor ambient temperature is between the upper temperature limit value and the lower temperature limit value. In this way, local control of the air conditioning equipment is achieved, i.e. the temperature control can also be achieved without networking the air conditioning equipment. In addition, the air conditioning device 100 may also update the comfort curve in an upgraded manner when networked.

In an embodiment, the comfort curve includes a comfort ambient temperature corresponding to a plurality of time information within a time period. The time period may include hours, days, weeks, etc. In one embodiment, the time information is a discrete value, and thus the comfort wireless setting is a correspondence between each time information and the comfort ambient temperature. And when the comfortable environment temperature is to be acquired and the temperature is controlled, searching the corresponding relation according to the current time information, and acquiring the comfortable environment temperature corresponding to the current time information. So for comfortable curvilinear setting is simple, and can swiftly acquire comfortable ambient temperature. If there is no time information that is the same as the current time information, the comfortable ambient temperature corresponding to the time information that is the closest to the current time information can be acquired. The time information is a time point or an operation duration.

In another embodiment, as shown in fig. 4, the time information is a continuous value, so the comfort curve is a continuous curve, i.e. the comfort ambient temperatures corresponding to the continuous time form a comfort curve. And when the comfortable environment temperature is to be acquired and the temperature is controlled, acquiring the comfortable environment temperature corresponding to the current time information according to the comfortable curve. Therefore, the comfortable environment temperature can be acquired more accurately.

In an embodiment, the comfort curve is set according to different reference information, that is, the step S10 is preceded by the steps of: acquiring reference information; and acquiring a comfort curve corresponding to the reference information, wherein the reference information comprises at least one of user information, position information, scene information, a climate characteristic interval and time information.

There is a difference in comfort feeling of the different reference information with respect to the temperature. Therefore, the corresponding comfort curves are set for different reference letters, and the comfort requirements of people can be met. And when the comfort curve is set corresponding to the climate characteristic, setting the corresponding comfortable environment temperature according to different climate characteristic intervals and different time values in the different climate characteristic intervals.

The climate characteristics include, for example, one or more of a weather parameter, an ambient temperature parameter, an ambient humidity parameter, an air quality parameter, and the like. The climate characteristic interval is divided according to at least one of the climate characteristics.

The scene information may include a scene where the user is currently located, such as whether the user is indoors or outdoors, or is currently a work day or a rest day, or a state where the user is currently located, such as at least one of a sleep state, an operation state, and a sedentary state.

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 direct-administration city, a first-line city, a second-line city and other cities, and all parameters in the position information can be combined to obtain a target cooling threshold;

the time information may include at least one of season, month, time attribute (such as weekday or holiday), day-night, and 24 hour time period, or may be further integrated with the time information, such as which time period of which season;

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 comfort curve can be manually set or generated according to big data or habit data of a user, and after the comfort curve is generated, the generated comfort curve can be directly adopted to update the stored comfort curve so as to update the comfort curve, and the generated comfort curve can also be directly stored; or generating recommendation information according to the generated comfort curve and recommending the recommendation information to the user when the recommendation condition is met, wherein the recommendation condition can be that the air conditioner is started or the user enters a comfort curve setting interface.

When the comfort curve is set or generated, the comfortable environment temperature corresponding to each time information can be obtained, and the comfort curve is formed according to the connection of the comfortable environment temperatures corresponding to each time information.

The setting scheme of the comfort curve is explained in detail below.

In one embodiment, the comfort curve sets the corresponding relationship between the time information and the comfort environment temperature by receiving a setting instruction. The setting instruction is triggered by the user through the user terminal 300, for example, and specifically, the user performs setting of the comfortable environment temperature on the user terminal 300 corresponding to the time information. Or displaying a default curve on a setting interface of the user terminal 300, and adjusting the comfortable environment temperature value on the line bar in a single-point dragging or integral dragging manner to finally generate a comfortable curve.

In an embodiment, the comfort curve is derived from historical data of the air conditioning device of the at least one user. The history data here includes, for example, at least one of an operation parameter of the air conditioning apparatus, user operation data, an environmental parameter of a location where the air conditioning apparatus is located, a user type parameter, a comfortable environmental temperature set by the user, and the like. Historical data of the air conditioning device of the at least one user is analyzed to generate a corresponding comfort curve.

