CN117109134A

CN117109134A - Air conditioner operation adjusting method and device

Info

Publication number: CN117109134A
Application number: CN202210535685.4A
Authority: CN
Inventors: 陈小平; 吴雪良; 林勇进; 唐清生
Original assignee: Guangzhou Linkage All Things Technology Co Ltd
Current assignee: Guangzhou Linkage All Things Technology Co Ltd
Priority date: 2022-05-17
Filing date: 2022-05-17
Publication date: 2023-11-24

Abstract

The invention discloses a method and a device for adjusting the operation of an air conditioner, wherein the method comprises the following steps: when judging that the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, acquiring area information corresponding to the target area, wherein the area information corresponding to the target area comprises at least one of area layout information of the target area, space information of the target area and installation position information of the air conditioner in the target area; and generating environment adjustment parameters aiming at the extreme operation mode of the air conditioner in the target area according to the acquired area information, and controlling the air conditioner in the target area according to the environment adjustment parameters. Therefore, when the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner, the air conditioner in the target area is controlled to be switched to the extreme operation mode according to the environment adjustment parameter, the environment adjustment capability of the air conditioner in the target area is improved, the temperature adjustment efficiency of the air conditioner is improved, and the use experience of a user is improved.

Description

Air conditioner operation adjusting method and device

Technical Field

The invention relates to the technical field of intelligent air conditioners, in particular to a method and a device for adjusting the operation of an air conditioner.

Background

With the improvement of economic level, people have higher requirements on living comfort. In order to achieve a proper residence temperature, people generally adopt an air conditioner to adjust the temperature, and in order to ensure the temperature adjusting effect of the air conditioner, the corresponding number of air conditioners are matched for rooms with different sizes.

However, when the temperature adjustment is performed by using the air conditioners of the number corresponding to the rooms, the temperature adjustment is easily affected by the environmental factor, so that it takes a long time to adjust to the temperature desired by the user when the temperature adjustment is performed by using the air conditioners of the number corresponding to the rooms, the temperature adjustment efficiency is low, and even the desired temperature cannot be adjusted. Therefore, it is important to provide a technical solution for improving the adjusting efficiency of the air conditioner to meet the comfort requirement of the user.

Disclosure of Invention

The invention aims to solve the technical problem of providing the method and the device for adjusting the operation of the air conditioner, which can reduce the condition that the temperature adjustment of the air conditioner with corresponding quantity can be performed only after a long time is spent for adjusting the temperature to the temperature expected by a user due to the influence of environmental factors, improve the temperature adjustment efficiency of the air conditioner and improve the use experience of the user.

In order to solve the technical problem, a first aspect of the present invention discloses a method for adjusting operation of an air conditioner, the method comprising:

when judging that the state information of a target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, acquiring area information corresponding to the target area, wherein the area information corresponding to the target area comprises at least one of area layout information of the target area, space information of the target area and installation position information of the air conditioner in the target area;

generating environment adjustment parameters for an extreme operation mode of the air conditioner in the target area according to the acquired area information, wherein for the same number, the environment adjustment capacity of the air conditioner in the extreme operation mode is larger than that of the air conditioner in the common operation mode;

and controlling the air conditioner in the target area according to the environment adjusting parameters.

As an alternative embodiment, in the first aspect of the present invention, the method further includes:

acquiring state information of the target area at the current moment, and judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area, wherein the state information comprises area crowd information of the target area;

And determining whether the state information meets a trigger condition of an extreme operation mode of the air conditioner in the target area, including:

when the state information is the regional crowd information of the target region, determining crowd distribution information of the target region at the current moment according to the regional crowd information, and acquiring historical temperature change trend information and crowd historical distribution information of the target region;

determining an association relation between the historical temperature change trend information and the crowd historical distribution information, and predicting the predicted temperature of the target area after the current moment based on the crowd distribution information and the association relation;

and when the predicted temperature is greater than a preset predicted temperature threshold, determining that the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

acquiring state information of the target area at the current moment, and judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area, wherein the state information comprises area temperature information of the target area;

The judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area comprises the following steps:

when the state information is the region temperature information of the target region, calculating the absolute value of the temperature difference between the target region and other regions at the current moment, and determining the temperature change information of the target region before the current moment;

and when the absolute value of the temperature difference is smaller than or equal to a preset temperature difference threshold value and the temperature change information indicates that the temperature change value of the target area is smaller than or equal to the preset temperature change threshold value, determining that the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

As an optional implementation manner, in the first aspect of the present invention, when the area information corresponding to the target area includes area layout information of the target area and installation location information of an air conditioner in the target area, and before the generating, according to the collected area information, an environment adjustment parameter for an extreme operation mode of the air conditioner in the target area, the method includes:

judging whether the target area at least comprises two air conditioners or not, and determining an area to be regulated in the target area, which needs to be regulated in temperature, according to the area temperature information and the area crowd information when judging that the target area at least comprises two air conditioners;

Determining a target air conditioner for adjusting the environmental parameters of the area to be adjusted from all the air conditioners in the target area according to the area layout information and the installation position information;

the generating, according to the collected area information, an environment adjustment parameter for an extreme operation mode of an air conditioner in the target area includes:

and generating environment adjustment parameters aiming at the extreme operation mode of the target air conditioner in the target area according to the acquired area information.

As an optional implementation manner, in the first aspect of the present invention, the generating, according to the collected area information, an environment adjustment parameter for an extreme operation mode of an air conditioner in the target area includes:

acquiring current running state information of air conditioners in the target area, and determining target running state information of the air conditioners in the target area according to the area information;

generating environment adjustment parameters for the extreme operation mode of the air conditioner in the target area according to the current operation state information and the target operation state information;

the current running state information comprises a first fan rotating speed parameter and/or a first compression power parameter, and the target running state information comprises a second fan rotating speed parameter and/or a second compression power parameter;

When the current running state information is the first fan rotating speed parameter, the target running state information is the second fan rotating speed parameter, and the environment adjusting parameter is a fan control parameter generated based on the first fan rotating speed parameter and the second fan rotating speed parameter;

when the current running state information is the first compression power parameter, the target running state information is the second compression power parameter, and the environment adjustment parameter is a compression power control parameter generated based on the first compression power parameter and the second compression power parameter;

when the current operation state information includes the first fan rotational speed parameter and the first compression power parameter, the target operation state information includes the second fan rotational speed parameter and the second compression power parameter, and the environment adjustment parameter includes a fan control parameter generated based on the first fan rotational speed parameter and the second fan rotational speed parameter, and a compression power control parameter generated based on the first compression power parameter and the second compression power parameter.

As an optional implementation manner, in the first aspect of the present invention, before the controlling the air conditioner in the target area according to the environment adjustment parameter, the method includes:

Determining an area identifier of the target area, judging whether the target area is an area allowing the air conditioner in the target area to be in the extreme operation mode according to the area identifier, and triggering and executing the step of controlling the air conditioner in the target area according to the environment adjustment parameter when the target area is determined to be the area allowing the air conditioner in the target area to be in the extreme operation mode;

or determining a user using the air conditioner in the target area, determining the use authority information of the user using the air conditioner in the target area, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the step of controlling the air conditioner in the target area according to the environment regulation parameter when the user which does not meet the use authority of the extreme operation mode does not exist in the target area;

or determining an area identifier of the target area, determining the use authority information of a user using the air conditioner in the target area, judging whether the target area is an area which allows the air conditioner in the target area to be in the extreme operation mode according to the area identifier, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the executed step of controlling the air conditioner in the target area according to the environment adjustment parameter when the target area is determined to be the area which allows the air conditioner in the extreme operation mode and the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

pushing the environment adjusting parameters to a target user, and receiving an adjusting command fed back by the target user aiming at the environment adjusting parameters;

responding to the adjusting command, triggering and executing the operation of controlling the air conditioner in the target area according to the environment adjusting parameter;

the pushing the environment adjustment parameter to the target user includes:

determining a user needing to use the air conditioner in the target area as a target user, and acquiring control authority information of the target user, wherein the control authority information is used for indicating the control authority of the target user for the air conditioner in the target area;

judging whether the control authority information of the target user meets preset authority conditions or not;

and when the control authority information of the target user meets the authority conditions, acquiring the use preference information of the target user, and pushing the environment regulation parameters to the target user according to the use preference information of the target user.

