CN118274429A - Intelligent control implementation method and device for air outlet equipment - Google Patents

Abstract

The invention discloses an intelligent control implementation method and device of air outlet equipment, wherein the method comprises the following steps: acquiring scene information of a target scene corresponding to a target air conditioner to be controlled; according to the scene information, determining regulation and control requirement information corresponding to a target air conditioner in a target scene, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information; generating control parameters of the target air conditioner according to the regulation and control demand information; the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters. Therefore, the method and the device can determine the regulation and control requirement information based on the real-time scene information so as to generate the control parameters of the target air conditioner, can improve the intelligence of air conditioner control, are beneficial to improving the accuracy and reliability of intelligent control of the air conditioner, and are further beneficial to improving the experience and comfort of a user using the air conditioner.

Description

Intelligent control implementation method and device for air outlet equipment

Technical Field

The invention relates to the technical field of intelligent control, in particular to an intelligent control implementation method and device for air outlet equipment.

Background

The air conditioner is taken as an indispensable electrical appliance, can bring coolness to people in hot summer, can output heating for people in cold winter, and greatly improves the comfort level of people in daily life. At present, most of air conditioner regulation and control modes are manually regulated and controlled through a remote controller, so that the air conditioner outputs wind with certain temperature and wind speed according to received instructions, and then the environmental temperature is regulated and controlled. However, the air conditioner control mode is single, manual control is needed by a user, and the air conditioner operation mode selected by people when controlling the air conditioner is not necessarily matched with the current environment or the state of the current user, and even the health of the user can be influenced, for example, the user can catch a cold and get ill. Therefore, it is important to provide a new control method of the air conditioner to improve the intelligence of adjusting and controlling the air conditioner and further improve the comfort level of the user using the air conditioner.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent control implementation method and device for air outlet equipment, which can determine regulation and control requirement information based on real-time scene information so as to generate control parameters of a target air conditioner, can improve the intelligence of air conditioner control, is beneficial to improving the accuracy and reliability of intelligent control of the air conditioner, and is further beneficial to improving the experience and comfort of a user using the air conditioner.

In order to solve the technical problems, a first aspect of the present invention discloses a method for implementing intelligent control of an air outlet device, where the method includes:

acquiring scene information of a target scene corresponding to a target air conditioner to be controlled;

according to the scene information, determining regulation and control requirement information corresponding to the target air conditioner in the target scene, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information;

generating control parameters of the target air conditioner according to the regulation and control demand information;

the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters.

As an optional implementation manner, in the first aspect of the present invention, the scene information includes user information of the target scene, and the method further includes:

determining target user information of each user in the target scene according to the user information, wherein the target user information comprises one or more of user types and user distribution conditions in the target scene;

determining user demand information of the target scene according to the target user information;

The determining, according to the scene information, regulation and control requirement information corresponding to the target air conditioner in the target scene includes:

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information.

As an optional implementation manner, in the first aspect of the present invention, the scene information further includes time information of the target scene;

the determining the regulation and control requirement information corresponding to the target air conditioner according to the user requirement information and the scene information comprises the following steps:

determining a temperature control mode corresponding to the target air conditioner according to the user demand information and the time information of the target scene, wherein the temperature control mode comprises a refrigeration mode or a heating mode;

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode.

In an optional implementation manner, in a first aspect of the present invention, the generating, according to the regulation requirement information, a control parameter of the target air conditioner includes:

Determining an air outlet mode of the target air conditioner according to the regulation and control demand information, wherein the air outlet mode comprises one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angle air outlet mode and a shutdown mode;

and generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner.

As an optional implementation manner, in the first aspect of the present invention, at least two air deflectors are provided on the target air conditioner;

The generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner includes:

according to the air outlet mode of the target air conditioner, determining at least one target air deflector to be regulated and controlled from all the air deflectors, and determining air deflector control parameters of each target air deflector;

and generating control parameters of the target air conditioner based on the air deflector control parameters of all the target air deflectors.

In an optional implementation manner, after the generating the control parameter of the target air conditioner according to the regulation requirement information in the first aspect of the present invention, the method further includes:

After a preset time period, acquiring real-time scene information of the target scene, wherein the real-time scene information comprises real-time temperature information of the target scene;

judging whether the target air conditioner meets a preset mode switching condition according to the real-time scene information;

When the target air conditioner is judged to meet the preset mode switching condition, determining a target air outlet mode of the target air conditioner in a next preset long period based on the current air outlet mode of the target air conditioner and the real-time scene information, and regulating and controlling the target air conditioner based on the target air outlet mode.

In an optional implementation manner, in a first aspect of the present invention, the determining, based on the current air-out mode of the target air conditioner and the real-time scene information, the target air-out mode of the target air conditioner in a next preset time period includes:

Analyzing the real-time scene information to obtain real-time user distribution information of the target scene, and determining real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner;

determining a target air outlet mode of the target air conditioner in the next preset time period based on the real-time user distribution information and the real-time operation information of the target air conditioner;

The real-time operation information of the target air conditioner comprises one or more of the air outlet temperature of the target air conditioner, the operation time of the target air conditioner, the blowing position of the target air conditioner and the air outlet speed of the target air conditioner.

The second aspect of the invention discloses an intelligent control implementation device of air outlet equipment, which comprises:

The acquisition module is used for acquiring scene information of a target scene corresponding to a target air conditioner to be controlled;

The determining module is used for determining regulation and control requirement information corresponding to the target air conditioner in the target scene according to the scene information, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information;

The generation module is used for generating control parameters of the target air conditioner according to the regulation and control demand information;

the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters.

As an optional implementation manner, in the second aspect of the present invention, the scenario information includes user information of the target scenario, and the determining module is further configured to determine target user information of each user in the target scenario, where the target user information includes one or more of a user category and a user distribution situation in the target scenario;

the determining module is further configured to determine user requirement information of the target scene according to the target user information;

The specific mode of determining the regulation and control requirement information corresponding to the target air conditioner in the target scene by the determining module according to the scene information comprises the following steps:

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information.

As an optional implementation manner, in the second aspect of the present invention, the scene information further includes time information of the target scene;

The determining module determines the specific mode of the regulation and control requirement information corresponding to the target air conditioner according to the user requirement information and the scene information, wherein the specific mode comprises the following steps:

determining a temperature control mode corresponding to the target air conditioner according to the user demand information and the time information of the target scene, wherein the temperature control mode comprises a refrigeration mode or a heating mode;

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode.