Obtaining comfortable temperature of each time information setting frequency meeting a preset frequency condition according to the historical data, obtaining a comfortable curve according to the comfortable temperature, obtaining comfortable environment temperature corresponding to each time information according to the historical data, finally obtaining the comfortable curve, setting the environment temperature of the frequency meeting the preset frequency condition for a user according to the comfortable environment temperature corresponding to each time information, or setting the target environment temperature of the frequency meeting the preset frequency condition for the user after temperature adjustment according to the comfortable environment temperature, wherein the preset frequency condition can comprise that the setting frequency is the highest or the setting frequency is greater than the preset frequency.

Generation of comfort curve recommendation example one from historical data

In this example, the comfort curve is generated based on historical data of the air conditioning devices of different user types, the user types being divided based on at least one of user information, location information, scene information, climate characteristic intervals, and time information. The server 200 generates a comfort curve corresponding to the user type by acquiring the historical data of each air conditioning device connected thereto, grouping the acquired historical data according to different user types, and analyzing the historical data of the air conditioning device corresponding to the user in each user group.

When the air conditioning equipment operates for temperature adjustment, the server 200 identifies the user type corresponding to the air conditioning equipment, acquires a comfort curve of a user group to which the user type belongs, and sends recommendation information containing the comfort curve to the air conditioning equipment for the air conditioning equipment to confirm. If the recommendation information includes a plurality of comfort curves, selection and confirmation are performed. The server 200 sets the correspondence between the confirmed comfort curve and the air conditioning device according to the confirmation of the air conditioning device. Or the server corresponding to the air conditioning equipment sends the confirmed comfortable curve to the air conditioning equipment according to the confirmation of the air conditioning equipment so that the air conditioning equipment can adjust the temperature according to the comfortable curve, and the indoor environment temperature is adjusted to the comfortable environment temperature value in the comfortable curve. Or, the server corresponding to the air conditioning equipment not only sets the corresponding relationship between the comfort curve and the air conditioning equipment, but also sends the confirmed comfort curve to the air conditioning equipment according to the confirmation of the air conditioning equipment.

When the user controls the air conditioning device to adjust the temperature using the user terminal 300, the server 200 identifies the user type of the user terminal 300, obtains a comfort curve of a user group to which the user type belongs, and transmits recommendation information including the comfort curve to the user terminal 300 for the user terminal 300 to confirm. If the recommendation information includes a plurality of comfort curves, selection and confirmation are performed. The server 200 sets a correspondence between the confirmed comfort curve and the user of the user terminal according to the confirmation of the user terminal 300. When the user terminal 300 selects the comfort curve to perform control of a certain air conditioning device, the server 200 further sets a correspondence relationship between the comfort curve and the air conditioning device. Alternatively, the server 200 transmits the selected comfort curve to the air conditioning device according to the selection of the user terminal 300. Alternatively, not only the correspondence relationship between the comfort curve and the air conditioning apparatus is set, but also the confirmed comfort curve is transmitted to the air conditioning apparatus. It is understood that the server 200 or the user terminal 300 may update the pre-stored comfort curve after obtaining the comfort curve.

Generation of comfort curve example two from historical data

In this example, the comfort curve is generated based on the historical data of the air conditioning equipment of the same user. The generation manner of the comfort curve of the first comfort curve recommendation example generated according to the historical data is similar, and the difference is that the second comfort curve recommendation example generated according to the historical data is used for analyzing the historical data of the air conditioning equipment of the current user, and the first comfort curve recommendation example is used for analyzing the historical data of the air conditioning equipment of different users. In this example, the historical data of the air-conditioning apparatus of the same user represents the user's habits of that user. The comfort curve generated according to the user habits can meet the comfort requirements of the user under the condition of conforming to the use habits of the user.

After a comfort curve is generated according to historical data of the air conditioning equipment of the same user, recommendation information containing the comfort curve is directly sent to the air conditioning equipment for confirmation by the air conditioning equipment. If the recommendation information includes a plurality of comfort curves, selection and confirmation are performed. The processing after the server 200 confirms the air conditioning device is the same as the comfort curve recommendation example one, and is not described herein again. Or, the recommendation information including the comfort curve is sent to the user terminal 300 of the current user for confirmation by the user terminal 300. If the recommendation information includes a plurality of comfort curves, selection and confirmation are performed. The server 200 generates the first example of the comfort curve for the process confirmed by the ue 300, which is not described herein again. It is understood that the server 200 or the user terminal 300 may update the pre-stored comfort curve after obtaining the comfort curve.

