CN111413882B - Intelligent air outlet equipment control method, system and computer readable storage medium - Google Patents

Abstract

The invention discloses an intelligent air outlet equipment control method, which comprises a mobile terminal and intelligent air outlet equipment, wherein the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable, and the method comprises the following steps: searching a mobile terminal in a wind sending area to acquire user identity information stored in the mobile terminal; and the air outlet grid plate or the air supply section executes a user air supply model corresponding to the user identity information. According to the intelligent air outlet equipment control method, the user behavior is effectively predicted through self-learning of the user behavior habit, personalized control of the intelligent air outlet equipment is achieved, and user satisfaction is improved. Furthermore, the intelligent air outlet equipment control system is provided, the control method is simple, and the intelligent degree is high. In addition, a computer readable storage medium is provided, which stores an intelligent air outlet device air supply section control program, so that the terminal device can execute the intelligent air outlet device control method.

Description

Intelligent air outlet equipment control method, system and computer readable storage medium

Technical Field

The invention relates to the technical field of intelligent household appliance control, in particular to an intelligent air outlet equipment control method, an intelligent air outlet equipment control system and a computer readable storage medium.

Background

At present, the conventional tower fan in the market mostly has single-direction air outlet, the air supply range is smaller, even if the tower fan can automatically swing left and right, the air supply range of the tower fan is enlarged, and the air supply angle is changed, but because the tower fan is of an integral structure, the air supply direction is relatively fixed, and then the air supply direction of the tower fan cannot be divided according to the requirement, so that the air supply direction of the tower fan is adjusted. Therefore, the air supply mode of the tower fan is limited, and the air supply requirements of multiple persons cannot be met at the same time.

Further, in the prior art, parameters such as a rotation speed gear, whether the tower fan swings or not and the like are readjusted when a user uses the tower fan every time, so that relevant settings of the user on the tower fan cannot be stored; when a plurality of users use the tower fan at the same time, the setting of the tower fan can be adjusted only according to the requirement of one user, and the corresponding setting can not be carried out according to the requirement of the plurality of users at the same time, so that the control method of the tower fan in the prior art can not reach the air supply requirement of the users.

Disclosure of Invention

The invention aims to provide an intelligent air-out equipment control method, which effectively predicts the user behavior through self-learning of the user behavior habit, realizes personalized control of the intelligent air-out equipment and improves the user satisfaction.

The invention further aims to provide an intelligent air outlet equipment control system which is simple in control method and high in intelligent degree, so that the defects in the prior art are overcome.

Another object of the present invention is to provide a computer readable storage medium storing an intelligent air outlet device air supply section control program, so that a terminal device can execute an intelligent air outlet device control method of the present invention.

To achieve the purpose, the invention adopts the following technical scheme:

the intelligent air-out equipment control method comprises a mobile terminal and intelligent air-out equipment, wherein the mobile terminal is connected with the intelligent air-out equipment through a communication network, the intelligent air-out equipment is provided with a plurality of air-out grid plates which are mutually independently movable, and the intelligent air-out equipment control method comprises the following steps:

searching a mobile terminal in a wind sending area to acquire user identity information stored in the mobile terminal;

the air outlet grating plates or the air supply sections execute a user air supply model corresponding to the user identity information, wherein the air supply sections are formed by combining and arranging a plurality of air outlet grating plates which are mutually independent and movable.

Preferably, the method further comprises the step of establishing a model:

Storing user identity information and receiving setting data of a user on intelligent air outlet equipment;

and establishing a user air supply model corresponding to the user identity information according to the user identity information and the setting data of the user on the intelligent air outlet equipment.

Preferably, the method further comprises a model matching step:

and repeating the step of establishing the model when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

Preferably, the intelligent household device further comprises an intelligent household device, wherein the intelligent household device is connected with the intelligent air outlet device, and the intelligent household device is in information interconnection with the intelligent air outlet device, and the intelligent household device is characterized by comprising the following steps:

acquiring target intelligent home equipment from intelligent home equipment;

and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

Preferably, the method further comprises the step of setting data:

receiving a data setting instruction sent by a mobile terminal;

acquiring target intelligent household equipment;

the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection;

and finishing the data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment.

Preferably, the method further comprises the step of obtaining the target:

Acquiring position information of a mobile terminal;

acquiring position information of intelligent household equipment in a blowing area;

establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment;

and analyzing and acquiring the intelligent home equipment closest to the position of the mobile terminal, namely the target intelligent home equipment, according to the identified positioning map.