As an optional implementation manner, in the first aspect of the present invention, the controlling the air conditioner in the target area according to the environmental adjustment parameter includes:

when the environment adjusting parameter is the fan control parameter, adjusting the fan rotating speed of the air conditioner in the target area according to the fan control parameter so as to control the air conditioner in the target area according to the adjusted fan rotating speed;

when the environment adjustment parameter is the compression power control parameter, adjusting the refrigerant flux of the air conditioner in the target area according to the compression power control parameter so as to control the air conditioner in the target area according to the adjusted refrigerant flux;

the environment adjustment parameters comprise the fan control parameters and the compression power control parameters, the fan rotating speed of the air conditioner in the target area is adjusted according to the fan control parameters, and the refrigerant flux of the air conditioner in the target area is adjusted according to the compression power control parameters, so that the air conditioner in the target area is controlled according to the adjusted fan rotating speed and the refrigerant flux.

The second aspect of the invention discloses an air conditioner operation adjusting device, which comprises:

The system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring area information corresponding to a target area when judging that the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, wherein the area information corresponding to the target area comprises at least one of area layout information of the target area, space information of the target area and installation position information of the air conditioner in the target area;

the generation module is used for generating environment adjustment parameters aiming at the extreme operation mode of the air conditioner in the target area according to the acquired area information, wherein for the same number, the environment adjustment capacity of the air conditioner in the extreme operation mode is larger than that of the air conditioner in the common operation mode;

and the control module is used for controlling the air conditioner in the target area according to the environment adjusting parameters.

As an alternative embodiment, in the second aspect of the present invention, the apparatus further includes:

the judging module is used for acquiring the state information of the target area at the current moment and judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area or not, wherein the state information comprises the area crowd information of the target area;

And the specific mode of judging whether the state information meets the triggering condition of the extreme running mode of the air conditioner in the target area in the judging module is as follows:

when the state information is the regional crowd information of the target region, crowd distribution information of the target region at the current moment is determined according to the regional crowd information, historical temperature change trend information and crowd historical distribution information of the target region are obtained, an association relation between the historical temperature change trend information and the crowd historical distribution information is determined, the predicted temperature of the target region after the current moment is predicted based on the crowd distribution information and the association relation, and when the predicted temperature is greater than a preset predicted temperature threshold, the state information is determined to meet the triggering condition of the extreme operation mode of the air conditioner in the target region.

the judging module is used for acquiring the state information of the target area at the current moment and judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area or not, wherein the state information comprises the area temperature information of the target area;

when the state information is the area temperature information of the target area, calculating the absolute value of the temperature difference between the target area and other areas at the current moment, determining the temperature change information of the target area before the current moment, and when the absolute value of the temperature difference is smaller than or equal to a preset temperature difference threshold value and the temperature change information indicates that the temperature change value of the target area is smaller than or equal to the preset temperature change threshold value, determining that the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

As an alternative embodiment, in a second aspect of the present invention, the apparatus comprises:

the determining module is used for judging whether the target area at least comprises two air conditioners or not before the generating module generates the environment adjusting parameters aiming at the extreme running mode of the air conditioners in the target area according to the acquired area information and when the area information corresponding to the target area comprises the area layout information of the target area and the installation position information of the air conditioners in the target area, and determining an area to be adjusted in the target area, the temperature of which needs to be adjusted according to the area temperature information and the area crowd information when the area information at least comprises two air conditioners in the target area is judged; determining a target air conditioner for adjusting the environmental parameters of the area to be adjusted from all the air conditioners in the target area according to the area layout information and the installation position information;

The specific way of generating the environment adjustment parameters for the extreme operation mode of the air conditioner in the target area according to the collected area information in the generation module is as follows:

In a second aspect of the present invention, according to the collected area information, the specific manner of generating the environment adjustment parameter for the extreme operation mode of the air conditioner in the target area in the generating module is as follows:

acquiring current running state information of air conditioners in the target area, and determining target running state information of the air conditioners in the target area according to the area information; generating environment adjustment parameters for the extreme operation mode of the air conditioner in the target area according to the current operation state information and the target operation state information;

The triggering module is used for determining an area identifier of the target area before the control module controls the air conditioner in the target area according to the environment adjustment parameter, judging whether the target area is an area allowing the air conditioner in the target area to be in the extreme operation mode according to the area identifier, and triggering and executing the step of controlling the air conditioner in the target area according to the environment adjustment parameter when the target area is determined to be the area allowing the air conditioner in the target area to be in the extreme operation mode; and/or before controlling the air conditioner in the target area according to the environment adjustment parameter, determining a user using the air conditioner in the target area, determining the use authority information of the user using the air conditioner in the target area, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the step of controlling the air conditioner in the target area according to the environment adjustment parameter when the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

the pushing module is used for pushing the environment adjusting parameters to a target user before the control module controls the air conditioner in the target area according to the environment adjusting parameters and receiving an adjusting command fed back by the target user for the environment adjusting parameters;

the triggering module is also used for responding to the adjusting command, triggering and executing the operation of controlling the air conditioner in the target area according to the environment adjusting parameter;

the specific way of pushing the environment adjustment parameters to the target user in the pushing module is as follows:

determining a user needing to use the air conditioner in the target area as a target user, and acquiring control authority information of the target user, wherein the control authority information is used for indicating the control authority of the target user for the air conditioner in the target area; judging whether the control authority information of the target user meets preset authority conditions or not; and when the control authority information of the target user meets the authority conditions, acquiring the use preference information of the target user, and pushing the environment regulation parameters to the target user according to the use preference information of the target user.

In a second aspect of the present invention, the specific manner of controlling the air conditioner in the target area according to the environmental adjustment parameter in the control module is:

when the environment adjusting parameter is the fan control parameter, adjusting the fan rotating speed of the air conditioner in the target area according to the fan control parameter so as to control the air conditioner in the target area according to the adjusted fan rotating speed; when the environment adjustment parameter is the compression power control parameter, adjusting the refrigerant flux of the air conditioner in the target area according to the compression power control parameter so as to control the air conditioner in the target area according to the adjusted refrigerant flux; the environment adjustment parameters comprise the fan control parameters and the compression power control parameters, the fan rotating speed of the air conditioner in the target area is adjusted according to the fan control parameters, and the refrigerant flux of the air conditioner in the target area is adjusted according to the compression power control parameters, so that the air conditioner in the target area is controlled according to the adjusted fan rotating speed and the refrigerant flux.

In a third aspect, the present invention discloses another air conditioner operation adjusting device, which includes:

A memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program codes stored in the memory to execute the air conditioner operation adjusting method disclosed in the first aspect of the invention.

A fourth aspect of the present invention discloses a computer storage medium storing computer instructions for executing the method for adjusting the operation of the air conditioner disclosed in the first aspect of the present invention when the computer instructions are called.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, when judging that the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, acquiring the area information corresponding to the target area, wherein the area information corresponding to the target area comprises at least one of area layout information of the target area, space information of the target area and installation position information of the air conditioner in the target area; generating environment adjustment parameters aiming at an extreme operation mode of the air conditioner in the target area according to the acquired area information, wherein for the same number, the environment adjustment capacity of the air conditioner in the extreme operation mode is larger than that of the air conditioner in the common operation mode; and controlling the air conditioner in the target area according to the environment adjusting parameters. Therefore, when the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner, the air conditioner in the target area is controlled to be switched to the extreme operation mode according to the environment adjustment parameter, the environment adjustment capability of the air conditioner in the target area is improved, the condition that the temperature is adjusted to the temperature expected by a user only after a long time is required for temperature adjustment by adopting the air conditioner with the number corresponding to the target area due to the influence of the environment factor is reduced, the temperature adjustment efficiency of the air conditioner is improved, and the use experience of the user is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a method for adjusting operation of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic illustration of an area to be conditioned as disclosed in an embodiment of the invention;

FIG. 3 is a flow chart of another method for adjusting the operation of an air conditioner according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an air conditioner operation adjusting device according to an embodiment of the present invention;

FIG. 5 is a schematic view of a structure of an adjusting device for an operation of another air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an apparatus for adjusting an operation of an air conditioner according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a method and a device for adjusting the operation of an air conditioner, which can reduce the condition that the temperature of the air conditioner can be adjusted to the temperature expected by a user only after a long time is spent for adjusting the temperature by adopting the corresponding number of air conditioners due to the influence of environmental factors, improve the temperature adjusting efficiency of the air conditioner and improve the use experience of the user. The following will describe in detail.