In one embodiment, the air conditioning device 100 receives the recommendation information and then confirms the recommendation information, and if the recommendation information includes a plurality of comfort curves, the selection is performed and confirmed. The process of the air conditioning equipment after confirmation is the same as the example of generating the comfort curve, and the description is omitted here. And the user terminal confirms the recommendation information after receiving the recommendation information, and if the recommendation information comprises a plurality of comfortable temperature zones, the user terminal selects and confirms. The process of the ue 300 after confirmation is the same as the first example of generating the comfort curve, and is not described herein again.

It should be noted that the recommendation information in each of the above examples may be actively sent after being generated, or sent according to a trigger action. For example, when the user performs temperature control of the air-conditioning apparatus using the user terminal 300, or when the user directly operates the temperature control of the air-conditioning apparatus, or the like.

Further, the recommendation information may be recommended to the air conditioning device user through the air conditioning device application on the user terminal 300, or recommended to the instant messenger user through the instant messenger application on the user terminal 300.

In one embodiment, the comfort curve is a comfort curve shared by other users based on a buddy list. The user terminal installed with the application program can realize the temperature control of the air conditioning equipment by connecting the server corresponding to the air conditioning equipment. And the user terminal installed with the application program can realize information interaction with other user terminals by connecting with the server corresponding to the application program. Therefore, the user terminals installed with the application programs can share the comfort curve.

Further, referring to fig. 5, fig. 5 is a detailed flow chart illustrating a comfort curve sharing step in the temperature control method according to an embodiment of the invention. A sharing process of the comfort curve includes the steps of:

s30, the instant messaging application program sends a sharing instruction to the instant messaging server based on the friend list, wherein the sharing instruction comprises target user information to be shared and a comfort curve to be shared;

s40, the instant messaging server sends the sharing instruction to the target user, and sends sharing information to the air conditioning equipment server related to the sharing instruction according to the sharing receiving instruction fed back by the target user;

and S50, the air conditioning equipment server sets the corresponding relation between the target user and the comfort curve according to the sharing information.

Such as instant messaging applications like WeChat, QQ, etc. A sharing function of a comfort curve is added in a display interface of the instant messaging application program, for example, a virtual key of the comfort curve is clicked, and then sharing of the comfort curve is started. It should be noted that the sharing of the comfort curve may be selected to be shared by a single friend user, or may be selected to be shared by multiple friend users at the same time. Specifically, after the virtual key is clicked, a friend list is popped up for the user to select. Or clicking a virtual key in the chat interface of a friend or a group of friends, so that the comfort curve of the current user can be shared to the friend or the group of friends. Further, if there are multiple comfort curves of the current user, the current user may be set to share the comfort curve of the default setting, or a comfort curve list may be output for the user to select.

When the instant communication target user receives the sharing instruction, the instant communication target user can choose to accept sharing or choose to refuse sharing. When the sharing is selected, the instant messaging server sends the information containing the target user and the comfort curve as sharing information to a server corresponding to the air conditioning equipment. At this time, the server corresponding to the air conditioning device sets the correspondence between the target user and the comfortable temperature zone according to the shared information. If the target user already has a comfort curve, adding the comfort curve into a comfort curve list of the target user; and if the target user does not have a comfort curve, adding the target user and the comfort curve corresponding to the target user.

In addition, referring to fig. 6, fig. 6 is a schematic flow chart illustrating another detailed procedure of the comfort curve sharing step in the temperature control method according to an embodiment of the invention. Another sharing process of the above comfort curve includes the following steps:

s60, the air conditioning equipment application program sends a sharing instruction to the air conditioning equipment server based on the friend list, wherein the sharing instruction comprises target user information to be shared and a comfort curve to be shared;

and S70, the air conditioning equipment server sends the sharing instruction to the target user, and sets the corresponding relation between the target user and the comfort curve according to the sharing instruction received by the target user.

The setting and triggering of the sharing function of the air conditioning device application can refer to the setting and triggering manner of the sharing function of the instant messaging application, and are not described herein again.

When the target user of the air conditioning equipment receives the sharing instruction, the target user can choose to accept the sharing or reject the sharing. When the sharing is selected, the server corresponding to the air conditioning device sets the corresponding relationship between the target user and the comfort curve. If the target user already has a comfort curve, adding the comfort curve into a comfort curve list of the target user; and if the target user does not have a comfort curve, adding the target user and the comfort curve corresponding to the target user.