In a second aspect of the present invention, as an optional implementation manner, the specific manner of generating, by the generating module, the control parameter of the target air conditioner according to the regulation requirement information includes:

Determining an air outlet mode of the target air conditioner according to the regulation and control demand information, wherein the air outlet mode comprises one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angle air outlet mode and a shutdown mode;

and generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner.

As an optional implementation manner, in the second aspect of the present invention, at least two air deflectors are provided on the target air conditioner;

the specific mode of generating the control parameters of the target air conditioner by the generating module according to the air outlet mode of the target air conditioner comprises the following steps:

according to the air outlet mode of the target air conditioner, determining at least one target air deflector to be regulated and controlled from all the air deflectors, and determining air deflector control parameters of each target air deflector;

and generating control parameters of the target air conditioner based on the air deflector control parameters of all the target air deflectors.

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

The acquisition module is used for acquiring real-time scene information of the target scene after a preset time period after the generation module generates control parameters of the target air conditioner according to the regulation and control demand information, wherein the real-time scene information comprises real-time temperature information of the target scene;

the judging module is used for judging whether the target air conditioner meets a preset mode switching condition according to the real-time scene information;

the determining module is further configured to determine, when the judging module judges that the target air conditioner meets a preset mode switching condition, a target air outlet mode of the target air conditioner in a next preset long period based on a current air outlet mode of the target air conditioner and the real-time scene information;

And the regulation and control module is used for regulating and controlling the target air conditioner based on the target air outlet mode.

In a second aspect of the present invention, the determining module determines, based on the current air-out mode of the target air conditioner and the real-time scene information, a specific manner of determining the target air-out mode of the target air conditioner in a next preset time period includes:

Analyzing the real-time scene information to obtain real-time user distribution information of the target scene, and determining real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner;

determining a target air outlet mode of the target air conditioner in the next preset time period based on the real-time user distribution information and the real-time operation information of the target air conditioner;

The real-time operation information of the target air conditioner comprises one or more of the air outlet temperature of the target air conditioner, the operation time of the target air conditioner, the blowing position of the target air conditioner and the air outlet speed of the target air conditioner.

The third aspect of the present invention discloses another intelligent control implementation device for an air outlet device, where the device includes:

A memory storing executable program code;

A processor coupled to the memory;

And the processor calls the executable program codes stored in the memory to execute the intelligent control implementation method of the air outlet equipment disclosed in the first aspect of the invention.

The fourth aspect of the present invention discloses a computer storage medium, where the computer storage medium stores computer instructions, where the computer instructions are used to execute the intelligent control implementation method of the air outlet device 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, scene information of a target scene corresponding to a target air conditioner to be controlled is acquired; according to the scene information, determining regulation and control requirement information corresponding to a target air conditioner in a target scene, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information; generating control parameters of the target air conditioner according to the regulation and control demand information; the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters. Therefore, the method and the device can determine the regulation and control requirement information based on the real-time scene information so as to generate the control parameters of the target air conditioner, can improve the intelligence of air conditioner control, are beneficial to improving the accuracy and reliability of intelligent control of the air conditioner, and are further beneficial to improving the experience and comfort of a user using the air conditioner.

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 view of a scenario for implementing intelligent control of an air outlet device according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of an implementation method for intelligent control of an air outlet device according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart of another implementation method for intelligent control of an air outlet device according to an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of an intelligent control implementation device of an air outlet device according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an intelligent control implementation device of another air outlet device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an intelligent control implementation device of an air outlet device according to another 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 an intelligent control realization method and device for air outlet equipment, which can determine regulation and control requirement information based on real-time scene information so as to generate control parameters of a target air conditioner, can improve the intelligence of air conditioner control, is beneficial to improving the accuracy and reliability of intelligent control of the air conditioner, and is further beneficial to improving the experience and comfort of a user using the air conditioner. The following will describe in detail.

In order to better understand the intelligent control implementation method and device for the air-out equipment disclosed by the invention, firstly, a description is given of a scene of intelligent control implementation of the air-out equipment, specifically, the intelligent control implementation scene of the air-out equipment can be shown as fig. 1, and fig. 1 is a schematic diagram of the intelligent control implementation scene of the air-out equipment disclosed by the embodiment of the invention. As shown in fig. 1, the intelligent control implementation scene of the air outlet device may include an air conditioning device, a Ming and a bed, where the Ming is a user, the air conditioning device is a target air conditioner to be controlled, and the scene where the bed is located is a target scene. Optionally, the intelligent control implementation scene of the air outlet device may be a home scene, or may be a market scene, a company scene, or other various scenes, which is not limited by the embodiment of the present invention. It should be noted that, the intelligent control implementation method of the air outlet device in the intelligent control implementation scene of the air outlet device is to obtain scene information of a target scene corresponding to a target air conditioner to be controlled, determine regulatory requirement information corresponding to the target air conditioner in the target scene according to the scene information, and generate control parameters of the target air conditioner according to the regulatory requirement information, where the control parameters are used to control the target air conditioner to execute an operation matched with the control parameters. Therefore, the control parameters of the target air conditioner can be generated by determining the regulation and control demand information based on the real-time scene information, the intelligence of air conditioner control can be improved, the accuracy and the reliability of intelligent control of the air conditioner can be improved, and the experience and the comfort of a user using the air conditioner can be improved.

Optionally, when a user exists in the intelligent control implementation scene of the air outlet device, the scene information includes user information of a target scene, target user information of each user in the target scene is determined according to the user information, user demand information in the target scene is determined according to the target user information, and further regulation and control demand information corresponding to the target air conditioner is determined according to the user demand information and the scene information. Therefore, the user demand information can be determined based on the information of the user existing in the target scene, the accuracy and the reliability of determining the user demand information in the target scene can be improved, the accuracy and the intelligence of determining the regulation and control demand information can be improved, and the convenience and the comfort of intelligent control of the user by using the air conditioner are improved.