Example 1

Referring to fig. 1, fig. 1 is a flow chart of a method for adjusting operation of an air conditioner according to an embodiment of the invention. The method for adjusting the operation of the air conditioner described in fig. 1 may be applied to an air conditioner, or may be applied to an air conditioner management platform, where the air conditioner management platform may be in communication connection with the air conditioner, and the embodiment of the present invention is not limited. As shown in fig. 1, the method for adjusting the operation of the air conditioner may include the following operations:

and step 101, acquiring area information corresponding to the target area when judging that the state information of the target area meets the trigger condition of the extreme operation mode of the air conditioner in the target area.

Wherein the target area may be an area including at least one air conditioner, such as an area including a room, a living room, a mall, etc., the status information of the target area may include area temperature information of the target area and/or area population information of the target area, the area temperature information may be temperature information of the target area, the area population information may include position information of population in the target area and density information of population in the target area, the area information corresponding to the target area may include at least one of area layout information of the target area, space information of the target area, installation position information of the air conditioner in the target area, the area layout information may be layout information of the target area, the layout information may be information for representing a layout in the area, such as a house type of the room, an indoor layout of the mall, etc., the spatial information may include shape information of a target area, distance information, etc. for representing the structure of the target area, the spatial information may be information acquired based on a camera, a radar, an infrared sensor, a sweeping robot, etc., the installation position information may be a position where the air conditioner is installed in the target area, the extreme operation mode may be one of all operation modes of the air conditioner, the environmental adjustment capacity of the air conditioner in the extreme operation mode may be greater than the environmental adjustment capacity of the air conditioner in the normal operation mode for the same number, the normal operation mode may be one of all operation modes of the air conditioner, the environmental adjustment capacity may be an efficiency and strength normal operation mode for adjusting the temperature within the area may be an operation mode used by the air conditioner under normal conditions, the extreme operating mode may be an operating mode used when it is desired to change the environmental conditioning capacity of the air conditioner.

For example, the number of air conditioners may be 1.5 pieces, and for all 1.5 pieces of air conditioners, the environmental conditioning capacity of 1.5 pieces of air conditioners in the extreme operation mode may be greater than the environmental conditioning capacity of 1.5 pieces of air conditioners in the normal operation mode, or, for the same air conditioner, the environmental conditioning capacity of the air conditioner in the extreme operation mode may be greater than the environmental conditioning capacity in the normal operation mode, and the air conditioner in the normal operation mode may have the maximum environmental conditioning capacity corresponding to the maximum environmental conditioning capacity, i.e., the cooling efficiency or heating efficiency, of 1.5 pieces of air conditioners in the normal operation mode may be the maximum environmental conditioning capacity corresponding to the maximum environmental conditioning capacity of 1.5 pieces, and the air conditioner in the extreme operation mode may have the maximum environmental conditioning capacity not corresponding to the maximum environmental conditioning capacity, e.g., the maximum environmental conditioning capacity of 1.5 pieces of air conditioners in the extreme operation mode may be the maximum environmental conditioning capacity corresponding to the maximum environmental conditioning capacity of 2 pieces when the air conditioners in the extreme operation mode.

In practical application, the air conditioner or the air conditioner management platform in communication connection with the air conditioner can judge whether the air conditioner in the target area needs to be controlled at the current moment in real time, and then can acquire the area information corresponding to the target area when judging that the air conditioner in the target area needs to be controlled, namely, when judging that the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

In a specific implementation, a temperature sensor and an object sensor may be preset in the air conditioner, the temperature sensor may be used for acquiring temperature information in a target area and acquiring air inlet temperature and air outlet temperature in the air conditioner, the temperature sensor may include a resistance temperature detector, a negative temperature coefficient thermistor, an infrared thermometer and the like, the object sensor may be a sensor for acquiring an object in the target area, the object sensor may include a camera, a radar, an infrared sensor and the like, and further the temperature sensor may be used for acquiring state information in the target area and acquiring area information corresponding to the target area.

In an alternative embodiment, the method may further comprise the steps of:

and acquiring the state information of the target area at the current moment, and judging whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

In practical application, the air conditioner or an air conditioner management platform in communication connection with the air conditioner can acquire the state information of the target area at the current moment, and further can judge whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target area.

In this optional embodiment, the above state information may include regional crowd information of the target region, and optionally, a specific manner of determining whether the state information meets the triggering condition of the extreme operation mode of the air conditioner in the target region at the current moment is:

when the state information is regional crowd information of a target region, crowd distribution information of the target region at the current moment is determined according to the regional crowd information, historical temperature change trend information and crowd historical distribution information of the target region are obtained, an incidence relation between the historical temperature change trend information and the crowd historical distribution information is determined, the predicted temperature of the target region after the current moment is predicted based on the crowd distribution information and the incidence relation, and when the predicted temperature is greater than a preset predicted temperature threshold value, the state information is determined to meet triggering conditions of an extreme operation mode of an air conditioner in the target region.

The crowd distribution information may be distribution information of a certain crowd in the target area, the crowd distribution information may include position information of the crowd and density information of the crowd, the crowd may be a crowd including one or more users, the historical temperature change trend information may be a change trend of temperature of each position of the target area in historical time, the historical crowd distribution information may be position information of the crowd of the target area in historical time and density information of the crowd of the target area in historical time, and the predicted temperature threshold may be determined based on use requirements of the users.

In practical application, when the state information of the target area is the regional crowd information of the target area, crowd distribution information of the crowd in the target area in the current time can be determined according to the regional crowd information, for example, the target area in the current time can include crowd a and crowd B, density information of the crowd a in the target area and position information of the crowd a in the target area in the current time can be determined according to the regional crowd information, and density information of the crowd B in the target area and position information of the crowd B in the target area in the current time can be determined.

After the crowd distribution information of the crowd in the target area in the current moment is determined, the change trend of the temperature of each position of the target area in the historical moment can be obtained, the position information of the crowd in the historical moment of the target area and the density information of the crowd in the historical moment of the target area are obtained, and the association relation between the historical temperature change trend information and the crowd historical distribution information is determined.

For example, the target area may include a crowd C and a crowd D at a certain time in the history time, the position information of the crowd C at the time may be obtained as the position information 5 meters away from the air conditioner, the density information of the crowd C at the time may be obtained as the position information 3 meters away from the air conditioner, the density information of the crowd D at the time may be obtained as the position information of the crowd D at the time of 3 meters away from the air conditioner, the density information of the crowd D at the time of 5 meters away from the air conditioner may be obtained, further, the change trend of the temperature corresponding to the crowd C may be determined as 0.1 degree celsius per second from the obtained change trend of the temperature at each position, the change trend of the temperature corresponding to the crowd D may be determined as 0.2 degree celsius per second, the linear relationship between the position information and the history information may be determined according to the position information of the crowd C, the density information of the crowd C, the change trend of the temperature corresponding to the crowd D, and the linear relationship between the change trend information of the temperature corresponding to the history information may be further determined.

After determining the association relationship between the historical temperature change trend information and the crowd historical distribution information, the predicted temperature of the target area at the next time of the current time can be predicted based on the crowd distribution information, the association relationship between the historical temperature change trend information and the crowd historical distribution information.

For example, the association relationship between the historical temperature change trend information and the crowd historical distribution information may be represented as that the crowd density per 1 meter distance from the air conditioner is 0.5 celsius per second, the crowd position information of the crowd a in the target area at the current time is 1 meter distance from the air conditioner, the crowd a density information is 1 person per square meter, the crowd a temperature of the target area at the current time may be predicted to be reduced by 0.5 celsius per second for the crowd a at the current time based on the association relationship among the crowd distribution information, the historical temperature change trend information and the crowd historical distribution information, and then the crowd a temperature information for the crowd a in the current time may be predicted to be the predicted temperature of the crowd a at the next time of the current time for the target area, and so on, the predicted temperature of each crowd at the next time of the current time for the target area may be obtained.