Further, after the target user accepts the sharing, the shared comfort curve may be utilized to control the air conditioning device. In this embodiment, when the application triggers the comfort curve control of the air conditioning device, a setting instruction is generated. The setting instruction includes an air conditioning apparatus to be set and a comfort curve. And the server corresponding to the air conditioning equipment sets the corresponding relation between the air conditioning equipment and the comfort curve according to the setting instruction. Or the server corresponding to the air conditioning equipment sends the comfort curve to the air conditioning equipment according to a setting instruction. Or the server corresponding to the air conditioning equipment not only sets the corresponding relation between the air conditioning equipment and the comfort curve, but also sends the comfort curve to the air conditioning equipment according to the setting instruction. The air conditioning device takes the received comfort curve parameters as default parameters.

In one embodiment, the comfort curve is a comfort curve that is controlled synchronously with other air conditioning devices of the same group as the current air conditioning device. The user terminal installed with the application program can realize temperature control of one or more air conditioning devices by connecting the server corresponding to the air conditioning device. For example, the user terminal sets two or more air conditioning devices corresponding to one user account, that is, the two or more air conditioning devices belong to the same group. The embodiment of the invention realizes the synchronous control among the air conditioning equipment in the same group by setting a synchronous control function.

The synchronous control function of the comfort curve is added on the installed application program, for example, the virtual key of the comfort curve is clicked, and then the synchronous control of the comfort curve is started. It should be noted that a certain air conditioning apparatus may be selected to be controlled synchronously, or a plurality of air conditioning apparatuses may be selected to be controlled synchronously. Specifically, after the virtual key is clicked, a synchronous control interface pops up, the same group of air conditioning equipment is displayed for selection of a user, and a corresponding synchronous control instruction is generated according to the air conditioning equipment selected by the user, wherein the synchronous control instruction comprises a target air conditioning equipment and a comfort curve.

The synchronous control process of the air conditioning devices of the same group includes the steps of:

when the synchronous control instruction is received, the air conditioning equipment server controls the operation of the target air conditioning equipment according to the synchronous control instruction and the comfort curve in the synchronous control instruction, so that the indoor environment temperature is between the upper temperature limit value and the lower temperature limit value.

Or when the synchronous control instruction is received, the instant communication server sends the synchronous control instruction to the air conditioning equipment server associated with the synchronous control instruction according to the synchronous control instruction, so that the air conditioning equipment server controls the operation of the target air conditioning equipment according to the comfortable curve in the synchronous control instruction according to the synchronous control instruction, and the indoor environment temperature reaches the comfortable environment temperature.

When the synchronous control is exited, the target air conditioning device operates according to its own comfort curve. Of course, if there is no corresponding comfort curve for the target air conditioning device, the comfort curve for the synchronous control may also be set as the comfort curve corresponding to the target air conditioning device, that is, the air conditioning device server sets the corresponding relationship between the comfort curve for the synchronous control and the target air conditioning device.

Note that the comfort curves corresponding to the plurality of air-conditioning apparatuses controlled by synchronization are the same as the control rule based on the comfort curves. The control rule of the comfort curve refers to a specific control process of the air conditioning device, such as setting an indoor target temperature, according to the comfort curve.

In an embodiment, the comfort curve is set by feedback information from the user. During the operation of the air conditioning apparatus, the user may feed back according to the feeling of the environment, and thus a comfort curve suitable for the user may be set according to the feedback information of the user. The feedback information of the user comprises temperature regulation operation and cold and heat feeling feedback

Further, in one example, the user feedback information is obtained by adjusting an operating parameter of the air conditioning device. Specifically, when a parameter adjustment instruction of the air conditioning equipment is detected, the adjustment parameter of the air conditioning equipment is acquired, the temperature adjustment behavior of the user is identified, the feedback information of the user is acquired according to the adjustment parameter of the air conditioning equipment, and a comfort curve is set according to the feedback information of the user.

In another example, the user's comfort curve may also be obtained through the user's feedback selection of the cooling and heating experience. In particular, during operation of the air conditioning apparatus, sensory feedback options are provided for selection by the user. For example, referring to fig. 7, fig. 7 is a schematic interface diagram of acquiring user feedback information in a temperature control method according to an embodiment of the present invention. A number of options are displayed on the display interface of fig. 7: hot, slightly hot, comfortable, cool, cold, etc. And according to the feedback option selected by the user, obtaining the feedback information of the user, and setting a comfort curve according to the feedback information of the user.