Optionally, the scene information of the target scene further includes time information, where a temperature control mode corresponding to the target air conditioner can be determined according to the user demand information and the time information of the target scene, and the regulation and control demand information corresponding to the target air conditioner is determined according to the user demand information and the temperature control mode, where the temperature control mode includes a cooling mode or a heating mode. For example, the time information is used to indicate that the season of the target scene is summer and the current time is noon, and the temperature control mode of the target air conditioner is determined to be a cooling mode; when the time information is used for indicating that the season of the target scene is winter and the current time is late night, the temperature control mode of the target air conditioner is determined to be a heating mode. Therefore, the temperature control mode corresponding to the target air conditioner can be determined based on the time information and the user demand information, the accuracy and the reliability of determining the temperature control mode can be improved, the accuracy of generating control parameters of the air conditioner is further improved, and convenience and comfort of intelligent control of the air conditioner by a user are improved.

Optionally, the generating the control parameter of the target air conditioner according to the regulation demand information may be determining an air outlet mode of the target air conditioner according to the regulation demand information, and generating the control parameter of the target air conditioner according to the air outlet mode of the target air conditioner, where the air outlet mode includes one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angular air outlet mode, and a shutdown mode. And at least two air deflectors are arranged on the target air conditioner, at least one target air deflector to be regulated is determined from all the air deflectors according to the air outlet mode of the target air conditioner, the air deflector control parameter of each target air deflector is determined, and the control parameters of the target air conditioner are generated based on the air deflector control parameters of all the target air deflectors. The number of the target air deflectors is at least one, and the specific number of the target air deflectors is not limited in the embodiment of the invention. The air outlet mode of the target air conditioner can be determined through the regulation and control demand information, the target air deflectors required to be regulated and controlled and the air deflector control parameters of each target air deflector are determined according to the air outlet mode, and the control parameters of the target air conditioner are generated based on the air deflector control parameters of all the target air deflectors, so that the accuracy and the reliability of determining the air mode are improved, the accuracy of determining the target air deflectors and the accuracy and the reliability of generating the control parameters of the target air conditioner are improved, and further the accuracy and the reliability of generating the control parameters of the target air conditioner are improved.

Optionally, the real-time scene information of the target scene is collected after the preset time period, whether the target air conditioner meets the preset mode switching condition is judged, if yes, the real-time scene information is analyzed to obtain real-time user distribution information, the real-time operation information of the target air conditioner is determined according to the current air outlet mode of the target air conditioner, the target air outlet mode of the target air conditioner in the next preset time period is determined based on the real-time user distribution information and the real-time operation information of the target air conditioner, the accuracy and the reliability of determining the air mode can be improved, and further the accuracy of generating control parameters of the air conditioner is improved, and convenience and comfort of intelligent control of a user using the air conditioner are improved.

For example, as shown in fig. 1, when a user in a target scene is a bright person, the bright person is a man and the bright person sleeps, when a season in the target scene is summer and the time is noon, the user demand information of the bright person is determined to be a uniform air outlet demand, wherein the uniform air outlet demand is used for indicating that the air conditioner can uniformly blow in a room, and regulation demand information corresponding to the target air conditioner is determined according to the user demand information of the bright person and the scene information, so as to generate control parameters of the target air conditioner.

It should be noted that, the scene architecture shown in fig. 1 is only for showing a scene used by the intelligent control implementation method of the air outlet device, the related small, bed and air conditioner are also only schematically shown, and specific structures, sizes, shapes, positions/installation modes and the like can be adaptively adjusted according to actual scenes, which is not limited by the scene architecture shown in fig. 1.

The application scenario used by the intelligent control implementation method of the air-out equipment is described above, and the intelligent control implementation method and device of the air-out equipment are described in detail below.

Example 1

Referring to fig. 2, fig. 2 is a flow chart of an intelligent control implementation method of an air outlet device according to an embodiment of the present invention. The method for implementing intelligent control of the air outlet device described in fig. 2 may be applied to an apparatus for implementing intelligent control of the air outlet device, or may be applied to a cloud server or a local server for implementing intelligent control of the air outlet device, or may be applied to an air conditioner itself, which is not limited by the embodiment of the present invention. As shown in fig. 2, the method for implementing intelligent control of the air outlet device may include the following operations:

201. And acquiring scene information of a target scene corresponding to the target air conditioner to be controlled.

In the embodiment of the invention, optionally, the scene information of the target scene includes one or more of scene temperature information and scene equipment distribution information; the scene temperature information comprises a current temperature value of a target scene, and the scene equipment distribution information comprises distribution information of furniture or other electronic equipment existing in the target scene.

In the embodiment of the invention, optionally, the scene information of the target scene corresponding to the target air conditioner to be controlled can be obtained in real time, or can be obtained at fixed time, or can be obtained when the air conditioner needs to be intelligently controlled, and the embodiment of the invention is not limited.

202. And determining regulation and control demand information corresponding to the target air conditioner in the target scene according to the scene information.

In the embodiment of the invention, the regulation and control demand information comprises one or more of temperature regulation and control demand information, wind speed regulation and control demand information and wind direction regulation and control demand information.

In the embodiment of the invention, the regulation demand information further comprises one or more of operation time demand information and humidity regulation demand information. The operation time length demand information comprises opening time length information of the air conditioner.

203. And generating control parameters of the target air conditioner according to the regulation and control demand information.

In the embodiment of the invention, the control parameter is used for controlling the target air conditioner to execute the operation matched with the control parameter.

In the embodiment of the invention, optionally, the control parameters of the target air conditioner include one or more of temperature control parameters, wind speed control parameters and wind direction control parameters of the target air conditioner; further, the control parameters of the target air conditioner further comprise one or more of operation duration control parameters and humidity control parameters of the target air conditioner.

Therefore, implementing the intelligent control implementation method of the air outlet device described in fig. 2 can obtain the scene information of the target scene corresponding to the target air conditioner to be controlled, determine the regulation and control requirement information corresponding to the target air conditioner in the target scene according to the scene information, and generate the control parameter of the target air conditioner according to the regulation and control requirement information, where the control parameter is used to control the target air conditioner to execute the operation matched with the control parameter, and determine the regulation and control requirement information based on the real-time scene information to generate the control parameter of the target air conditioner, so that the intelligent control of the air conditioner can be improved, the accuracy and reliability of intelligent control of the air conditioner can be improved, and the experience and comfort of the user using the air conditioner can be improved.

