CN110726210A - Air conditioner control method and device, air conditioner and air conditioning system - Google Patents

Abstract

The application relates to an air conditioner control method, an air conditioner control device, an air conditioner and an air conditioning system, wherein the method comprises the following steps: receiving identity identification information sent by a mobile terminal, and acquiring current weather parameters; reading a corresponding user database according to the identity identification information; the user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship; acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database; and controlling the air conditioner according to the acquired air conditioner operation parameters. After the user is identified by receiving the identification information sent by the mobile terminal, the air conditioner parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, so that the air conditioner can operate according to the most suitable scheme, the most comfortable environment is provided for the user, the using steps of the user are simplified, and the user can use the air conditioner conveniently.

Description

Air conditioner control method and device, air conditioner and air conditioning system

Technical Field

The application relates to the technical field of intelligent electrical appliance control, in particular to an air conditioner control method and device, an air conditioner and an air conditioning system.

Background

Along with the development of smart homes, the intellectualization and comfort of household appliances are more and more emphasized by people, and the air conditioner plays a key role as an important ring player.

The traditional air conditioner control mode is that a user sets parameters such as temperature and wind speed of an air conditioner through a remote controller, complex and tedious operations need to be carried out, and the air conditioner is inconvenient for the user to use.

Disclosure of Invention

Therefore, it is necessary to provide a method and a device for controlling an air conditioner, an air conditioner and an air conditioning system, which are convenient for a user to use, for solving the problem that the conventional air conditioner control method is inconvenient for the user to use.

An air conditioner control method includes:

receiving identity identification information sent by a mobile terminal, and acquiring current weather parameters;

reading a corresponding user database according to the identity identification information; the user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship;

acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database;

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

In one embodiment, the identification information includes at least one of user fingerprint information, user login information, and user gesture information.

In one embodiment, the weather parameter includes at least one of season, air quality, weather conditions, ambient temperature, and ambient humidity.

In one embodiment, the reading the corresponding user database according to the identification information includes:

calculating the similarity between the identity identification information and pre-stored identity verification data;

and extracting a user database bound by the identity authentication data with the similarity larger than a preset threshold value as a user database corresponding to the identity identification information.

In an embodiment, the obtaining, from the user database, the weather data matched with the weather parameter and the air conditioner operation parameter corresponding to the weather data includes:

calculating the difference value between the weather data stored in the user database and the weather parameter;

and extracting the weather data with the difference value smaller than the set threshold value and the corresponding air conditioner operation parameters.

In one embodiment, after the air conditioning control is performed according to the acquired air conditioning operation parameters, the method further includes:

after receiving the air conditioner adjusting parameters sent by the user, carrying out air conditioner control according to the air conditioner adjusting parameters;

and updating and storing the corresponding air conditioner operation parameters in the user database according to the received air conditioner adjusting parameters.

In an embodiment, after reading the corresponding user database according to the identification information, before acquiring the weather data matched with the weather parameter and the air conditioner operation parameter corresponding to the weather data from the user database, the method further includes:

detecting whether weather data matched with the weather parameters exist in a user database;

and if so, acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from the user database.

In one embodiment, if there is no weather data matching the weather parameter in the user database, the method further includes:

after receiving the air conditioner operation parameters sent by the user, carrying out air conditioner control according to the received air conditioner operation parameters;

and binding the received air conditioner operation parameters and the weather parameters and storing the bound air conditioner operation parameters and the weather parameters in a user database corresponding to the identity identification information.

An air conditioning control device comprising:

the data acquisition module is used for receiving the identity identification information sent by the mobile terminal and acquiring the current weather parameters;

the information reading module is used for reading the corresponding user database according to the identity identification information; the user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship

The parameter extraction module is used for acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database;

and the air conditioner control module is used for controlling the air conditioner according to the acquired air conditioner operation parameters.

An air conditioner comprises a controller and a communication device, wherein the controller is connected with the communication device, the communication device is used for communicating with a mobile terminal, and the controller is used for controlling the air conditioner according to the method.

An air conditioning system comprises a mobile terminal and the air conditioner.

In one embodiment, the mobile terminal comprises a processor, an identification button, and a communication unit, the processor being connected to the identification button and the communication unit, the communication unit being configured to wirelessly communicate with the communication device.