In another example, the thermal sensation may be obtained by voice information of the user. Specifically, in the operation process of the air conditioning equipment, voice information under the current environment is detected and recognized, feedback information of a user on cold and hot feelings is obtained, and a comfort curve is set according to the feedback information of the user. For example, when the user says "cool a little, the feedback information of" cool "is obtained; when the user says "good cold", feedback information of "cold" is obtained, and the like. The temperature regulation requirement of the user can be obtained according to the cold and hot feeling of the user, for example, if the user feels hot, the user wants the indoor environment temperature to be regulated down by 2 ℃, if the user feels slight hot, the user wants the indoor environment temperature to be regulated down by 1 ℃, if the user feels comfortable, the indoor environment temperature is expected to be unchanged, if the user feels slight cold, the user wants the indoor environment temperature to be regulated up by 1 ℃, if the user feels cold, the user wants the indoor environment temperature to be regulated up by 2 ℃.

The method comprises the steps of obtaining target environment temperature values corresponding to all time information according to feedback information of a user after receiving the feedback information of the user, counting the occurrence frequency of all target environment temperature values corresponding to all time information after obtaining the target environment temperature values, taking the target environment temperature with the occurrence frequency meeting a preset frequency condition as a comfortable environment temperature corresponding to the time information after obtaining the occurrence frequency of all target environment temperature values corresponding to all time information, and obtaining a comfortable curve according to the comfortable environment temperature corresponding to all time information.

It can be understood that the temperature adjustment requirements of the user, such as temperature up-adjustment requirements, temperature down-adjustment requirements and maintenance requirements, can also be determined according to the temperature adjustment operation or the cold and thermal feedback, the adjustment probabilities at the respective temperatures are obtained through analysis according to the up-adjustment requirements, the maintenance requirements and the temperature down-adjustment requirements at the respective temperatures, and the comfort environment temperature value is determined according to the adjustment probabilities at the respective temperatures.

And determining a comfortable environment temperature value according to the adjustment probability, wherein an up-regulation probability curve can be obtained according to the up-regulation probability at each temperature, and a down-regulation probability curve is generated according to the down-regulation probability at each temperature, the comfortable environment temperature value is the environment temperature corresponding to the intersection point of the up-regulation probability curve and the down-regulation probability curve corresponding to the time information, and the up-regulation probability and the down-regulation probability at the position of the intersection point are respectively 50%.

It can be understood that the information entropy can also be calculated according to the regulation probability under each temperature, and each information entropy is compared, the temperature with the highest information entropy is taken as the comfortable environment temperature, and the calculation formula of the information entropy is as follows

Wherein pi is the regulation probability, and H is the information entropy.

The adjustment probability in this embodiment may further include probabilities corresponding to the adjustment temperature, such as 2 ℃ up, 1 ℃ up, no change, 2 ℃ down, 1 ℃ down, and the total information entropy may be calculated by 2 ℃ up, 1 ℃ up, no change, 2 ℃ down, and 1 ℃ down, and the final comfortable environment temperature may be obtained according to the information entropy.

The server 200 acquires the feedback information of the current user, and analyzes the feedback information of the current user to acquire a comfort curve of the current user. Specifically, if the user performs probability analysis on multiple user feedback curves at the same time point, a comfortable ambient temperature value at the time point is obtained. And by analogy, obtaining comfortable environment temperatures of other time points and generating a comfort curve of the current user.

Further, if the comfort curve already exists, the existing comfort temperature zone is corrected according to the feedback information of the user, and the corrected comfort curve is obtained. Feedback information of the user is obtained according to the above example, and the existing comfort curve is corrected according to the obtained feedback information of the user. Specifically, if the user performs probability analysis on multiple user feedback information at the same time point, the comfortable environment temperature at the time point is obtained, and the comfortable environment temperature of the time information is replaced with the comfortable environment temperature of the time information in the existing comfortable curve.

In an embodiment, a comfort temperature zone may be set, the comfort temperature zone corresponds to comfort parameters, the comfort parameters include an upper temperature limit and a lower temperature limit, and a comfort temperature corresponding to each time information in the comfort curve is obtained according to the upper temperature limit and the lower temperature limit of the current time information in the comfort temperature zone, so that the comfort curve is located in the comfort temperature zone. Optionally, the comfort temperature value of each time information of the comfort curve is an average value of the upper temperature limit value and the lower temperature limit value of the current time information, and it can be understood that a weight between the upper temperature limit value and the lower temperature limit value may also be obtained, and the comfort environment temperature is obtained according to the weight, and the weight may be obtained through at least one of the user information, the location information, the scene information, the climate characteristic interval, and the time information.