Example two

Referring to fig. 3, fig. 3 is a flow chart of an intelligent control implementation method of an air outlet device according to an embodiment of the present invention. The method for implementing intelligent control of the air outlet device described in fig. 3 may be applied to an apparatus for implementing intelligent control of the air outlet device, or may be applied to a cloud server or a local server for implementing intelligent control of the air outlet device, or may be applied to an air conditioner itself, which is not limited by the embodiment of the present invention. As shown in fig. 3, the method for implementing intelligent control of the air outlet device may include the following operations:

301. And acquiring scene information of a target scene corresponding to the target air conditioner to be controlled.

In the embodiment of the invention, the scene information of the target scene comprises the user information of the target scene.

302. And determining target user information of each user in the target scene according to the user information.

In the embodiment of the invention, the target user information comprises one or more of user categories and user distribution conditions in the target scene.

In the embodiment of the invention, optionally, the user category comprises one or more of gender category, age group category and physique category; the user profile includes location information for each user present in the target scene.

In the embodiment of the present invention, the number of users in the target scene may be one or more, and the embodiment of the present invention is not limited.

303. And determining the user demand information of the target scene according to the target user information.

In the embodiment of the present invention, optionally, the user requirement information may include requirement information corresponding to all users in the target scene.

In the embodiment of the present invention, further optionally, determining user requirement information of the target scene according to the target user information includes:

Determining the position information of each user in the target scene according to the user distribution condition in the target scene;

determining the requirement information of each user according to the user category of each user in the target scene and the position information of each user;

And determining the user demand information of the target scene according to the demand information of all the users.

In the embodiment of the present invention, optionally, the detection of the user distribution situation in the target scene may be that the radar sensor or the infrared sensor collects the position of each user in the target scene, and generates the user distribution situation of the target scene based on the position of each user in the target scene.

304. And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information.

In the embodiment of the invention, optionally, according to the user demand information and the scene information, the regulation demand information corresponding to the target air conditioner is determined, and the air supply position of the target air conditioner can be determined based on the determined regulation demand information, so that the target air conditioner can ensure that the user enjoys the air supply of the air conditioner and improve the air supply comfort.

305. And generating control parameters of the target air conditioner according to the regulation and control demand information.

In the embodiment of the present invention, for other descriptions of step 301 and step 305, please refer to the detailed descriptions of step 201 and step 203 in the first embodiment, and the description of the embodiment of the present invention is omitted.

It can be seen that implementing the intelligent control implementation method of the air outlet device described in fig. 3 can determine, according to the user information, the target user information of each user in the target scene, determine, according to the target user information, the user demand information of the target scene, and determine, according to the user demand information and the scene information, the regulation demand information corresponding to the target air conditioner, and determine, in combination with the user information and the scene information, the regulation demand information jointly, thereby improving the comprehensiveness of determining the regulation demand information, and being beneficial to improving the accuracy and reliability of determining the regulation demand information, improving the intelligence of air conditioner control, and improving the accuracy and reliability of intelligent control of the air conditioner, and further being beneficial to improving the experience and comfort of the user using the air conditioner.

In an alternative embodiment, the scene information further includes time information of the target scene;

According to the user demand information and the scene information, determining regulation demand information corresponding to the target air conditioner comprises the following steps:

according to the user demand information and the time information of the target scene, determining a temperature control mode corresponding to the target air conditioner, wherein the temperature control mode comprises a refrigeration mode or a heating mode;

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode.

In this optional embodiment, optionally, the time information of the target scene includes season information of the target scene, and current time information of the target scene.

In this optional embodiment, optionally, according to the user demand information and the time information of the target scene, determining the temperature control mode corresponding to the target air conditioner includes:

when the season information of the target scene is used for indicating that the target scene is in summer and the user demand information is used for indicating that the temperature needs to be reduced, determining a temperature control mode corresponding to the target air conditioner as a refrigeration mode;

When the season information of the target scene is used for indicating that the target scene is in winter and the user demand information is used for indicating that the temperature needs to be increased, determining a temperature control mode corresponding to the target air conditioner as a heating mode.

It can be seen that, implementing this optional embodiment can determine, according to the time information of the target scene and the user demand information, the temperature control mode corresponding to the target air conditioner, where the temperature control mode includes a cooling mode or a heating mode, and determines, according to the user demand information and the temperature control mode, the regulation and control demand information corresponding to the target air conditioner, can determine, based on the user demand information and the time information of the target scene, the temperature control mode corresponding to the target air conditioner together, and can improve the accuracy and reliability of determining the temperature control mode of the target air conditioner, and can improve the intelligence of determining the temperature control mode of the target air conditioner, thereby being beneficial to improving the accuracy and efficiency of subsequently determining the regulation and control demand information corresponding to the target air conditioner, and improving the accuracy and efficiency of subsequently generating the control parameter of the target air conditioner according to the demand information corresponding to the target air conditioner, and being beneficial to improving the accuracy and reliability of intelligent control on the air conditioner, and further being beneficial to improving the experience feeling and comfort of the user using the air conditioner.

In another alternative embodiment, generating control parameters of the target air conditioner according to the regulation requirement information includes:

Determining an air outlet mode of the target air conditioner according to the regulation and control demand information, wherein the air outlet mode comprises one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angle air outlet mode and a shutdown mode;

and generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner.

In this optional embodiment, optionally, the air outlet mode further includes a ceiling air outlet mode, where the ceiling air outlet mode is used to indicate that the air supply angle of the target air conditioner is a direction toward the ceiling.

In this optional embodiment, optionally, when the regulation requirement information is used to indicate that the temperature control mode corresponding to the target air conditioner is a cooling mode, determining the air outlet mode of the target air conditioner as a horizontal air outlet mode or a ceiling air outlet mode; and when the regulation and control demand information is used for indicating that the temperature control mode corresponding to the target air conditioner is a heating mode, determining the air outlet mode of the target air conditioner as an angle air outlet mode. Further optionally, when the air outlet mode of the target air conditioner is an angle air outlet mode, determining an air outlet angle of the target air conditioner and a wind direction swing angle of the target air conditioner according to user distribution conditions in the target scene.

It can be seen that, implementing this alternative embodiment can confirm the air-out mode of target air conditioner according to regulation and control demand information, wherein, the air-out mode includes one of four sides air-out mode, the horizontal air-out mode, perpendicular air-out mode, angle air-out mode and shut down mode, and according to the air-out mode of target air conditioner, generate the control parameter of target air conditioner, can confirm the air-out mode of target air conditioner through regulation and control demand information based on the air-out mode of target air conditioner, can improve the accuracy and the reliability of confirming the air-out mode, and can improve the intelligence of confirming the air-out mode, can also produce the control parameter of target air conditioner based on the air-out mode of target air conditioner, be favorable to improving the accuracy and the efficiency of producing the control parameter of target air conditioner, be favorable to improving the accuracy and the reliability that carry out intelligent control to the air conditioner, and then be favorable to improving user's experience and comfort level of using the air conditioner.