The air conditioner control method, the air conditioner control device, the air conditioner and the air conditioner system receive the identity information sent by the mobile terminal and acquire the current weather parameters; and reading a corresponding user database according to the identity identification information, acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from the user database, and finally performing air conditioner control according to the acquired air conditioner operation parameters. After the user is identified by receiving the identification information sent by the mobile terminal, the air conditioner parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, so that the air conditioner can operate according to the most suitable scheme, the most comfortable environment is provided for the user, the using steps of the user are simplified, and the user can use the air conditioner conveniently.

Drawings

FIG. 1 is a flow chart of an embodiment of a method for controlling an air conditioner;

FIG. 2 is a flow diagram illustrating an embodiment of reading a corresponding subscriber database based on identity information;

FIG. 3 is a flowchart illustrating a process of obtaining weather data matching weather parameters and air conditioner operating parameters corresponding to the weather data from a user database in one embodiment;

FIG. 4 is a flowchart of an air conditioner control method according to another embodiment;

FIG. 5 is a block diagram of an embodiment of an air conditioning control apparatus;

FIG. 6 is a block diagram showing the construction of an air conditioning control apparatus according to another embodiment;

FIG. 7 is a diagram illustrating an embodiment of a remote controller;

fig. 8 is a control schematic diagram of an air conditioning system in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, there is provided an air conditioner control method, as shown in fig. 1, including:

step S110: and receiving the identity identification information sent by the mobile terminal, and acquiring the current weather parameters.

Specifically, the controller of the air conditioner can receive the identification information sent by the mobile terminal and acquire the current weather parameters. The mobile terminal can be a remote controller, a mobile phone or wearable equipment and the like. The controller can communicate with the mobile terminal through the communication device and receive the identity identification information sent by the mobile terminal. The controller can also communicate with the weather station server through the communication device to acquire the current weather parameters of the area where the user is located. In addition, if the mobile terminal is a mobile phone, the controller may also directly receive the weather parameter of the area where the user is located, which is sent by the mobile phone.

The specific type of identification information, as well as the specific content of the weather parameter, is not unique. The identification information may be fingerprint information, account information, etc., and the weather parameters may include season, air quality, ambient temperature, ambient humidity, etc. In one embodiment, the identification information includes at least one of user fingerprint information, user login information, and user gesture information. After the air conditioner is started by the user through the mobile terminal, the fingerprint of the user can be scanned through the mobile terminal, and the fingerprint obtained through scanning is sent to the controller of the air conditioner as identity identification information through the mobile terminal. The user can also log in air conditioner control software on the mobile terminal by inputting an account password so that the mobile terminal can conveniently recognize the identity information of the user and send the identity information to the controller of the air conditioner. In addition, the user can input a specific gesture through an interactive interface of the mobile terminal to be sent to the controller of the air conditioner as the identification information.

In this embodiment, the identification information is user fingerprint information. Specifically, a start button with a fingerprint identification function can be arranged on the mobile terminal, and when the user presses the start button, the fingerprint data of the user obtained by scanning is sent to the controller of the air conditioner so as to be identified by the controller. The fingerprint data is used for identity recognition, and the operation is simple, convenient and reliable.

Step S120: and reading the corresponding user database according to the identity identification information.

The user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship. Specifically, the controller may store user databases of different users in a local memory or a cloud server in advance. Taking the cloud server as an example, after the user presses the start button of the mobile terminal for the first time, the controller establishes a user database of the user at the cloud server, collects the use conditions of the user on the air conditioner in different weather environments, and records the use conditions into the user database of the cloud server. In the actual use process, after the controller receives the identity identification information sent by the mobile terminal, the controller can directly find the corresponding user database in the cloud server.

Step S140: and acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database.

After finding the user database corresponding to the identity identification information in the cloud server, the controller searches weather data matched with the weather parameters of the current environment where the user is located and air conditioner operation parameters corresponding to the weather data from the user database. The weather parameter may specifically be a parameter related to human body feeling, and in one embodiment, the weather parameter may include at least one of season, air quality, weather condition, ambient temperature, and ambient humidity.

Taking the weather parameters including the season, the air quality, the weather condition, the ambient temperature and the ambient humidity as an example, the controller searches the weather data matched with the season, the air quality, the weather condition, the ambient temperature and the ambient humidity of the current environment from the user database of the cloud server, and then finds the air conditioner operation parameters of the user under the same environmental conditions in the past. For example, comparing the current weather with the stored weather data, the air-conditioning data in the environment where the weather conditions in summer are cloudy/sunny and the differences in air quality, temperature, humidity, and the like are small is found out and used as the air-conditioning operation parameters set by the user in the current weather environment. In the embodiment, the air conditioner operation parameters of the user in the same environment are searched by combining the season, the air quality, the weather condition, the ambient temperature and the ambient humidity, so that the searching is more accurate.