Preferably, the method further comprises a device establishment step;

sending a connection establishment signal for establishing communication interconnection to target intelligent home equipment;

receiving a feedback signal sent by target intelligent home equipment;

when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment;

and when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

Preferably, the method further comprises the step of adapting:

Receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section;

reestablishing a user air supply model according to the user identity information and the updated setting data;

and the air outlet grid plate or the air supply section executes the updated user air supply model.

Preferably, the method further comprises a model optimization step:

storing multiple setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user;

and establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the air supply parameters.

Preferably, the method further comprises a model updating step:

receiving and recording N times of setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user;

and calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

The intelligent air-out equipment control system comprises a mobile terminal and intelligent air-out equipment, wherein the mobile terminal is connected with the intelligent air-out equipment through a communication network;

the mobile terminal is used for storing user identity information;

the system also comprises a user identity acquisition module, a storage module and a control module;

the user identity acquisition module is used for searching and acquiring user identity information in the air-sending area;

the storage module is used for storing a user air supply model corresponding to the user identity information;

the control module is used for distributing a user air supply model corresponding to the user identity information to the air outlet grid plates or the air supply sections to form execution information, and sending the execution information of each air outlet grid plate or each air supply section to the intelligent air outlet equipment;

the intelligent air outlet equipment comprises a plurality of air outlet grids which are mutually independent and movable, wherein the air outlet grids which are mutually independent and movable are combined and arranged to form an air supply section, and each air outlet grid or air supply section executes a user air supply model according to execution information.

Preferably, the system further comprises a model building module and a model matching module;

the model building module is used for storing user identity information and receiving setting data of the intelligent air outlet equipment by a user; according to the user identity information and the setting data of the user on the intelligent air outlet equipment, establishing a user air supply model corresponding to the user identity information;

The model matching module is used for repeating the model building step when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

Preferably, the intelligent household device further comprises an intelligent household device, wherein the intelligent household device is connected with the intelligent air outlet device:

the control module is also used for acquiring target intelligent household equipment from the intelligent household equipment; and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

Preferably, the system further comprises a target acquisition module, an equipment connection establishment module and a data setting module;

the data setting module is used for receiving a data setting instruction sent by the mobile terminal; acquiring target intelligent household equipment; the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection; completing data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment;

the target acquisition module is used for acquiring the position information of the mobile terminal; acquiring position information of intelligent household equipment in a blowing area; establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment; according to the identified positioning map, analyzing and acquiring intelligent home equipment closest to the position of the mobile terminal, namely target intelligent home equipment;

The device connection establishment module is used for sending connection establishment signals for establishing communication interconnection to the target intelligent home devices; receiving a feedback signal sent by target intelligent home equipment; when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment; and when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

Preferably, the system further comprises an adaptation module, a model optimization module and a model updating module;

the adaptation module is used for receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section; reestablishing a user air supply model according to the user identity information and the updated setting data; the updated user air supply model is executed by the air outlet grid plate or the air supply section;

the module optimizing module is used for storing the multiple setting data of the air supply parameters of the air outlet grating plate or the air supply section; the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user; establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the air supply parameters;

The model updating module is used for receiving and recording N times of setting data of air supply parameters of the air outlet grid plate or the air supply section by a user; when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user; and calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

A computer readable storage medium, on which an intelligent air outlet device air supply section control program is stored, which when executed by a processor, implements the steps of an intelligent air outlet device control method as described above.

The invention has the beneficial effects that: according to the intelligent air-out equipment control method, the user behavior is effectively predicted through self-learning of the user behavior habit, personalized control of the intelligent air-out equipment is achieved, and user satisfaction is improved. Furthermore, the intelligent air outlet equipment control system is provided, the control method is simple, and the intelligent degree is high. In addition, a computer readable storage medium is provided, which stores an intelligent air outlet device air supply section control program, so that the terminal device can execute the intelligent air outlet device control method.

Drawings

The present invention is further illustrated by the accompanying drawings, which are not to be construed as limiting the invention in any way.

FIG. 1 is a flow chart of a method for controlling an intelligent air-out device according to the present invention.

FIG. 2 is a schematic diagram illustrating a system communication connection according to an embodiment of a method for controlling an intelligent air outlet device according to the present invention.

FIG. 3 is a schematic diagram illustrating a system communication connection of another embodiment of a method for controlling an intelligent air-out device according to the present invention.