In yet another alternative embodiment, at least two air deflectors are provided on the target air conditioner;

generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner, wherein the control parameters comprise:

according to the air outlet mode of the target air conditioner, determining at least one target air deflector to be regulated and controlled from all air deflectors, and determining air deflector control parameters of each target air deflector;

And generating control parameters of the target air conditioner based on the air deflector control parameters of all the target air deflectors.

In this optional embodiment, optionally, when the air outlet mode of the target air conditioner is a four-side air outlet mode, determining a first air guide plate from all air guide plates, and controlling the first air guide plate to rotate to open the air outlet so as to form four-side air outlet, further, when the air outlet mode of the target air conditioner is a four-side air outlet mode, further determining a third air guide plate, and determining a movement distance of the third air guide plate according to the regulation and control requirement information; when the air outlet mode of the target air conditioner is a horizontal air outlet mode, determining a first air guide plate and a second air guide plate from all the air guide plates, and controlling the first air guide plate and the second air guide plate to synchronously rotate to open an air outlet so as to form horizontal air outlet; when the air outlet mode of the target air conditioner is angle air outlet, determining a first air guide plate, a second air guide plate and a third air guide plate from all the air guide plates, and controlling the first air guide plate, the second air guide plate and the third air guide plate to synchronously rotate to open the air outlet so as to form angle air outlet; when the air outlet mode of the target air conditioner is a vertical air outlet mode, determining a first air guide plate, a second air guide plate and a third air guide plate from all the air guide plates, and controlling the first air guide plate, the second air guide plate and the third air guide plate to synchronously rotate to open a vertical air outlet so as to form vertical air outlet; when the air outlet mode of the target air conditioner is a shutdown mode, determining a first air guide plate and a second air guide plate from all the air guide plates, wherein the first air guide plate is horizontally arranged and the second air guide plate is vertically arranged so as to form the shutdown mode. The number and type of the specific air deflectors are not particularly limited in the embodiment of the invention, and the first air deflector, the second air deflector and the third air deflector mentioned in the optional embodiment are all determined target air deflectors which need to be regulated and controlled.

In this optional embodiment, further optional, the air outlet mode of the target air conditioner further includes one of a ceiling air flow blowing mode, a rapid temperature adjusting blowing mode, and a carpet air flow blowing mode; when the blowing mode of the target air conditioner is a ceiling airflow blowing mode, the air supply point of the target air conditioner is a ceiling in the target scene; when the blowing mode of the target air conditioner is the carpet airflow blowing mode, the air supply point of the target air conditioner is the carpet or the ground in the target scene. Further, when the blowing mode of the target air conditioner is a ceiling airflow blowing mode, the first air guide plate is determined from all air guide plates, the first angle of the first air guide plate is determined, and the first air guide plate is controlled to move to the first angle so as to realize the ceiling airflow blowing mode, so that the temperature uniformity of a whole room in the target environment can be realized, the air supply point can be determined as a ceiling in the target scene, the user can be prevented from being directly blown by the air conditioner of the target air conditioner, and the comfort and the experience of the user for temperature control by using the target air conditioner are improved. When the air blowing mode of the target air conditioner is a rapid temperature adjusting air blowing mode, the first air guide plate and the second air guide plate are determined from all the air guide plates, the first air guide plate and the second air guide plate are controlled to synchronously move, a certain angle is formed between the first air guide plate and the second air guide plate and a preset horizontal plane, the first air guide plate and the second air guide plate are controlled to reciprocate back and forth, and then air flow formed by the target air conditioner forms a swinging air, so that rapid air blowing and rapid refrigerating and heating can be realized in a target scene, and when a user in the target scene needs rapid temperature adjustment and control, the efficiency of temperature adjustment and control can be improved. When the blowing mode of the target air conditioner is the carpet airflow blowing mode, the first air guide plate and the second air guide plate are determined from all the air guide plates, and the first air guide plate and the second air guide plate are controlled to form a vertical air outlet mode, so that the air supply point of the target air conditioner is the carpet or the ground in the target scene, the user can be prevented from being directly blown by the air conditioner air of the target air conditioner, and the comfort and the experience of the user for temperature control by using the target air conditioner are improved. The number and type of the specific air deflectors are not particularly limited in the embodiment of the invention, and the first air deflector, the second air deflector and the third air deflector mentioned in the optional embodiment are all determined target air deflectors which need to be regulated and controlled.

It can be seen that at least two air deflectors are arranged on the target air conditioner in the implementation of the alternative embodiment, at least one target air deflector to be regulated and controlled is determined from all air deflectors according to the air outlet mode of the target air conditioner, the air deflector control parameter of each target air deflector is determined, the control parameter of the target air conditioner is generated based on the air deflector control parameters of all target air deflectors, the air deflector control parameters of the target air deflector and each target air deflector to be regulated and controlled can be determined, and then the control parameter of the target air conditioner can be generated, the number of the target air deflectors and the accuracy and reliability of the air deflector control parameters of each target air deflector can be determined, the accuracy of the control parameter of the target air conditioner can be improved, the intelligent and the accuracy of intelligent control of the target air conditioner can be improved, and the experience and comfort of a user using the air conditioner can be improved.

In yet another alternative embodiment, after generating the control parameter of the target air conditioner according to the regulation requirement information, the method further includes:

after a preset time period, acquiring real-time scene information of a target scene, wherein the real-time scene information comprises real-time temperature information of the target scene;

judging whether the target air conditioner meets a preset mode switching condition according to the real-time scene information;

When the target air conditioner is judged to meet the preset mode switching condition, determining a target air outlet mode of the target air conditioner in the next preset time period based on the current air outlet mode of the target air conditioner and real-time scene information, and regulating and controlling the target air conditioner based on the target air outlet mode.

In this optional embodiment, optionally, the real-time scene information of the target scene further includes one or more of user number information, user category information, and user location information of the target scene.