Step S150: and controlling the air conditioner according to the acquired air conditioner operation parameters.

After the controller finds the air conditioner operation parameters of the user in the same environment in the past, the controller can directly control the operation of the air conditioner according to the air conditioner operation parameters. The specific type of the air conditioner operation parameter is not unique, and the control mode of the air conditioner is correspondingly different according to different types of the air conditioner operation parameter. Specifically, the air conditioner operation parameters may include an air conditioner mode, an outlet air temperature, a wind sweeping gear, and the like. Correspondingly, the controller controls the operation of the air conditioner according to the relevant parameters, such as adjusting the heating/cooling mode of the air conditioner, setting the temperature and the wind sweeping gear, and the like.

According to the air conditioner control method, after the user is identified by receiving the identification information sent by the mobile terminal, the air conditioner parameters are set for the user according to the habit of using the air conditioner by the user in the current environment, the air conditioner can be operated according to the most suitable scheme, the most comfortable environment is provided for the user, the using steps of the user are simplified, and the user can use the air conditioner conveniently.

In one embodiment, as shown in FIG. 2, step S120 includes step S122 and step S124.

Step S122: and calculating the similarity between the identity identification information and the pre-stored identity verification data.

Similarly, taking the identification information as the user fingerprint information as an example, correspondingly, the authentication data is fingerprint data which is correspondingly stored in advance when the user database is established. After acquiring the user fingerprint information sent by the mobile terminal, the controller calculates the similarity between the user fingerprint information and the fingerprint data correspondingly bound with each user database.

Step S124: and extracting the user database bound by the identity authentication data with the similarity larger than the preset threshold value as the user database corresponding to the identity identification information.

The specific value of the preset threshold is not unique, the controller determines the authentication data matched with the identity identification information according to the comparison result of the similarity and the preset threshold, and further extracts the user database correspondingly bound with the authentication data, so that the operation is simple and convenient, and the reliability is high.

Further, after step S122, if there is no authentication data whose similarity to the identification information is greater than the preset threshold, the method may further include a step of outputting a prompt message. Specifically, if the similarity between the pre-stored authentication data and the identification information is not greater than the preset threshold, it indicates that the user has not entered personal information to establish the user database. The controller can output prompt information through the prompt device to remind a user to actively set the air conditioner operation parameters. According to different specific structures of the prompting devices, the modes of outputting the prompting information are correspondingly different, and the prompting devices can specifically comprise a display and/or an audible and visual alarm device which are connected with a controller. When the controller does not have the authentication data with the similarity degree of the identity identification information being larger than the preset threshold value, the controller controls the display and/or the sound-light alarm device to work, so that a user is reminded of carrying out air conditioner operation parameter setting operation in time.

In one embodiment, as shown in FIG. 3, step S140 includes step S142 and step S144.

Step S142: and calculating the difference value between the weather data stored in the user database and the weather parameter.

Specifically, also taking the example that the weather parameters include season, air quality, weather condition, ambient temperature and ambient humidity, the weather data stored in the user database also includes season, air quality, weather condition, ambient temperature and ambient humidity. The controller respectively compares the weather data with each parameter in the weather parameters and records the difference value. For example, the same season is 0, different seasons are 1, the same weather condition (as if it is a sunny day) is 0, different weather conditions are 1, the same air quality is 0, and different air quality is 1. For the difference value between the weather data and the ambient temperature and the ambient humidity in the weather parameters, the numerical difference can be directly calculated.

Step S144: and extracting the weather data with the difference value smaller than the set threshold value and the corresponding air conditioner operation parameters.

It is understood that the set threshold values corresponding to different parameters may be different. And after the controller respectively calculates the difference values of the weather data and all parameters in the weather parameters, the weather data of which the difference values of all parameters are smaller than the corresponding set threshold value are taken as the same previous environment of the user, and the air conditioner operation parameters corresponding to the weather data are obtained. For example, the controller finds weather data which is the same as the current season, weather and air quality level of the user and has a difference value between the ambient temperature and the ambient humidity smaller than a set value from the user database, and then extracts the air conditioner operation parameters bound with the found weather data.

In one embodiment, as shown in fig. 4, after step S150, the method further includes step S160 and step S170.

Step S160: and after receiving the air conditioner adjusting parameters sent by the user, carrying out air conditioner control according to the air conditioner adjusting parameters.