Fig. 4 is a schematic structural diagram of an intelligent air-out device according to an embodiment of the control method of the intelligent air-out device of the present invention.

Fig. 5 is a vertical sectional view of the intelligent air-out apparatus of fig. 4.

Wherein: wind wheel 100, wind wheel driving device 130, wind inlet and outlet array mechanism 140, unit driving device 400, wind outlet grating plate 310 and wind channel plate 321.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

The intelligent air-out equipment control method comprises a mobile terminal and intelligent air-out equipment, wherein the mobile terminal is connected with the intelligent air-out equipment through a communication network, the intelligent air-out equipment is provided with a plurality of air-out grid plates which are mutually independently movable, and the intelligent air-out equipment control method comprises the following steps:

Searching a mobile terminal in a wind sending area to acquire user identity information stored in the mobile terminal;

the air supply section executes a user air supply model corresponding to the user identity information, wherein the air supply section is formed by combining and arranging a plurality of air outlet grid plates which are mutually independent and movable.

In the prior art, when a user uses the tower fan every time, parameters such as the rotating speed gear, whether the tower fan swings and the like are readjusted, and related settings of the user on the tower fan cannot be stored; when a plurality of users use the tower fan at the same time, the setting of the tower fan can be adjusted only according to the requirement of one user, and the corresponding setting can not be carried out according to the requirement of the plurality of users at the same time, so that the control method of the tower fan in the prior art can not reach the air supply requirement of the users.

In order to solve the above technical problems, the present disclosure provides a control method for an intelligent air outlet device, which is suitable for an intelligent air outlet device having a plurality of independent air outlet panels, for example, an electric fan such as a tower fan/column floor fan having a plurality of independent movable air outlet panels and air supply parameters of each air outlet panel being set independently. Particularly, the intelligent air outlet equipment is provided with a plurality of mutually independent air outlet grids, namely, each air outlet grid is provided with a unit driving device, so that each air outlet grid can rotate around the rotating shaft of the intelligent air outlet equipment in a mutually independent mode.

Specifically, the mobile terminal in the air-supply area is searched first for obtaining the user identity information in the air-supply area, and then the air-supply grid plate or the air-supply section allocated to the corresponding user can execute the corresponding user air-supply model according to the user identity information. Specifically, the user identity information in the technical scheme refers to information which can be used for identifying the user identity, and can be the number of smart mobile phone equipment carried by the user, the number of the smart bracelet carried by the user, and the like; the user air supply model refers to air supply parameters of an air outlet grating plate or an air supply section formed according to historical setting data or using habit of a user, and the air supply parameters include, but are not limited to, air supply quantity, wind wheel rotating speed, air supply mode, air outlet form or air outlet range of the air outlet grating plate or the air supply section.

The air supply section is formed by combining and arranging a plurality of air outlet grid plates which are mutually independent and movable, and specifically, the technical scheme can be used for combining and arranging the air outlet grid plates, the air outlet grid plates are divided into the air supply sections, the air supply sections are respectively distributed to all users in an air supply area, and a user air supply model of the air supply section can be executed according to different user identity information.

It should be noted that, the combination arrangement of the plurality of air outlet grid plates refers to any one or more of the distribution modes of the number, the length or the sequence of the air supply sections. Specifically, in one embodiment of the present technical solution, the number of air supply sections may be determined according to the number of users in the air supply area, the length of the air supply sections may be determined according to the distance between the users and the intelligent air outlet device, or the order of the air supply sections may be determined according to the relative height of the users in the air supply area.

In another embodiment, any single air outlet grid plate in the intelligent air outlet device can be used as a separate air supply section, and each air outlet grid plate can be respectively distributed to each user in the air supply area, and the user air supply model of each air outlet grid plate can be executed according to different user identity information.

According to the intelligent air-out equipment control method provided by the technical scheme, the user behavior can be effectively predicted through self-learning of the user behavior habit, personalized control of the intelligent air-out equipment is realized, and the user satisfaction is improved.

It should be noted that, the intelligent air-out equipment control method for equipment linkage according to the technical scheme can be realized by the following intelligent air-out equipment, but is not limited to the structure of the intelligent air-out equipment.