In this optional embodiment, optionally, according to the real-time scene information, determining whether the target air conditioner meets a preset mode switching condition includes:

Judging whether the real-time temperature of the target scene reaches a preset temperature threshold value according to the real-time temperature information;

When the real-time temperature of the target scene is judged to reach a preset temperature threshold value, determining that the target air conditioner meets a preset mode switching condition; and when the real-time temperature of the target scene is judged to not reach the preset temperature threshold value, determining that the target air conditioner does not meet the preset mode switching condition.

In this optional embodiment, optionally, the next preset time period of the target air conditioner may be half an hour, one hour, two hours, or other time periods, which is not limited in the embodiment of the present invention.

In this optional embodiment, optionally, when it is determined that the target air conditioner does not meet the preset mode switching condition, the target air conditioner is controlled to continue to operate with the current control parameter, and after the execution of the execution is triggered again for a preset period of time, real-time scene information of the target scene is acquired, and whether the target air conditioner meets the operation of the preset mode switching condition is determined according to the real-time scene information.

Therefore, the implementation of the optional embodiment can acquire the real-time scene information of the target scene after the preset time period, and judge whether the target air conditioner meets the preset mode switching condition, if so, the target air conditioner is determined to be in the target air outlet mode of the next preset time period based on the current air outlet mode of the target air conditioner and the real-time scene information, and the target air conditioner is regulated and controlled based on the target air outlet mode, so that whether the target air conditioner meets the preset mode switching condition can be judged according to the real-time scene information, the accuracy and the reliability of judging whether the target air conditioner meets the preset mode switching condition can be improved, the accuracy and the reliability of the target air outlet mode of the target air conditioner are improved, the accuracy of regulating and controlling the target air conditioner in the future preset time period are improved, the comfort and the experience of the air conditioner for users in each time period are improved, the intelligent control of the target air conditioner is improved, and the experience and comfort of the air conditioner for users are improved.

In yet another optional embodiment, determining the target air-out mode of the target air conditioner in the next preset time period based on the current air-out mode of the target air conditioner and the real-time scene information includes:

Analyzing the real-time scene information to obtain real-time user distribution information of a target scene, and determining real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner;

determining a target air outlet mode of the target air conditioner in a next preset long period based on the real-time user distribution information and the real-time operation information of the target air conditioner;

The real-time operation information of the target air conditioner comprises one or more of the air outlet temperature of the target air conditioner, the operation time of the target air conditioner, the blowing position of the target air conditioner and the air outlet speed of the target air conditioner.

In this optional embodiment, optionally, the target air-out mode includes one of a four-side air-out mode, a horizontal air-out mode, a vertical air-out mode, an angular air-out mode, and a shutdown mode; further, the target air outlet mode further comprises one of a ceiling air flow blowing mode, a rapid temperature adjusting blowing mode and a carpet air flow blowing mode. When the real-time temperature of the target scene reaches a preset temperature threshold value, determining an air supply point and an air deflector swing angle of the target air conditioner based on real-time user distribution information and real-time operation information of the target air conditioner, and determining a target air outlet mode of the target air conditioner in a next preset time period according to the air supply point and the air deflector swing angle of the target air conditioner.

For example, when the temperature control mode of the target air conditioner is a cooling mode and the real-time temperature of the target scene reaches a preset temperature threshold, determining the target air outlet mode of the target air conditioner in the next preset long period as a ceiling air flow blowing mode based on the real-time user distribution information and the real-time operation information of the target air conditioner, so that not only can the cooling capacity be supplemented to the target scene in the cooling mode, but also the user temperature supercooling caused by air conditioning blowing to the user can be avoided; when the temperature control mode of the target air conditioner is a heating mode and the real-time temperature of the target scene reaches a preset temperature threshold value, the target air outlet mode of the target air conditioner in the next preset time period is determined to be an angle air outlet mode based on the real-time user distribution information and the real-time operation information of the target air conditioner, so that the energy consumption of the air conditioner can be saved while the output of warm air is ensured.

It can be seen that, implementing this optional embodiment can analyze real-time scene information to obtain real-time user distribution information of the target scene, and according to the current air-out mode of the target air conditioner, determine the real-time operation information of the target air conditioner, based on real-time user distribution information and the real-time operation information of the target air conditioner, determine the target air-out mode of the target air conditioner in the next preset time period, and determine the real-time operation information of the target air conditioner based on real-time scene information and the current operation mode of the target air conditioner, accuracy of determining the real-time operation information of the target air conditioner is improved, and determine the target air-out mode of the target air conditioner in the next preset time period through real-time user distribution information and the real-time operation information of the target air conditioner, accuracy and intelligence of determining the target air-out mode of the target air conditioner can be improved, comfort and convenience of a user in a long-time use air conditioner process can be improved, and energy consumption of the air conditioner can be saved through switching of the air-out mode, thereby improving comfort of a user in each time period and comfort of the target air conditioner in a future preset time period, intelligent air conditioner control and further improving user comfort and intelligent air conditioner comfort.

Example III

Referring to fig. 4, fig. 4 is a schematic structural diagram of an intelligent control implementation device for an air outlet apparatus according to an embodiment of the present invention. As shown in fig. 4, the intelligent control implementation device of the air outlet device may include:

an acquisition module 401, configured to acquire scene information of a target scene corresponding to a target air conditioner to be controlled;

the determining module 402 is configured to determine, according to the scenario information, regulatory requirement information corresponding to the target air conditioner in the target scenario, where the regulatory requirement information includes one or more of temperature regulatory requirement information, wind speed regulatory requirement information, and wind direction regulatory requirement information;

A generating module 403, configured to generate control parameters of the target air conditioner according to the regulation requirement information;

The control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters.

Therefore, the device described in fig. 4 can obtain the scene information of the target scene corresponding to the target air conditioner to be controlled, determine the regulation and control requirement information corresponding to the target air conditioner in the target scene according to the scene information, and generate the control parameter of the target air conditioner according to the regulation and control requirement information, wherein the control parameter is used for controlling the target air conditioner to execute the operation matched with the control parameter, and can determine the regulation and control requirement information based on the real-time scene information so as to generate the control parameter of the target air conditioner, thereby improving the intelligence of air conditioner control, being beneficial to improving the accuracy and reliability of intelligent control of the air conditioner, and further being beneficial to improving the experience and comfort of the user using the air conditioner.

In an alternative embodiment, the scenario information includes user information of the target scenario, and the determining module 302 is further configured to determine target user information of each user in the target scenario, where the target user information includes one or more of a user category and a user distribution situation in the target scenario;

the determining module 402 is further configured to determine user requirement information of the target scene according to the target user information;

the specific manner of determining the regulation and control requirement information corresponding to the target air conditioner in the target scene by the determining module 402 according to the scene information includes:

and determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information.