The comfort temperature can be obtained by referring to the above comfort curve obtaining mode, for example, the comfort temperature zone sets the corresponding relationship between the time point and the comfort parameter by receiving the setting instruction. The setting instruction is triggered by the user through the user terminal 300, for example, and specifically, the user performs setting of the comfort parameter at a corresponding time point on the user terminal 300. Or displaying two default lines (an upper limit value curve and a lower limit value curve) on a setting interface of the user terminal 300, adjusting a comfort parameter value on the lines by a single-point dragging or integral dragging mode, and finally generating a comfort temperature zone, wherein other modes are not repeated herein.

In an embodiment, referring to fig. 8, fig. 8 is a detailed flowchart of step S20 in fig. 1. In fig. 8, step S20 includes:

s21, acquiring a corresponding set temperature according to the comfortable environment temperature value;

and S22, controlling the operation of the air conditioning equipment according to the set temperature.

The set temperature corresponding to the comfortable temperature value can be directly equal to the comfortable environment temperature value so that the indoor environment temperature value reaches the comfortable environment temperature value, or the set temperature can be different from the comfortable environment temperature value so that the indoor temperature is adjusted to the comfortable environment temperature through the adjustment of the set temperature, namely when the comfortable environment temperature is higher than the current environment temperature, the set temperature is higher than or equal to the comfortable environment temperature; and when the comfortable environment temperature is lower than the current environment temperature, the set temperature is lower than or equal to the comfortable environment temperature.

For example, when the comfortable ambient temperature is 26 ℃, the set temperature may be adjusted to 25 ℃ so as to lower the indoor ambient temperature to 26 ℃, or adjusted to 27 ℃ so as to raise the indoor ambient temperature to 26 ℃, and the corresponding adjustment of the set temperature is determined according to the current ambient temperature.

In one aspect, the new indoor target temperature set as described above is between an upper temperature limit and a lower temperature limit. For example 1/2 for the sum of the upper temperature limit and the lower temperature limit. By resetting the indoor target temperature, the indoor ambient temperature gradually returns to the comfortable temperature zone after the air conditioning equipment operates according to the indoor target temperature. Of course, the new indoor target temperature of the setting may be the upper temperature limit value or the lower temperature limit value.

It will be appreciated that the fluctuation control may be performed on the basis of the above-mentioned comfort curve, i.e. the comfort temperature in the comfort curve is modified on the basis of the comfort curve, so that the comfort temperature is not a location at the comfort temperature, but is continuously varied for the comfort temperature to make the user more comfortable.

In one embodiment, step S20 includes:

The fluctuation value can be obtained by a random number and can also be a preset value, the adjusting direction between two adjacent times of adjustment can be different, such as the previous adjustment for increasing the comfortable environment temperature value, and the next adjustment for decreasing the comfortable environment temperature value.

It can be understood that the comfortable environment can be corrected into a temperature value at each preset time interval, so that the continuous change of the comfortable environment temperature value is avoided, namely, the step of obtaining the corrected value of the comfortable environment temperature value according to the comfortable environment temperature value and the indoor temperature value is executed at every preset time interval; and controlling the air conditioning equipment to operate according to the comfortable environment temperature value within the preset time interval.

The fluctuation control can be used in a preset scene, and the preset scene can be just started, if the starting time is shorter than the preset time, the preset scene can also be a user in a non-sleep state.

According to the embodiment of the invention, the temperature fluctuation control in the comfortable temperature area is adopted, so that the temperature fluctuation requirements of users, especially at night, can be met, and the comfort requirements of more people can be met.

In an embodiment, when the air conditioner is turned on or the air conditioner enters a sleep mode, the step of obtaining the comfort environment temperature value corresponding to the current time information in the comfort curve is performed.

Whether the user is in the sleep mode can be determined by the time point, for example, the time point is in a preset time period, for example, 22:00 to 7:00, and can also be determined by determining whether the sleep mode is turned on.

In the embodiment, the control is performed only in a specific scene according to the comfort curve, so that the control of the air conditioner is more flexible, and the control of the comfort curve is performed only in the scene where the comfort control is needed, so that the comfort of a user is improved.

In an embodiment, if the temperature control method is operated in an air conditioner and a comfort curve is stored in an external device, such as a server or a control terminal, the control terminal is required to obtain a comfort environment temperature or a set temperature according to the comfort curve and control the air conditioner according to the obtained comfort environment temperature or the set temperature, that is, a temperature adjustment instruction sent by the external device is received, and a comfort environment temperature corresponding to the temperature adjustment instruction is obtained, wherein the external device obtains a comfort environment temperature value corresponding to current time information in the comfort curve; and controlling the operation of the air conditioning equipment according to the obtained comfortable environment temperature value.