After obtaining the predicted temperature of the target area at the next time of the current time, the predicted temperature of the target area at the next time of the current time can be compared with a preset predicted temperature threshold to judge whether the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, when judging that the predicted temperature is greater than the preset predicted temperature threshold, the state information is determined to meet the triggering condition of the extreme operation mode of the air conditioner in the target area, and when judging that the predicted temperature is less than or equal to the predicted temperature threshold, the state information of the target area is determined to not meet the triggering condition of the extreme operation mode of the air conditioner in the target area.

In an embodiment of the present invention, after determining the crowd distribution information of the crowd in the target area at the current moment, the location information of the crowd in the target area may be determined according to the crowd distribution information of the crowd in the target area, and the location information of each crowd in the target area may be compared with a preset crowd distance threshold to determine whether the target crowd exists in the target area, where the target crowd may be a crowd greater than the crowd distance threshold in the location information of all the crowd in the target area, and further after determining that the target crowd exists in the target area, the state information of the target area may be determined to satisfy the triggering condition of the extreme operation mode of the air conditioner in the target area.

In this optional embodiment, the above state information may include area temperature information of the target area, and optionally, a specific manner of determining whether the state information at the current time satisfies the triggering condition of the extreme operation mode of the air conditioner in the target area is:

The other areas may be areas except the target area, the absolute value of the temperature difference may be an absolute value of the temperature difference between the target area and the other areas, the temperature difference threshold may be set based on the user's use requirement, and the temperature change threshold may be determined based on the user's use requirement.

When the state information of the target area is the area temperature information of the target area, the absolute value of the temperature difference between the target area and other areas can be determined according to the area temperature information of the target area and the area temperature information of other areas.

For example, the region temperature information of the target region at the current time may be 28 degrees celsius, and the region temperature information of the other regions may be 36 degrees celsius, and then the temperature difference between the target region and the other regions at the current time may be minus 8 degrees celsius, that is, the absolute value of the temperature difference between the target region and the other regions is 8 degrees celsius.

After obtaining the absolute value of the temperature difference between the target area and other areas, the temperature change information of the target area in a preset time before the current time can be determined, and the preset time can be set by a user or determined based on the user preference.

For example, the preset time period may be set to 2 seconds, and then the region temperature information of the target region at any time within 2 seconds before the current time may be determined, the region temperature information of the target region at one second before the current time may be determined to be 35 degrees celsius, the region temperature information of the target region at two seconds before the current time may be determined to be 34.8 degrees celsius, and then the temperature change information of the target region at the preset time period before the current time may be determined to be reduced by 0.1 degrees celsius per second.

After the absolute temperature difference value and the temperature change information are obtained, whether the state information of the target area meets the triggering condition of the extreme operating mode of the air conditioner in the target area can be judged according to the absolute temperature difference value and the temperature change information, when the absolute temperature difference value is smaller than or equal to a preset temperature difference threshold value and the temperature change information is smaller than or equal to the preset temperature change threshold value, the state information of the target area is determined to meet the triggering condition of the extreme operating mode of the air conditioner in the target area, and when the absolute temperature difference value is larger than the temperature difference threshold value and/or the temperature change information is larger than the temperature change threshold value, the state information of the target area is determined to not meet the triggering condition of the extreme operating mode of the air conditioner in the target area.

In this optional embodiment, when the state information of the target area includes the area temperature information of the target area and the area crowd information of the target area, an absolute value of a temperature difference between the target area and other areas at the current time may be calculated, the temperature change information of the target area before the current time is determined, the historical temperature change trend information and the crowd historical distribution information of the target area are obtained, and an association relationship between the historical temperature change trend information and the crowd historical distribution information is determined, so that a predicted temperature of the target area after the current time may be predicted based on the crowd distribution information and the association relationship, when the absolute value of the temperature difference is less than or equal to a preset temperature difference threshold and the temperature change information indicates that the temperature change value of the target area is less than or equal to a preset temperature change threshold and the predicted temperature is greater than a preset predicted temperature threshold, a crowd distribution information of the target area at the current time is determined according to the area information, and when the absolute value of the temperature difference is greater than the preset temperature difference threshold is satisfied, the temperature change information indicates that the temperature change value of the target area is less than or equal to a preset temperature change threshold is satisfied, the current temperature change threshold is determined, the triggering condition of the state information of the air conditioner in the extremely running mode of the target area is determined according to the crowd distribution information of the current state information.

In another optional embodiment, whether a trigger command fed back by the user for the requirement of switching to the extreme operation mode is received may be detected, and further, when the trigger command fed back by the user for the requirement of switching to the extreme operation mode is detected to be received, it may be determined that the state information of the target area meets the trigger condition of the extreme operation mode of the air conditioner in the target area.

In an embodiment of the present invention, when it is determined that the state information of the target area meets the trigger condition of the extreme operating mode of the air conditioner in the target area by adopting any one of the methods, the operation of collecting the area information corresponding to the target area is triggered and executed when it is determined that the state information of the target area meets the trigger condition of the extreme operating mode of the air conditioner in the target area.

And 102, generating environment adjustment parameters for the extreme operation mode of the air conditioner in the target area according to the acquired area information.

The environment adjusting parameters can be parameters required to be adjusted when the air conditioner is switched to the extreme operation mode, the parameters required to be adjusted by the air conditioner can comprise air quantity and enthalpy difference, and the enthalpy difference can be the difference value of the inlet enthalpy and the outlet enthalpy.

In practical application, the area regulated by the air conditioner in the target area can be determined according to the area layout information of the target area and the installation position information of the air conditioner in the target area, so that the state information of the area regulated by the air conditioner in the target area can be determined from the state information corresponding to the target area, and the air quantity and enthalpy difference required to be regulated for switching the air conditioner to the extreme operation mode in the target area can be determined according to the state information of the area regulated by the air conditioner.

In yet another optional embodiment, before step 102 and when the area information corresponding to the target area includes the area layout information of the target area and the installation position information of the air conditioner in the target area, the method may further include the steps of:

judging whether the target area at least comprises two air conditioners or not, and determining an area to be regulated in the target area, which needs to be regulated in temperature, according to the area temperature information and the area crowd information when judging that the target area at least comprises two air conditioners; and determining a target air conditioner for adjusting the environmental parameters of the area to be adjusted from all air conditioners in the target area according to the area layout information and the installation position information.

The environmental parameter may be an environmental temperature parameter, an environmental temperature change parameter, or the like in the region, which is a parameter indicating an environmental condition of the region.

In practical application, when at least two air conditioners exist in a target area, environmental adjustment parameters for the extreme operation mode of each air conditioner in the target area can be generated according to the acquired area information, and one or more air conditioners in all the air conditioners in the target area can be controlled.

For example, according to the regional temperature information and the regional crowd information, it may be determined that the region where the crowd a is located in the target region meets the triggering condition of the extreme operating mode of the air conditioner in the target region, that is, the temperature difference of the region where the crowd a is located is smaller than the temperature difference threshold, or the temperature change information of the region where the crowd a is located is smaller than the temperature change threshold, or when the temperature of the region where the crowd a is located at the next time of the current time is greater than the predicted temperature threshold, it is determined that the region to be regulated in the target region where the crowd a needs to be regulated is the region where the crowd a is located, and then it may be determined that the air conditioner used for regulating the region where the crowd a is located is the target air conditioner from all the air conditioners in the target region, so as to generate the environmental regulation parameter for the extreme operating mode of the target air conditioner.