It can be seen that the device described in fig. 4 is implemented to determine the target user information of each user in the target scene according to the user information, determine the user demand information of the target scene according to the target user information, and determine the regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information, and determine the regulation and control demand information jointly according to the user information and the scene information, thereby improving the comprehensiveness of determining the regulation and control demand information, improving the accuracy and reliability of determining the regulation and control demand information, improving the intelligence of air conditioner control, improving the accuracy and reliability of intelligent control of the air conditioner, and further improving the experience and comfort of the user using the air conditioner.

In another alternative embodiment, the scene information further includes time information of the target scene;

The determining module 402 determines, according to the user demand information and the scene information, specific ways of adjusting and controlling the demand information corresponding to the target air conditioner include:

according to the user demand information and the time information of the target scene, determining a temperature control mode corresponding to the target air conditioner, wherein the temperature control mode comprises a refrigeration mode or a heating mode;

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode.

It can be seen that, implementing the apparatus described in fig. 4 can determine the temperature control mode corresponding to the target air conditioner according to the time information of the target scene and the user demand information, where the temperature control mode includes a cooling mode or a heating mode, and determines the regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode, and can determine the temperature control mode corresponding to the target air conditioner based on the user demand information and the time information of the target scene, so as to improve the accuracy and reliability of the temperature control mode of the determined target air conditioner, and the intelligence of the temperature control mode of the determined target air conditioner, thereby being beneficial to improving the accuracy and efficiency of the regulation and control demand information corresponding to the target air conditioner, and improving the accuracy and the efficiency of the control parameter of the target air conditioner generated according to the demand information corresponding to the target air conditioner, and further being beneficial to improving the accuracy and reliability of intelligent control on the air conditioner, and further improving the experience feeling and comfort of the user using the air conditioner.

In yet another alternative embodiment, the specific manner of generating the control parameter of the target air conditioner by the generating module 403 according to the regulation requirement information includes:

Determining an air outlet mode of the target air conditioner according to the regulation and control demand information, wherein the air outlet mode comprises one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angle air outlet mode and a shutdown mode;

and generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner.

It can be seen that the device described in fig. 4 is implemented to determine the air outlet mode of the target air conditioner according to the regulation requirement information, where the air outlet mode includes one of four-side air outlet mode, horizontal air outlet mode, vertical air outlet mode, angle air outlet mode and shutdown mode, and generates the control parameter of the target air conditioner according to the air outlet mode of the target air conditioner, the control parameter of the target air conditioner can be generated based on the air outlet mode of the target air conditioner, the air outlet mode of the target air conditioner can be determined by regulating requirement information, the accuracy and reliability of determining the air mode can be improved, the intelligence of determining the air mode can be improved, the control parameter of the target air conditioner can be generated based on the air outlet mode of the target air conditioner, the accuracy and efficiency of generating the control parameter of the target air conditioner can be improved, the accuracy and reliability of intelligent control of the air conditioner can be improved, and the experience and comfort of a user using the air conditioner can be improved.

In yet another alternative embodiment, at least two air deflectors are provided on the target air conditioner;

The specific ways of generating the control parameters of the target air conditioner by the generating module 403 according to the air outlet mode of the target air conditioner include:

according to the air outlet mode of the target air conditioner, determining at least one target air deflector to be regulated and controlled from all air deflectors, and determining air deflector control parameters of each target air deflector;

And generating control parameters of the target air conditioner based on the air deflector control parameters of all the target air deflectors.

It can be seen that, at least two air deflectors are disposed on the target air conditioner in the device described in fig. 4, according to the air outlet mode of the target air conditioner, at least one target air deflector to be regulated is determined from all air deflectors, and the air deflector control parameter of each target air deflector is determined, based on the air deflector control parameters of all target air deflectors, the control parameters of the target air conditioner are generated, the number of the target air deflectors to be regulated and the air deflector control parameters of each target air deflector can be determined, and then the control parameters of the target air conditioner can be generated, the accuracy and reliability of the air deflector control parameters of each target air deflector can be improved, the accuracy of the control parameters of the target air conditioner can be improved, and thus the intelligent and the accuracy of intelligent control of the target air conditioner can be improved, and the experience and comfort of a user using the air conditioner can be improved.

In yet another alternative embodiment, as shown in fig. 5, the apparatus further comprises:

The acquisition module 404 is configured to acquire real-time scene information of a target scene after a preset time period after the generation module 403 generates control parameters of the target air conditioner according to the regulation demand information, where the real-time scene information includes real-time temperature information of the target scene;

the judging module 405 is configured to judge whether the target air conditioner meets a preset mode switching condition according to the real-time scene information;

The determining module 402 is further configured to determine, when the determining module 405 determines that the target air conditioner meets a preset mode switching condition, a target air outlet mode of the target air conditioner in a next preset time period based on a current air outlet mode of the target air conditioner and real-time scene information;

And the regulation and control module 406 is configured to regulate and control the target air conditioner based on the target air outlet mode.

Therefore, the device described in fig. 5 can acquire real-time scene information of a target scene after a preset time period, and judge whether the target air conditioner meets a preset mode switching condition, if so, based on the current air outlet mode and the real-time scene information of the target air conditioner, the target air outlet mode of the target air conditioner in the next preset time period is determined, and the target air conditioner is regulated and controlled based on the target air outlet mode, so that whether the target air conditioner meets the preset mode switching condition can be judged according to the real-time scene information, the accuracy and the reliability of judging whether the target air conditioner meets the preset mode switching condition can be improved, the accuracy and the reliability of the target air outlet mode of the target air conditioner are improved, the accuracy of regulating and controlling the target air conditioner in a future preset time period are improved, the comfort and the experience of a user using the air conditioner in each time period are improved, the intelligent control of the target air conditioner is improved, and the experience and the comfort of the user using the air conditioner are improved.

In yet another alternative embodiment, the determining module 402 determines, based on the current air-out mode of the target air conditioner and the real-time scene information, a specific manner of determining the target air-out mode of the target air conditioner in a next preset time period includes:

Analyzing the real-time scene information to obtain real-time user distribution information of a target scene, and determining real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner;

determining a target air outlet mode of the target air conditioner in a next preset long period based on the real-time user distribution information and the real-time operation information of the target air conditioner;

The real-time operation information of the target air conditioner comprises one or more of the air outlet temperature of the target air conditioner, the operation time of the target air conditioner, the blowing position of the target air conditioner and the air outlet speed of the target air conditioner.