Specifically, when the controller controls the air conditioner to work according to the operation parameters of the user in the same historical environment, the user can also send air conditioner adjusting parameters to the controller through the mobile terminal, and the air conditioner is adjusted according to the actual condition of the user. And after receiving the air conditioner adjusting parameters, the controller controls the operation mode, the air outlet temperature, the wind sweeping gear and the like of the air conditioner by taking the air conditioner adjusting parameters as the reference.

Step S170: and updating and storing the corresponding air conditioner operation parameters in the user database according to the received air conditioner adjusting parameters.

Specifically, after receiving the air conditioner adjusting parameters, the controller uploads the air conditioner adjusting parameters to the cloud server, updates the air conditioner operating parameters in the environment in the user database, perfects user information, improves the accuracy of automatic control of the air conditioner, and further improves the convenience of use of users.

In one embodiment, with continued reference to fig. 4, after step S120, and before step S140, the method may further include step S130.

Step S130: and detecting whether weather data matched with the weather parameters exist in the user database. If yes, go to step S140. Specifically, after the current weather parameter is acquired, the controller detects whether weather data matched with the current weather parameter exists in a user database stored in the cloud server, and if so, continues subsequent automatic air conditioner control operation.

In addition, if the weather data matched with the weather parameters does not exist in the user database, the fact that the historical environment data identical to the current environment is not stored in the user database is indicated. The method may further include the step of outputting an air conditioner setting prompt message. Specifically, the controller may control the display to display a preset prompt message to prompt the user to set the operation parameters of the air conditioner.

Further, in an embodiment, as shown in fig. 4, if there is no weather data matching the weather parameter in the user database, the method further includes step S180 and step S190.

Step S180: and after receiving the air conditioner operation parameters sent by the user, performing air conditioner control according to the received air conditioner operation parameters.

Specifically, when the weather data matched with the weather parameters does not exist in the user database, the air conditioner cannot extract the air conditioner operation parameters in the same history environment to automatically control the air conditioner. At this time, the user can also send the air conditioner operation parameters through the mobile terminal, and the controller controls the operation mode, the air outlet temperature, the air sweeping gear and the like of the air conditioner after receiving the air conditioner operation parameters sent by the user.

Step S190: and binding the received air conditioner operation parameters and the weather parameters and storing the bound air conditioner operation parameters and the weather parameters in a user database corresponding to the identity identification information.

Specifically, after receiving the air conditioner operation parameters sent by the user, the controller uploads the air conditioner operation parameters of the operation to the cloud server to update the user database, and user information is perfected so that the air conditioner can be automatically controlled in the same weather environment next time.

In one embodiment, an air conditioner control device is further provided, as shown in fig. 5, including a data acquisition module 110, an information reading module 120, a parameter extraction module 140, and an air conditioner control module 150.

The data obtaining module 110 is configured to receive the identification information sent by the mobile terminal, and obtain a current weather parameter.

The information reading module 120 is configured to read a corresponding user database according to the identification information. The user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship.

The parameter extraction module 140 is configured to obtain weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database.

The air conditioner control module 150 is configured to perform air conditioner control according to the acquired air conditioner operation parameter.

In one embodiment, the identification information includes at least one of user fingerprint information, user login information, and user gesture information.

In one embodiment, the weather parameter includes at least one of season, air quality, weather conditions, ambient temperature, and ambient humidity.

In one embodiment, the information reading module 120 calculates similarity between the identification information and pre-stored authentication data, and extracts a user database bound with the authentication data with the similarity greater than a preset threshold as a user database corresponding to the identification information.

Further, if there is no authentication data whose similarity to the identification information is greater than the preset threshold, the information reading module 120 further outputs a prompt message.

In one embodiment, the parameter extraction module 140 calculates a difference between the weather data stored in the user database and the weather parameter, and extracts the weather data with the difference smaller than a set threshold and the corresponding air conditioner operation parameter.

In an embodiment, the air conditioner control module 150 is further configured to, after performing air conditioner control according to the acquired air conditioner operating parameter, perform air conditioner control according to the air conditioner adjusting parameter after receiving an air conditioner adjusting parameter sent by a user, and update and store a corresponding air conditioner operating parameter in the user database according to the received air conditioner adjusting parameter.