Further, during control, a set temperature value corresponding to the comfortable environment temperature value can be obtained, and the air conditioning equipment is controlled to operate according to the set temperature value. When the comfortable environment temperature is higher than the current environment temperature, the set temperature is higher than or equal to the comfortable environment temperature; and when the comfortable environment temperature is lower than the current environment temperature, the set temperature is lower than or equal to the comfortable environment temperature.

Or, the external device may directly send a control instruction including a set temperature, that is, receive a temperature adjustment instruction sent by the external device, and obtain a set temperature value corresponding to the temperature adjustment instruction, where the external device obtains a comfort environment temperature value corresponding to current time information in a comfort curve, and obtains the set temperature value according to the comfort environment temperature value; and controlling the operation of the air conditioning equipment according to the received set temperature value.

The air conditioner does not need to store a comfort curve according to the control of the external equipment, the requirement on the air conditioner processor is low, the air conditioner can be adapted to more machine types, and meanwhile, the system overhead of the air conditioner can be reduced.

In addition, the present invention further provides a temperature control apparatus, which includes a memory, a processor, and a temperature control program stored in the memory and capable of running on the processor, wherein the temperature control program, when executed by the processor, implements the steps of the temperature control method according to the above embodiments. The temperature control device can be an air conditioner or a fan, and the fan can be a fan with a temperature adjusting function.

Furthermore, the present invention also provides a computer readable storage medium, on which a temperature control program is stored, which when executed by the processor implements the steps in the temperature control method as described above.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

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 solutions 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 several instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, a controlled terminal, 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

1. A temperature control method, characterized by comprising the steps of:

acquiring reference information;

obtaining a comfort curve corresponding to the reference information, wherein the reference information comprises at least one of user information, position information, scene information, a climate characteristic interval and time information;

acquiring a comfortable environment temperature value corresponding to current time information in a comfortable curve, wherein the comfortable environment temperature value is an environment temperature corresponding to an intersection point of an up-regulation probability curve corresponding to the time information and a down-regulation probability curve, the up-regulation probability curve is composed of up-regulation probabilities corresponding to all environment temperatures, and the down-regulation probability curve is composed of down-regulation probabilities corresponding to all environment temperatures; the up-regulation probability is used for representing the up-regulation requirement of the user on each environmental temperature at the current time, and the down-regulation probability is used for representing the down-regulation requirement of the user on each environmental temperature at the current time;

2. The temperature control method according to claim 1, wherein the step of controlling the operation of the air conditioning equipment according to the acquired comfort environment temperature value comprises:

3. The temperature control method according to claim 2, wherein the step of obtaining the corresponding set temperature according to the comfort environment temperature value comprises:

when the comfortable environment temperature value is higher than the current environment temperature, the set temperature is higher than or equal to the comfortable environment temperature value;

and when the comfortable environment temperature value is smaller than the current environment temperature, the set temperature is smaller than or equal to the comfortable environment temperature value.

4. The temperature control method of claim 1, wherein the comfort curve is generated from a comfort ambient temperature value corresponding to each time information and the corresponding time information.

5. The temperature control method according to claim 1, wherein the comfortable environment temperature value corresponding to each time information is obtained according to an upper temperature limit value and a lower temperature limit value of current time information in a comfortable temperature zone, and the comfortable curve is located in the comfortable temperature zone.

6. The temperature control method of claim 4, wherein the comfort ambient temperature value of each time information of the comfort curve is an average value of an upper temperature limit value and a lower temperature limit value of the current time information.

7. Temperature control method according to any of claims 1-6, characterized in that the comfort curve is derived from historical data of the air conditioning equipment of at least one user.

8. The temperature control method of claim 6, wherein the comfort curve is generated according to historical data of the air conditioning devices of different user types, the user types being divided according to at least one of user information, location information, scene information, climate characteristic intervals, and time information.

9. The temperature control method of claim 8, wherein the users are grouped according to different user types, and historical data of the air conditioning devices corresponding to the plurality of user groups is analyzed to generate a comfort curve, and each user group corresponds to a comfort curve.

10. The temperature control method according to claim 7, wherein a comfort environment temperature value at which each time information setting frequency satisfies a preset frequency condition is obtained from the history data, and a comfort curve is obtained from the comfort environment temperature value.

11. The temperature control method of claim 1, wherein the comfort curve is a comfort curve generated from historical data of the air conditioning device of the current user.