It can be seen that the device described in fig. 5 is implemented to analyze the real-time scene information to obtain the real-time user distribution information of the target scene, and determine the real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner, and determine the target air outlet mode of the target air conditioner in the next preset time period based on the real-time user distribution information and the real-time operation information of the target air conditioner, and determine the real-time operation information of the target air conditioner, thereby improving the accuracy of determining the real-time operation information of the target air conditioner, and determining the target air outlet mode of the target air conditioner in the next preset time period through the real-time user distribution information and the real-time operation information of the target air conditioner, improving the accuracy and the intelligence of determining the target air outlet mode of the target air conditioner, improving the comfort and the convenience of the user in the long-time use air conditioner, and saving the energy consumption of the air conditioner through the switching of the air outlet mode, and further improving the comfort and the comfort of the user in each time period, and further improving the comfort and the intelligent control of the target air conditioner.

Example IV

Referring to fig. 6, fig. 6 is a schematic structural diagram of an intelligent control implementation device of an air outlet apparatus according to another embodiment of the present invention. As shown in fig. 6, the intelligent control implementation device of the air outlet 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 method for implementing intelligent control of the air outlet device described in the first embodiment or the 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 intelligent control implementation method of the air outlet device described in the first embodiment or the second embodiment of the invention when the computer instructions are called.

Example six

An embodiment of the present invention discloses a computer program product, which includes a non-transitory computer readable storage medium storing a computer program, and the computer program is operable to cause a computer to execute steps in the method for implementing intelligent control of an air outlet device described in the first embodiment or the second embodiment.

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 an intelligent control implementation method and device for air outlet equipment, which are disclosed by the embodiment of the invention and are only used 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 (10)

1. An intelligent control implementation method of air outlet equipment is characterized by comprising the following steps:

acquiring scene information of a target scene corresponding to a target air conditioner to be controlled;

according to the scene information, determining regulation and control requirement information corresponding to the target air conditioner in the target scene, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information;

generating control parameters of the target air conditioner according to the regulation and control demand information;

the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters.

2. The method for implementing intelligent control of an air-out device according to claim 1, wherein the scene information includes user information of the target scene, the method further comprising:

determining target user information of each user in the target scene according to the user information, wherein the target user information comprises one or more of user types and user distribution conditions in the target scene;

determining user demand information of the target scene according to the target user information;

The determining, according to the scene information, regulation and control requirement information corresponding to the target air conditioner in the target scene includes:

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the scene information.

3. The intelligent control implementation method of an air-out device according to claim 2, wherein the scene information further includes time information of the target scene;

the determining the regulation and control requirement information corresponding to the target air conditioner according to the user requirement information and the scene information comprises the following steps:

determining a temperature control mode corresponding to the target air conditioner according to the user demand information and the time information of the target scene, wherein the temperature control mode comprises a refrigeration mode or a heating mode;

And determining regulation and control demand information corresponding to the target air conditioner according to the user demand information and the temperature control mode.

4. The method for implementing intelligent control of air-out equipment according to claim 3, wherein generating the control parameters of the target air conditioner according to the regulation and control requirement information comprises:

Determining an air outlet mode of the target air conditioner according to the regulation and control demand information, wherein the air outlet mode comprises one of a four-side air outlet mode, a horizontal air outlet mode, a vertical air outlet mode, an angle air outlet mode and a shutdown mode;

and generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner.

5. The intelligent control implementation method of the air outlet equipment according to claim 4, wherein at least two air deflectors are arranged on the target air conditioner;

The generating control parameters of the target air conditioner according to the air outlet mode of the target air conditioner includes:

according to the air outlet mode of the target air conditioner, determining at least one target air deflector to be regulated and controlled from all the air deflectors, and determining air deflector control parameters of each target air deflector;

and generating control parameters of the target air conditioner based on the air deflector control parameters of all the target air deflectors.

6. The method for implementing intelligent control of an air outlet device according to claim 5, wherein after generating the control parameters of the target air conditioner according to the regulation demand information, the method further comprises:

After a preset time period, acquiring real-time scene information of the target scene, wherein the real-time scene information comprises real-time temperature information of the target scene;

judging whether the target air conditioner meets a preset mode switching condition according to the real-time scene information;

When the target air conditioner is judged to meet the preset mode switching condition, determining a target air outlet mode of the target air conditioner in a next preset long period based on the current air outlet mode of the target air conditioner and the real-time scene information, and regulating and controlling the target air conditioner based on the target air outlet mode.

7. The method for implementing intelligent control of an air outlet device according to claim 6, wherein the determining, based on the current air outlet mode of the target air conditioner and the real-time scene information, the target air outlet mode of the target air conditioner in a next preset time period includes:

Analyzing the real-time scene information to obtain real-time user distribution information of the target scene, and determining real-time operation information of the target air conditioner according to the current air outlet mode of the target air conditioner;

determining a target air outlet mode of the target air conditioner in the next preset time period based on the real-time user distribution information and the real-time operation information of the target air conditioner;

The real-time operation information of the target air conditioner comprises one or more of the air outlet temperature of the target air conditioner, the operation time of the target air conditioner, the blowing position of the target air conditioner and the air outlet speed of the target air conditioner.

8. An intelligent control implementation device of air-out equipment, which is characterized in that the device comprises:

The acquisition module is used for acquiring scene information of a target scene corresponding to a target air conditioner to be controlled;

The determining module is used for determining regulation and control requirement information corresponding to the target air conditioner in the target scene according to the scene information, wherein the regulation and control requirement information comprises one or more of temperature regulation and control requirement information, wind speed regulation and control requirement information and wind direction regulation and control requirement information;

The generation module is used for generating control parameters of the target air conditioner according to the regulation and control demand information;

the control parameters are used for controlling the target air conditioner to execute the operation matched with the control parameters.

9. An intelligent control implementation device of air-out equipment, which is characterized in that the device comprises:

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 intelligent control implementation method of the air outlet device according to any one of claims 1 to 7.

10. A computer storage medium storing computer instructions for executing the intelligent control implementation method of the air outlet device according to any one of claims 1 to 7 when the computer instructions are called.