In one embodiment, as shown in FIG. 6, the apparatus may further include a data detection module 130. The data detection module 130 is configured to detect whether weather data matching the weather parameters exists in the user database before the parameter extraction module 140 obtains the weather data matching the weather parameters and the air conditioner operation parameters corresponding to the weather data from the user database after the information reading module 120 reads the corresponding user database according to the identification information. If yes, the control parameter extraction module 140 obtains the weather data matched with the weather parameters and the air conditioner operation parameters corresponding to the weather data from the user database.

In addition, if the weather data matched with the weather parameters does not exist in the user database, the fact that the historical environment data identical to the current environment is not stored in the user database is indicated. The data detection module 130 is further configured to output an air conditioner setting prompt message.

Further, in an embodiment, if there is no weather data matching the weather parameter in the user database, the data detection module 130 is further configured to, after receiving the air conditioner operation parameter sent by the user, perform air conditioner control according to the received air conditioner operation parameter, and bind the received air conditioner operation parameter and the weather parameter and store the bound air conditioner operation parameter and the weather parameter in the user database corresponding to the identity information.

For specific limitations of the air conditioning control device, reference may be made to the above limitations of the air conditioning control method, which are not described herein again. All or part of the modules of the air conditioner control device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

According to the air conditioner control device, after the user is identified by receiving the identification information sent by the mobile terminal, the air conditioner parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, the air conditioner can be operated according to the most suitable scheme, the most comfortable environment is provided for the user, the use steps of the user are simplified, and the user can use the air conditioner conveniently.

In one embodiment, the air conditioner comprises a controller and a communication device, wherein the controller is connected with the communication device, the communication device is used for communicating with the mobile terminal, and the controller is used for controlling the air conditioner according to the method. Specifically, the controller and the communication device may be disposed in the air conditioner body, and after receiving the identification information sent by the mobile terminal and acquiring the current weather parameter, the controller controls the operation of the air conditioner body according to the extracted air conditioner operation parameter in the same history environment.

According to the air conditioner control, after the user is identified by receiving the identification information sent by the mobile terminal, the air conditioner parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, the air conditioner can be operated according to the most suitable scheme, the most comfortable environment is provided for the user, the using steps of the user are simplified, and the user can use the air conditioner conveniently.

In one embodiment, an air conditioning system is further provided and comprises the mobile terminal and the air conditioner. The mobile terminal may be a remote controller, a mobile phone, or a wearable device.

In one embodiment, a mobile terminal includes a processor coupled to an identification button and a communication unit for wirelessly communicating with a communication device. Specifically, the communication unit and the communication device may communicate with each other in a WIFI, infrared or bluetooth manner.

According to the air conditioning system, after the user is identified by receiving the identification information sent by the mobile terminal, the air conditioning parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, the air conditioner can be operated according to the most suitable scheme, the most comfortable environment is provided for the user, the using steps of the user are simplified, and the user can use the air conditioning system conveniently.

In order to better understand the air conditioner control method, device, air conditioner and air conditioning system, the following detailed explanation will be given by taking a remote controller as an example of a mobile terminal.

According to the air conditioner control method and device, the air conditioner and the air conditioner system, the air conditioner can provide the optimal air conditioner operation scheme according to the real-time environment and the user, and provides the personalized operation scheme for the user and the environment, so that one-key starting is realized. The user only needs to press the button just can let the air conditioner operate according to the most suitable scheme, can provide the most comfortable wind for the user, simplifies user's use step, realizes air conditioner intelligence operation, promotes user experience.

Specifically, as shown in fig. 7, a one-key start button with a fingerprint identification function is provided on the remote controller, and when a user presses a fingerprint key of the remote controller, the air conditioning system can identify the user through a fingerprint. After the air conditioner identifies the user through the fingerprint remote controller, the air conditioner parameters are set for the user according to the habit that the user uses the air conditioner in the current environment, and one-key starting is achieved. After the user uses the remote controller to start by one key, the air conditioning system establishes a database for the user, records the use records of the user every time, and perfects the database through the use records, so that the one-key starting function can better meet the user requirements after the user uses one key to start every time, and meanwhile, the database uploads the cloud end, so that the user can use the optimal one-key starting function anytime and anywhere. As shown in fig. 8, the implementation scheme of the intelligent operation of the air conditioner is as follows:

(1) a key starting key is arranged on the remote controller, and the key has a fingerprint identification function and can identify a user.

(2) Before using the function, the user records personal fingerprint information through a fingerprint key of the fingerprint remote controller, and the air conditioning system creates the personal information in a database for the user.

(3) When the user uses one key to start the function, the user presses the one key to start the key.