Referring to fig. 2, fig. 2 is a schematic diagram of an area to be regulated disclosed in the embodiment of the present invention, as shown in fig. 2, the target area may include a crowd a and a crowd B, and include an air conditioner a and an air conditioner B, where the crowd a is located in the target area is determined to be an area to be regulated 1 according to the above method, and the crowd B is determined to be an area to be regulated 2 according to the area layout information and the installation position information of the air conditioner a and the air conditioner B, and then the target air conditioner for adjusting the area to be regulated 1 and the area to be regulated 2 is determined to be an air conditioner B from all the air conditioners in the target area, and the reason that the air conditioner B is determined to be the air conditioner B which is closest to the area to be regulated 1 and the area to be regulated 2 in all the air conditioners in the target area according to the installation position information of the air conditioner a and the air conditioner B is determined, and the air conditioner B is determined to be a, and the air conditioner B is not directly opposite to the area to be regulated 1 and the area to be regulated 2, and thus the air conditioner B is not directly opposite to the area to be regulated 1, and the air conditioner a is not directly opposite to the area to be regulated 2, and the air conditioner B is required to be regulated to be the air conditioner 2, and the air conditioner a is directly, and the air conditioner is adjusted is required to be adjusted to be a by the air conditioner B, and the air conditioner is required to be directly to be adjusted to be in the air conditioner 2, and the air conditioner is simultaneously by the user to be in the air conditioner to be in the air conditioning mode to be in the area to be directly to be in the area to be adjusted to be in the area to be directly to be regulated to be through the air conditioning to be through the air area to be through the air conditioning to be and to be. Reducing more energy consumption.

In yet another alternative embodiment, the specific manner of generating the environmental conditioning parameters for the extreme operating mode of the air conditioner in the target area according to the collected area information may be: and generating environment adjustment parameters aiming at the extreme operation mode of the target air conditioner in the target area according to the acquired area information.

In practical application, after determining the target air conditioner, the environment adjustment parameters for the extreme operation mode of the target air conditioner in the target area can be generated according to the collected area information.

And step 103, controlling the air conditioner in the target area according to the environment adjustment parameters.

After the environmental adjustment parameters are obtained, the air conditioner in the target area can be controlled according to the environmental adjustment parameters.

In practical application, parameters of the air conditioner in the target area can be adjusted according to the environmental adjustment parameters, so that the air conditioner is controlled to be switched to the extreme operation mode according to the adjusted parameters.

Example two

Referring to fig. 3, fig. 3 is a flow chart illustrating another method for adjusting the operation of an air conditioner according to an embodiment of the invention. The method for adjusting the operation of the air conditioner described in fig. 3 may be applied to an air conditioner, or may be applied to an air conditioner management platform, where the air conditioner management platform may be in communication connection with the air conditioner, and the embodiment of the present invention is not limited. As shown in fig. 3, the method for adjusting the operation of the air conditioner may include the following operations:

step 201, when it is determined that the state information of the target area meets the trigger condition of the extreme operation mode of the air conditioner in the target area, acquiring the area information corresponding to the target area.

Step 202, obtaining current running state information of air conditioners in a target area, and determining target running state information of the air conditioners in the target area according to the area information.

The current operation state information may be state information of an air conditioner operating at a current moment, the current operation state information may include a first fan rotation speed parameter and/or a first compression power parameter, the target operation state information may be state information required for the air conditioner to switch to an extreme operation mode, the target operation state information may include a second fan rotation speed parameter and/or a second compression power parameter, the fan rotation speed parameter may be a rotation speed of a fan used for controlling air supply in the air conditioner, and the compression power parameter may be a refrigerant flux of a compressor used for controlling refrigeration in the air conditioner.

After the area information corresponding to the target area is acquired, the current running state information of the air conditioner in the target area at the current moment can be acquired, and the state information required by the air conditioner in the target area to be switched to the extreme running mode is determined according to the area layout information of the target area and the installation position information of the air conditioner in the target area.

In practical application, temperature information at the current moment in the target area can be acquired, further target temperature information required to be achieved when the air conditioner is switched to the extreme operation mode can be determined, the temperature difference between the temperature at the current moment and the target temperature required to be achieved when the air conditioner is switched to the extreme operation mode can be determined, and according to the area information, the temperature difference between the temperature at the current moment and the target temperature required to be achieved when the air conditioner is switched to the extreme operation mode and the state information of the air conditioner when the air conditioner is switched to the extreme operation mode, a second fan rotating speed parameter and/or a second compression power parameter of the air conditioner can be calculated, and the target operation state information is generated based on the second fan rotating speed parameter and/or the second compression power parameter.

In an alternative embodiment, the space size of the target area may be determined according to the space information in the area information, and based on the space size of the target area, an adjustment time period required for controlling the temperature in the target area to be adjusted to the target temperature based on the second fan rotation speed parameter and/or the second compression power parameter may be determined, and further, the target operation state information may be generated based on the adjustment time period and the second fan rotation speed parameter and/or the second compression power parameter.

Step 203, generating environmental adjustment parameters for the extreme operation mode of the air conditioner in the target area according to the current operation state information and the target operation state information.

After the current operation state information and the target operation state information are obtained, environmental adjustment parameters for the extreme operation mode of the air conditioner in the target area can be generated according to the current operation state information and the target operation state information.

In practical application, parameters required to be adjusted by the air conditioner in the target area can be determined according to the current running state information and the target running state information, namely environment adjusting parameters of the air conditioner in the target area in the extreme running mode.

In a specific implementation, when the current running state information is a first fan rotating speed parameter, the target running state information may be a second fan rotating speed parameter, and the environment adjustment parameter may be a fan control parameter generated based on the first fan rotating speed parameter and the second fan rotating speed parameter; when the current operation state information is a first compression power parameter, the target operation state information may be a second compression power parameter, and the environment adjustment parameter may be a compression power control parameter generated based on the first compression power parameter and the second compression power parameter; when the current operating state information includes a first fan speed parameter and a first compression power parameter, the target operating state information may include a second fan speed parameter and a second compression power parameter, and the environment adjustment parameter may include a fan control parameter generated based on the first fan speed parameter and the second fan speed parameter, and a compression power control parameter generated based on the first compression power parameter and the second compression power parameter.

The fan control parameter can be used for controlling the rotating speed of a fan in the air conditioner, and the compression power control parameter can be used for controlling the refrigerant flux of a compressor in the air conditioner.

And step 204, controlling the air conditioner in the target area according to the environment adjustment parameters.

In another alternative embodiment, the method may further comprise the steps of, prior to step 204:

determining an area identifier of a target area, judging whether the target area is an area allowing the air conditioner in the target area to be in a very good running mode according to the area identifier, and triggering the step of controlling the air conditioner in the target area according to the environment adjusting parameters when the target area is determined to be the area allowing the air conditioner in the target area to be in the very good running mode, wherein the area identifier can be used for identifying types of different areas, such as living rooms, bedrooms, wards, halls and the like.

After the environment adjustment parameters are obtained, the area identification of the target area can be determined, and whether the target area is an area which allows the air conditioner in the target area to be in the extreme operation mode or not can be judged according to the area identification.

In practical application, different areas have different requirements on the environmental conditioning capacity of the air conditioner, generally, due to the large area of the living room, the air conditioner can be allowed to use the extreme operating mode to improve the environmental conditioning capacity of the air conditioner, and then the use requirement of a user in the living room can be met.

In general, all the areas may be distinguished according to the occupied area of the areas, that is, the areas occupied in a certain section are the same type of area, for example, the areas occupied in 10 to 20 square meters are large area types, the areas occupied in 0 to 5 square meters are small area types, further, the areas occupied in a larger section may be set as the areas allowing the air conditioner in the target area to be in the extreme operation mode, and the areas occupied in a smaller section may be set as the areas prohibiting the air conditioner in the target area from being in the extreme operation mode.

In yet another alternative embodiment, the type of region may also be set based on the needs of the user of the region.

And when the target area is determined to be the area which allows the air conditioner in the target area to be in the extreme running mode, triggering the step of controlling the air conditioner in the target area according to the environment regulation parameter, and when the target area is determined to be the area which does not allow the air conditioner in the target area to be in the extreme running mode, controlling the air conditioner in the target area according to the environment regulation parameter.

Optionally, in an embodiment of the present invention, before step 204, the method may further include the steps of:

Determining a user using the air conditioner in the target area, determining the use authority information of the user using the air conditioner in the target area, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the step of controlling the air conditioner in the target area according to the environment regulation parameters when the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

The usage right information may be right of a user to use an extreme operation mode of the air conditioner.