12. The temperature control method of claim 1, wherein the comfort curve is derived from feedback information of a user.

13. The temperature control method of claim 1, wherein the comfort profile is modified based on user feedback information.

14. The temperature control method according to claim 10, wherein the feedback information of the user includes a temperature adjustment operation and a thermal sensation feedback.

15. The temperature control method of claim 1, wherein recommendation information is generated according to the comfort curve.

16. The method of temperature control according to claim 1, wherein the comfort curve is shared by:

17. The method of temperature control according to claim 1, wherein the comfort curve is shared by:

18. The temperature control method according to claim 16 or 17, wherein the air conditioning server sets a correspondence relationship of the air conditioning equipment to the comfort curve according to a setting instruction; the air conditioning device corresponds to the user information.

19. The temperature control method according to claim 16 or 17, wherein the air conditioning server sets a correspondence relationship between an air conditioning apparatus and a comfort curve according to a setting instruction, and transmits the comfort curve to the air conditioning apparatus; the air conditioning device takes the received comfort curve as a default parameter.

20. The temperature control method according to claim 1, wherein the comfort curve is a comfort curve transmitted by synchronous control from other air conditioning apparatuses of the same group as the current air conditioning apparatus.

21. The temperature control method according to claim 1, wherein the step of controlling the operation of the air conditioning equipment according to the acquired comfort environment temperature value comprises:

and controlling the air conditioning equipment to operate according to the target environment temperature value.

22. The temperature control method according to claim 1, wherein the step of obtaining the correction value of the comfort ambient temperature value based on the comfort ambient temperature value and the indoor temperature value is performed at every preset time interval; and controlling the air conditioning equipment to operate according to the comfortable environment temperature value within the preset time interval.

23. The temperature control method according to claim 1, wherein the step of obtaining the comfort ambient temperature value corresponding to the current time information in the comfort curve is performed when an air conditioning device is turned on or the air conditioning device enters a sleep mode.

24. The temperature control method of claim 1, wherein the current time information includes a current time point or a current operation time period.

25. A temperature control method, characterized in that the temperature control method comprises:

receiving a temperature adjusting instruction sent by external equipment, and acquiring a comfortable environment temperature value corresponding to the temperature adjusting instruction, wherein the external equipment acquires a comfortable environment temperature value corresponding to current time information in a comfortable curve, the comfortable environment temperature value is an environment temperature corresponding to an intersection point of an up-regulation probability curve and a down-regulation probability curve corresponding to the time information, the up-regulation probability curve is composed of up-regulation probabilities corresponding to all environment temperatures, and the down-regulation probability curve is composed of down-regulation probabilities corresponding to all environment temperatures; the up-regulation probability is used for representing the up-regulation requirement of the user on each environmental temperature at the current time, and the down-regulation probability is used for representing the down-regulation requirement of the user on each environmental temperature at the current time;

26. The temperature control method according to claim 25, wherein the step of controlling the operation of the air conditioning equipment according to the acquired comfort environment temperature value includes:

27. The temperature control method according to claim 26, wherein the step of obtaining a set temperature value corresponding to the comfort environment temperature value comprises:

28. A temperature control method, characterized in that the temperature control method comprises:

receiving a temperature adjusting instruction sent by external equipment, and acquiring a set temperature value corresponding to the temperature adjusting instruction, wherein the external equipment acquires a comfortable environment temperature value corresponding to current time information in a comfortable curve and acquires the set temperature value according to the comfortable environment temperature value, the comfortable environment temperature value is an environment temperature corresponding to an intersection point of an up-regulation probability curve corresponding to the time information and a down-regulation probability curve, the up-regulation probability curve is composed of up-regulation probabilities corresponding to all environment temperatures, and the down-regulation probability curve is composed of down-regulation probabilities corresponding to all environment temperatures; the up-regulation probability is used for representing the up-regulation requirement of the user on each environmental temperature at the current time, and the down-regulation probability is used for representing the down-regulation requirement of the user on each environmental temperature at the current time;

29. A temperature control apparatus comprising a memory, a processor, and a temperature control program stored on the memory and executable on the processor, the temperature control program when executed by the processor implementing the steps of the temperature control method of any one of claims 1-28.

30. The temperature control device of claim 29, wherein the temperature control device is an air conditioner or a fan.

31. A computer-readable storage medium, having stored thereon a temperature control program, which when executed by a processor, performs the steps of the temperature control method according to any one of claims 1-28.