(4) The air conditioning system enters a one-key starting mode through a one-key starting key, user information is read through fingerprint information, the air conditioning system calls current weather and other environment information and user information, the use habits of the current user under the current weather and other environment information are called to set air conditioning operation parameters, and the air conditioner operates according to the parameters.

(5) If the use habit parameters of the user under the current environmental information such as weather are not stored, the air conditioner is operated according to the parameters actually set by the user after being successfully started, and the operation parameters are uploaded to the database, so that the user information is perfected.

(6) After the air conditioner is started and successfully operates according to the use habit parameters of the user under the environment information such as the current weather, if the user corrects the parameters of the air conditioner within a period of time, the air conditioner operates according to the parameters adjusted by the user, and the corrected operation parameters are uploaded to a database, so that the user information is perfected, and one-key starting is completed.

(7) The use habit data of each user can be uploaded to the cloud server when the air conditioner is networked, and the user can call the data of the cloud server when using the air conditioner with the function at any place, so that the most comfortable experience is obtained.

Through combining intellectuality and air conditioner, it is simpler to let the user operate the air conditioner, lets the user obtain more comfortable user experience, promotes user satisfaction. The process can be completed in a few seconds by combining the fingerprint to carry out one-key starting, so that the user can obtain the best experience.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. An air conditioner control method, comprising:

receiving identity identification information sent by a mobile terminal, and acquiring current weather parameters;

reading a corresponding user database according to the identity identification information; the user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship;

acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database;

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

2. The method of claim 1, wherein the identification information comprises at least one of user fingerprint information, user login information, and user gesture information.

3. The method of claim 1, wherein the weather parameter comprises at least one of season, air quality, weather conditions, ambient temperature, and ambient humidity.

4. The method of claim 1, wherein reading the corresponding subscriber database according to the id information comprises:

calculating the similarity between the identity identification information and pre-stored identity verification data;

and extracting a user database bound by the identity authentication data with the similarity larger than a preset threshold value as a user database corresponding to the identity identification information.

5. The method of claim 1, wherein the obtaining the weather data matched with the weather parameters and the air conditioner operation parameters corresponding to the weather data from the user database comprises:

calculating the difference value between the weather data stored in the user database and the weather parameter;

and extracting the weather data with the difference value smaller than the set threshold value and the corresponding air conditioner operation parameters.

6. The method according to claim 1, further comprising, after the air conditioning control according to the acquired air conditioning operation parameters:

after receiving the air conditioner adjusting parameters sent by the user, carrying out air conditioner control according to the air conditioner adjusting parameters;

and updating and storing the corresponding air conditioner operation parameters in the user database according to the received air conditioner adjusting parameters.

7. The method according to claim 1, wherein after reading the corresponding user database according to the identification information and before acquiring the weather data matched with the weather parameters and the air conditioner operation parameters corresponding to the weather data from the user database, the method further comprises:

detecting whether weather data matched with the weather parameters exist in a user database;

and if so, acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from the user database.

8. The method of claim 7, wherein if there is no weather data in the user database that matches the weather parameter, further comprising:

after receiving the air conditioner operation parameters sent by the user, carrying out air conditioner control according to the received air conditioner operation parameters;

and binding the received air conditioner operation parameters and the weather parameters and storing the bound air conditioner operation parameters and the weather parameters in a user database corresponding to the identity identification information.

9. An air conditioning control device, characterized by comprising:

the data acquisition module is used for receiving the identity identification information sent by the mobile terminal and acquiring the current weather parameters;

the information reading module is used for reading the corresponding user database according to the identity identification information; the user database stores weather data and air conditioner operation parameters, and the weather data and the air conditioner operation parameters have a preset binding relationship

The parameter extraction module is used for acquiring weather data matched with the weather parameters and air conditioner operation parameters corresponding to the weather data from a user database;

and the air conditioner control module is used for controlling the air conditioner according to the acquired air conditioner operation parameters.

10. An air conditioner, comprising a controller and a communication device, wherein the controller is connected with the communication device, the communication device is used for communicating with a mobile terminal, and the controller is used for controlling the air conditioner according to the method of any one of claims 1 to 8.

11. An air conditioning system characterized by comprising a mobile terminal and the air conditioner of claim 10.

12. The air conditioning system of claim 11, wherein the mobile terminal comprises a processor, an identification button, and a communication unit, wherein the processor is connected to the identification button and the communication unit, and wherein the communication unit is configured to wirelessly communicate with the communication device.

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