After the environment adjustment parameters are obtained, users using the air conditioner in the target area can be identified through the object sensor, and the use authority information of the air conditioner extreme operation mode in the use target area corresponding to the users is determined from the preset user library.

After determining the usage right information of the user using the air conditioner in the target area, it may be determined whether there is no user in the target area that does not satisfy the usage right of the extreme operation mode according to the usage right information.

In practical application, different users may have different usage rights of using the air conditioner, for example, due to poor physical quality, if the usage extreme operation mode of the air conditioner in the target area affects the physical health of the user less than 6 years old, the usage rights of the different air conditioners may be set for different users, for example, the usage rights of the extreme operation mode which is not allowed to use the air conditioner in the target area may be set for the user needing rest, the old or the user with poor physical quality in the target area, and then after the usage rights information of the user using the air conditioner in the target area is determined, it may be determined whether the user not meeting the usage rights of the extreme operation mode does not exist in the target area.

And when the fact that the user which does not meet the use authority of the extreme operation mode does not exist in the target area is determined, the step of controlling the air conditioner in the target area according to the environment adjusting parameter, which is performed in a triggering mode, is forbidden, and when the fact that the user which does not meet the use authority of the extreme operation mode does not exist in the target area is determined, the step of controlling the air conditioner in the target area according to the environment adjusting parameter, which is performed in a triggering mode, is forbidden.

determining an area identifier of a target area, determining the use authority information of a user using the air conditioner in the target area, judging whether the target area is an area which allows the air conditioner in the target area to be in the extreme operation mode according to the area identifier, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the executed step of controlling the air conditioner in the target area according to the environment regulation parameters when the target area is determined to be the area which allows the air conditioner in the extreme operation mode and the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

After the environment adjustment parameter is obtained, the above method may be adopted to determine the area identifier of the target area, and determine the usage right information of the user who uses the air conditioner in the target area, so as to determine whether the target area is an area where the air conditioner in the target area is allowed to be in the extreme operation mode according to the area identifier, and determine whether there is no user who does not satisfy the usage right of the extreme operation mode in the target area according to the usage right information, when it is determined that the target area is an area where the air conditioner in the extreme operation mode is allowed and there is no user who does not satisfy the usage right of the extreme operation mode in the target area, the step of controlling the air conditioner in the target area according to the environment adjustment parameter is triggered and executed, and when it is determined that the target area is an area where the air conditioner in the extreme operation mode is not allowed, and/or when there is a user who does not satisfy the usage right of the extreme operation mode in the target area, the step of controlling the air conditioner in the target area according to the environment adjustment parameter is prohibited to trigger.

In yet another alternative embodiment, the method may further comprise, prior to step 204, the steps of:

pushing the environment adjusting parameters to a target user, receiving an adjusting command fed back by the target user aiming at the environment adjusting parameters, responding to the adjusting command, triggering the execution of the operation according to the environment adjusting parameters, and controlling the operation of the air conditioner in the target area.

The target user may be a user who needs to use the air conditioner in the target area, and the adjustment command may be a command for controlling the operation of the air conditioner in the target area with respect to whether or not the adjustment parameter according to the environment is triggered.

After the environment adjustment parameters are obtained, the environment adjustment parameters can be pushed to a target user through short messages, application programs related to the air conditioner, voice prompts, display screens and the like.

In practical application, the air conditioner in the target area can push the environmental adjustment parameters of the air conditioner to the user through a short message, if the air conditioner in the target area is provided with a display device or an audio output device, the environmental adjustment parameters of the air conditioner can be displayed through the display device of the air conditioner, the environmental adjustment parameters of the air conditioner can be played through the audio output device of the air conditioner, in addition, the target area can comprise at least one intelligent furniture, the air conditioner can transmit the environmental adjustment parameters to the intelligent furniture in the target area after obtaining the environmental adjustment parameters, such as televisions, computers, furniture with a display screen or display light and furniture with audio output device, the intelligent furniture can display the environmental adjustment parameters of the air conditioner through the display screen to inform the user in the target area, or prompt the user in the target area through flashing light, or can carry out audio conversion on the environmental adjustment parameters of the air conditioner through the furniture with the audio output device, and further inform the user in the target area through a voice prompt mode.

In yet another alternative embodiment, the adjustment duration spent for controlling the temperature in the target area to be adjusted to the target temperature based on the second fan rotation speed parameter and/or the second compression power parameter in the target running state information may also be pushed to the target user by means of a short message, an application program related to the air conditioner, a voice prompt, a display screen, or the like, so as to provide a reference when the user feeds back the environmental adjustment parameter, and provide the user experience.

After pushing the environment adjustment parameters to the target user, an adjustment command fed back by the target user aiming at the environment adjustment parameters can be received, and the adjustment command is responded, so that the operation of the air conditioner in the target area is controlled according to the environment adjustment parameters.

In practical applications, an air conditioner in a target area may receive an adjustment command fed back by a target user for an environmental adjustment parameter of the air conditioner, for example, when the air conditioner in the target area pushes the environmental adjustment parameter of the air conditioner to the target user through an application program, the target user may feed back the adjustment command for the environmental adjustment parameter of the air conditioner through the application program, or the air conditioner in the target area may have an audio receiving device, and further, when the target user receives the environmental adjustment parameter of the air conditioner, the target user may feed back the adjustment command for the environmental adjustment parameter of the air conditioner through a voice control, or after transmitting the environmental adjustment parameter to intelligent furniture in the target area, the target user may feed back the adjustment command for the environmental adjustment parameter of the air conditioner through the intelligent furniture in the target area, and further, may trigger the execution of the operation of the air conditioner in the target area according to the environmental adjustment parameter after receiving the adjustment command.

In yet another alternative embodiment, the specific manner of pushing the environment adjustment parameters to the target user may be:

determining a user needing to use the air conditioner in the target area as a target user, acquiring control authority information of the target user, judging whether the control authority information of the target user meets preset authority conditions, acquiring use preference information of the target user when the control authority information of the target user is judged to meet the authority conditions, and pushing environment adjustment parameters to the target user according to the use preference information of the target user.

The control authority information may be used to indicate a control authority of the target user for an air conditioner in the target area, and the usage preference information may be a pushing manner of adjusting parameters based on a pushing environment preferred by the user.

After the environment adjustment parameters of the air conditioner are obtained, one of all users using the air conditioner in the target area can be determined to be the target user, or the user using the air conditioner in the target area in a history period of time can be the target user, the control authority information of the target user is obtained, and whether the control authority information of the target user meets the preset authority condition is judged.

In practical applications, different users may correspond to different control authority information, such as users less than 6 years old, and since the users less than 6 years old have weak self-distinguishing ability, if the users less than 6 years old can control the air conditioner in the target area at will, other users in the target area may be affected, such as users needing rest, old people or users with poor physical quality, further, the control authority that the users less than 6 years old are not allowed to control the air conditioner in the target area may be set for the users less than 6 years old, and the control authority information of the owners of the air conditioner in the target area may also be set to allow the users to control the air conditioner in the target area, while the control authority information of the users other than the owners in the target area is not allowed to control the air conditioner in the target area.

In yet another alternative embodiment, the control of the air conditioner to the extreme operation mode may be a service developed by a manufacturer, and further, control authority information of a user who purchased the service may be set to allow the user to control the air conditioner in the target area, and control authority information of a user who does not purchase the service may be set to disallow the user to control the air conditioner in the target area.

In general, since the maximum power of the air conditioner in the extreme operating mode exceeds the maximum power allowed by the air conditioner, and thus the service life of the air conditioner is damaged, the damage to the air conditioner can be reduced as much as possible while the use requirement of the user is met by limiting the control of the permission of the air conditioner, and the damage to the air conditioner can be switched to the normal operating mode when the time length of the start-up and the extreme operating mode exceeds the preset time length threshold or the temperature change trend in the target area is detected to meet the use requirement of the user, and the use requirement of the user is met while the damage to the air conditioner is reduced as much as possible.

After the control authority information of the target user is obtained, whether the control authority information of the target user meets preset authority conditions or not can be judged, when the control authority information of the target user is judged to meet the authority conditions, the use preference information of the target user is obtained, the environment adjustment parameters are pushed to the target user according to the use preference information of the target user, and when the control authority information of the target user is judged to not meet the authority conditions, the environment adjustment parameters are prevented from being pushed to the target user.

In practical application, the permission condition can be set as the identification of the control permission information of the air conditioner in the permission target area, so that whether the identification of the control permission information of the target user accords with the corresponding identification in the preset permission condition can be judged, when the identification of the control permission information of the target user accords with the corresponding identification in the preset permission condition, the control permission information of the target user is judged to meet the preset permission condition, the use preference information of the target user is obtained, and the environment adjustment parameter can be pushed to the target user according to the pushing mode of pushing the environment adjustment parameter in the use preference information of the target user.

When the identification of the control authority information of the target user is judged to be different from the corresponding identification in the preset authority conditions, the control authority information of the target user is judged to not meet the preset authority conditions, and the environment adjustment parameters are prevented from being pushed to the target user.

In yet another alternative embodiment, step 204 may include the sub-steps of:

when the environment adjusting parameter is a fan control parameter, adjusting the fan rotating speed of the air conditioner in the target area according to the fan control parameter so as to control the air conditioner in the target area according to the adjusted fan rotating speed; when the environment regulation parameter is a compression power control parameter, regulating the refrigerant flux of the air conditioner in the target area according to the compression power control parameter so as to control the air conditioner in the target area according to the regulated refrigerant flux; the environment adjusting parameters comprise a fan control parameter and a compression power control parameter, the fan rotating speed of the air conditioner in the target area is adjusted according to the fan control parameter, and the refrigerant flux of the air conditioner in the target area is adjusted according to the compression power control parameter, so that the air conditioner in the target area is controlled according to the adjusted fan rotating speed and the refrigerant flux.

When the obtained environmental adjustment parameter of the air conditioner is a fan control parameter, the fan rotating speed of the air conditioner in the target area can be adjusted according to the fan control parameter so as to control the air conditioner in the target area according to the adjusted fan rotating speed, and when the obtained environmental adjustment parameter of the air conditioner is a compression power control parameter, the refrigerant flux of the air conditioner in the target area can be adjusted according to the compression power control parameter so as to control the air conditioner in the target area according to the adjusted refrigerant flux, and when the obtained environmental adjustment parameter of the air conditioner comprises the environmental adjustment parameter including the fan control parameter and the compression power control parameter, the fan rotating speed of the air conditioner in the target area can be adjusted according to the fan control parameter, and the refrigerant flux of the air conditioner in the target area can be adjusted according to the adjusted fan rotating speed and the refrigerant flux.

In practical application, if the air conditioner is not switched to the extreme operation mode, in order to adjust the target area to the temperature expected by the user, the air conditioner in the normal operation mode needs to be operated at full power all the time, consumes a large amount of power resources, reduces the service life of the air conditioner, may not be adjusted to the temperature expected by the user, influences the use experience of the user, and can control the air conditioner in the target area to be switched to the extreme operation mode according to the adjusted fan rotating speed and/or the refrigerant flux, so that the environment adjusting capacity of the air conditioner in the target area can be adjusted, and the temperature in the target area can be adjusted according to the adjusted environment adjusting capacity, so that the temperature adjusted by the adjusted environment adjusting capacity meets the requirement of the user, and the consumed power resources can be reduced.

In an embodiment of the present invention, after controlling the air conditioner in the target area and adjusting the temperature of the target area to the temperature desired by the user, the air conditioner in the target area may be controlled to switch from the extreme operation mode to the normal operation mode, so as to reduce the consumption of the electric power resource and increase the service life of the air conditioner in the target area.

In practical application, after the air conditioner in the control target area is switched from the extreme operation mode to the normal operation mode, the adaptive matching number applicable to the target area can be determined according to the area layout information corresponding to the target area and the installation position information of the air conditioner in the target area, and then the environment adjustment parameters corresponding to the adaptive matching number of the air conditioner in the target area can be determined based on the adaptive matching number, so that the air conditioner in the target area is controlled according to the environment adjustment parameters corresponding to the adaptive matching number, and the consumption of electric power resources is reduced.

In the embodiment of the invention, when judging that the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner in the target area, acquiring the area information corresponding to the target area, acquiring the current operation state information of the air conditioner in the target area, determining the target operation state information of the air conditioner in the target area according to the area information, generating the environment regulation parameter of the extreme operation mode of the air conditioner in the target area according to the current operation state information and the target operation state information, and controlling the air conditioner in the target area according to the environment regulation parameter. Therefore, when the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner, the environment adjustment parameter is determined according to the current operation state information and the target operation state information of the air conditioner, the accuracy of the determined environment adjustment parameter is improved, the air conditioner in the target area is controlled to be switched to the extreme operation mode according to the environment adjustment parameter, the environment adjustment capability of the air conditioner in the target area is improved, the condition that the temperature required by a user can be adjusted only by taking a long time when the air conditioner with the number corresponding to the target area is adopted for temperature adjustment due to the influence of the environment factor is reduced, the temperature adjustment efficiency of the air conditioner is improved, and the use experience of the user is improved.

Example III

Referring to fig. 4, fig. 4 is a schematic structural diagram of an air conditioner operation adjusting device according to an embodiment of the present invention. The adjusting device for the operation of the air conditioner described in fig. 4 may be applied to an air conditioner, or may be applied to an air conditioner management platform, where the air conditioner management platform may be in communication connection with the air conditioner, and the embodiment of the present invention is not limited. As shown in fig. 4, the air conditioner operation adjusting device may include:

the acquisition module 301 is configured to acquire area information corresponding to a target area when it is determined that the state information of the target area meets a trigger condition of an extreme operation mode of an air conditioner in the target area, where the area information corresponding to the target area includes at least one of area layout information of the target area, space information of the target area, and installation position information of the air conditioner in the target area;

the generating module 302 is configured to generate, according to the collected region information, an environmental adjustment parameter for an extreme operation mode of an air conditioner in a target region, where, for the same number, an environmental adjustment capability of the air conditioner in the extreme operation mode is greater than an environmental adjustment capability of the air conditioner in a normal operation mode;

and the control module 303 is used for controlling the air conditioner in the target area according to the environment adjustment parameters.

Therefore, when the state information of the target area meets the triggering condition of the extreme operation mode of the air conditioner, the device of fig. 4 can control the air conditioner in the target area to switch to the extreme operation mode according to the environment adjustment parameter, thereby improving the environment adjustment capability of the air conditioner in the target area, reducing the condition that the air conditioner can take a long time to adjust to the temperature expected by the user when the air conditioner with the number corresponding to the target area is adopted for temperature adjustment due to the influence of the environment factor, improving the temperature adjustment efficiency of the air conditioner, and improving the use experience of the user.

Referring to fig. 5, fig. 5 is a schematic structural diagram of another air conditioner operation adjusting device according to an embodiment of the present invention. As shown in fig. 5, the air conditioner operation adjusting device further includes:

the judging module 304 is configured to obtain state information of a target area at a current time, and judge whether the state information meets a triggering condition of an extreme operation mode of an air conditioner in the target area, where the state information includes area crowd information of the target area;

and, the specific manner of judging whether the state information satisfies the triggering condition of the extreme operation mode of the air conditioner in the target area in the judging module 304 is as follows:

When the state information is regional crowd information of a target region, crowd distribution information of the target region at the current moment is determined according to the regional crowd information, historical temperature change trend information and crowd historical distribution information of the target region are obtained, an incidence relation between the historical temperature change trend information and the crowd historical distribution information is determined, the predicted temperature of the target region after the current moment is predicted based on the crowd distribution information and the incidence relation, and when the predicted temperature is greater than a preset predicted temperature threshold value, the state information is determined to meet triggering conditions of an extreme operation mode of an air conditioner in the target region;

or, the judging module 304 is configured to obtain state information of a target area at a current moment, and judge whether the state information meets a triggering condition of an extreme operation mode of an air conditioner in the target area, where the state information includes area temperature information of the target area;

Therefore, the device implementing fig. 5 can judge whether the triggering condition of the extreme operation mode of the air conditioner in the target area is met according to the state information of the target area, so that the accuracy of triggering the extreme operation mode of the air conditioner is improved, the temperature regulation efficiency of the air conditioner is improved, the reliability of regulating the temperature of the air conditioner is improved, and the use experience of a user is improved.

As an alternative embodiment, the apparatus comprises:

the determining module 305 is configured to determine whether at least two air conditioners are included in the target area before the generating module generates the environmental adjustment parameter for the extreme operation mode of the air conditioners in the target area according to the acquired area information, when the area information corresponding to the target area includes the area layout information of the target area and the installation position information of the air conditioners in the target area, and determine the area to be adjusted in the target area, which needs to be adjusted in temperature, according to the area temperature information and the area crowd information when it is determined that the target area includes at least two air conditioners; determining a target air conditioner for adjusting the environmental parameters of the area to be adjusted from all air conditioners in the target area according to the area layout information and the installation position information;

The specific manner of generating the environmental conditioning parameters for the extreme operation mode of the air conditioner in the target area according to the collected area information in the generating module 302 is as follows:

Therefore, the device implementing fig. 5 can generate the environmental adjustment parameters for the extreme operation mode of the air conditioner in the target area based on the acquired area information, so that the accuracy of generating the environmental adjustment parameters by the air conditioner is improved, the temperature adjustment efficiency of the air conditioner is improved, the reliability of adjusting the temperature of the air conditioner is improved, and the use experience of a user is improved.

As an optional implementation manner, the specific manner of generating the environmental conditioning parameter for the extreme operation mode of the air conditioner in the target area according to the collected area information in the generating module 302 is:

acquiring current running state information of air conditioners in a target area, and determining target running state information of the air conditioners in the target area according to the area information; generating environment adjustment parameters for an extreme operation mode of the air conditioner in the target area according to the current operation state information and the target operation state information;

The current running state information comprises a first fan rotating speed parameter and/or a first compression power parameter, and the target running state information comprises a second fan rotating speed parameter and/or a second compression power parameter; when the current running state information is a first fan rotating speed parameter, the target running state information is a second fan rotating speed parameter, and the environment adjusting parameter is a fan control parameter generated based on the first fan rotating speed parameter and the second fan rotating speed parameter; when the current running state information is a first compression power parameter, the target running state information is a second compression power parameter, and the environment adjustment parameter is a compression power control parameter generated based on the first compression power parameter and the second compression power parameter; when the current operating state information includes a first fan speed parameter and a first compression power parameter, the target operating state information includes a second fan speed parameter and a second compression power parameter, and the environment adjustment parameter includes a fan control parameter generated based on the first fan speed parameter and the second fan speed parameter, and a compression power control parameter generated based on the first compression power parameter and the second compression power parameter.

Therefore, the device implementing fig. 5 can generate the environmental adjustment parameters for the extreme operation mode of the air conditioner in the target area based on the current operation state information and the target operation state information, so that the accuracy of generating the environmental adjustment parameters by the air conditioner is further improved, the temperature adjustment efficiency of the air conditioner is improved, the reliability of adjusting the temperature of the air conditioner is improved, and the user experience is improved.

As an alternative embodiment, the apparatus comprises:

the triggering module 306 is configured to determine an area identifier of the target area before the control module controls the air conditioner in the target area according to the environmental adjustment parameter, determine whether the target area is an area that allows the air conditioner in the target area to be in the extreme operation mode according to the area identifier, and trigger the step of controlling the air conditioner in the target area according to the environmental adjustment parameter when the target area is determined to be an area that allows the air conditioner in the target area to be in the extreme operation mode; and/or before controlling the air conditioner in the target area according to the environment adjustment parameter, determining a user using the air conditioner in the target area, determining the use authority information of the user using the air conditioner in the target area, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the executed step of controlling the air conditioner in the target area according to the environment adjustment parameter when the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

Therefore, the device implementing fig. 5 can judge whether to control the air conditioner switching extreme operation mode in the target area based on the area identification of the target area and/or the use authority information of the user using the air conditioner in the target area, so that the reliability of controlling the air conditioner in the target area is improved, the use requirement of the user is met, and the use experience of the user is improved.

As an alternative embodiment, the apparatus comprises:

the pushing module 307 is configured to push the environmental adjustment parameter to a target user before the control module controls the air conditioner in the target area according to the environmental adjustment parameter, and receive an adjustment command fed back by the target user for the environmental adjustment parameter;

the triggering module 306 is further configured to trigger the operation of controlling the air conditioner in the target area according to the environmental adjustment parameter in response to the adjustment command;

the specific way of pushing the environment adjustment parameters to the target user by the pushing module 307 is as follows:

determining a user needing to use the air conditioner in the target area as a target user, and acquiring control authority information of the target user, wherein the control authority information is used for indicating the control authority of the target user for the air conditioner in the target area; judging whether the control authority information of the target user meets preset authority conditions or not; when the control authority information of the target user meets the authority condition, acquiring the use preference information of the target user, and pushing the environment adjustment parameters to the target user according to the use preference information of the target user.

Therefore, the device implementing fig. 5 can push the environment adjustment parameters to the target user according to the use preference information of the target user, so as to meet the use requirement of the user and improve the use experience of the user.

As an alternative implementation manner, the specific manner of controlling the air conditioner in the target area according to the environmental adjustment parameter in the control module 303 is:

Example IV

Referring to fig. 6, fig. 6 is a schematic structural diagram of an adjusting device for operation of an air conditioner according to another embodiment of the present invention. As shown in fig. 6, the air conditioner operation adjusting device may include:

a memory 501 in which executable program codes are stored;

a processor 502 coupled to the memory 501;

the processor 502 invokes executable program codes stored in the memory 501 to execute steps in the air conditioner operation adjusting method described in the first or second embodiment of the present invention.

Example five

The embodiment of the invention discloses a computer storage medium which stores computer instructions for executing the steps in the air conditioner operation adjusting method described in the first embodiment or the second embodiment of the invention when the computer instructions are called.

Example six

Embodiments of the present invention disclose a computer program product comprising a non-transitory computer-readable storage medium storing a computer program, the computer program being operable to cause a computer to perform the steps of the method for regulating the operation of an air conditioner described in the first embodiment or the second embodiment of the present invention.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the invention discloses a method and a device for adjusting the operation of an air conditioner, which are disclosed by the embodiment of the invention only for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. A method for regulating operation of an air conditioner, the method comprising:

2. The method for adjusting operation of an air conditioner according to claim 1, further comprising:

3. The method for adjusting operation of an air conditioner according to claim 1, further comprising:

4. The method according to claim 1, wherein when the area information corresponding to the target area includes area layout information of the target area, installation position information of the air conditioner within the target area, and before the environmental adjustment parameter for the extreme operation mode of the air conditioner within the target area is generated according to the acquired area information, the method includes:

5. The method according to any one of claims 1 to 4, wherein generating environmental adjustment parameters for a very common operation mode of an air conditioner in the target area based on the collected area information includes:

6. The method for adjusting operation of an air conditioner according to claim 5, wherein before said controlling the air conditioner in the target area according to the environment adjustment parameter, the method comprises:

And/or determining a user using the air conditioner in the target area, determining the use authority information of the user using the air conditioner in the target area, determining whether the user which does not meet the use authority of the extreme operation mode does not exist in the target area according to the use authority information, and triggering the step of controlling the air conditioner in the target area according to the environment regulation parameter when the user which does not meet the use authority of the extreme operation mode does not exist in the target area.

7. The method for adjusting operation of an air conditioner according to claim 6, wherein before said controlling the air conditioner in the target area according to the environment adjustment parameter, the method comprises:

the pushing the environment adjustment parameter to the target user includes:

8. The method for adjusting operation of an air conditioner according to claim 5, wherein controlling the air conditioner in the target area according to the environmental adjustment parameter comprises:

9. An apparatus for regulating the operation of an air conditioner, said apparatus comprising:

10. An apparatus for regulating the operation of an air conditioner, said apparatus comprising:

a memory storing executable program code;

a processor coupled to the memory;

The processor invokes the executable program code stored in the memory to perform the method of regulating operation of an air conditioner as claimed in any one of claims 1 to 8.