An intelligent air-out device, as shown in fig. 4-5, comprising: the wind wheel 100, the wind wheel driving device 130, the wind guiding structure and the wind inlet and outlet array mechanism 140; the wind inlet and outlet array mechanism 140 includes: the air duct structure comprises a plurality of layers of air duct layer structures which are overlapped up and down and a driving mechanism for driving each layer of air duct layer structure to independently and horizontally rotate; the driving mechanism includes: a plurality of unit driving devices 400 installed independently and driving parts in transmission fit with the unit driving devices 400; the driving part is arranged on the air duct layer structure. The wind wheel 100 is vertically arranged and is in transmission connection with the wind wheel driving device 130; the wind guiding structure is arranged outside the wind wheel 100 and is used for guiding wind outside the wind wheel; the air inlet and outlet array mechanism 140 is covered on the outer side of the air guiding structure, and the unit driving device 400 is used for driving the air duct layer structure at the corresponding position to horizontally rotate relative to the air guiding structure. The air duct layer structure is annular, and is a layered structure formed by stacking multiple layers of air outlet grid plates 310 up and down, the lower surfaces of the air outlet grid plates 310 vertically extend downwards to form air duct plates 321, and a plurality of air duct plates 321 are distributed on the lower surfaces of the air outlet grid plates 310 in parallel.

In an embodiment of the present technical solution, the combination arrangement of the plurality of air outlet grating plates includes distributing the number of air supply sections, and the air outlet grating plates may be divided into an air supply section one, an air supply section two and an air supply section three, and the specific steps for implementing the segmentation are as follows: the intelligent air outlet device can identify that three users exist in the air-sending area according to the user information, then the intelligent air outlet device segments the air outlet grating plates 310 according to the number of the users, and segment information for dividing the air outlet grating plates 310 into three segments is generated. After the unit driving device 400 of the intelligent air outlet equipment acquires the sectional information, the air duct layer structure at the corresponding position is driven to horizontally rotate relative to the air guide structure, so that the air outlet grid plate 310 is divided into three air supply sections under the driving of the unit driving device 400. The sectional arrangement of the air outlet grating plate 310 enables the intelligent air outlet device to distribute the number of the air supply sections of the intelligent air outlet device, and the air supply section I, the air supply section II and the air supply section III can be independently rotated to different or same rotation angles, so that the realization of simultaneously meeting the air supply demands of multiple persons is possible.

Further described, the method further comprises the step of establishing a model:

storing user identity information and receiving setting data of a user on intelligent air outlet equipment;

And establishing a user air supply model corresponding to the user identity information according to the user identity information and the setting data of the user on the intelligent air outlet equipment.

Specifically, according to the technical scheme, firstly, a user air supply model is established according to user identity information of a user and setting data of intelligent air outlet equipment; the intelligent air-out equipment can conveniently identify the user in the air-out area through the user identity information by storing the user identity information of the user, wherein the user identity information used for identification can be the number of the intelligent mobile phone equipment carried by the user, the number of the intelligent hand ring worn by the user and the like, the setting data of the user on the intelligent air-out equipment are stored, the intelligent air-out equipment can conveniently form a user air-out model according to the use habit of the user, and when the user uses the intelligent air-out equipment again, the intelligent air-out equipment can effectively predict the user behavior according to the user air-out model, so that the personalized control of the intelligent air-out equipment is realized, and the user satisfaction is improved.

Then, when the user uses the intelligent air outlet device again, the intelligent air outlet device firstly acquires and judges whether the user identity information in the air supply area and the user identity information of the existing user air supply model are mutually matched, and when the user identity information is mutually matched, the air outlet grid plate or the air supply section executes the user air supply model corresponding to the user identity information.

Further described, the method further comprises the step of model matching:

and repeating the step of establishing the model when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

Because the use environment of the intelligent air-out equipment can be replaced by a user, the intelligent air-out equipment control method in the technical scheme is further provided with a model matching step in order to enable the intelligent air-out equipment to be quickly adapted to different use environments, so that the intelligent air-out equipment can be quickly adapted to different users.

Specifically, when the user identity information obtained by the intelligent air outlet device is not matched with the user identity information of the existing user air supply model, for example, the intelligent air outlet device detects that 3 pieces of user identity information are detected in the air supply area, wherein 2 pieces of user identity information are matched with the user identity information of the existing user air supply model, namely, a user A and a user B, respectively, and 1 piece of user identity information is not matched with the user identity information of the existing user air supply model, namely, a user C. The intelligent air outlet equipment air supply section A and the air supply section B are respectively distributed to the user A and the user B, the air supply section A executes a user air supply model of the user A, and the air supply section B executes a user air supply model of the user B; and the user C needs to build its own user air supply model.

Still further described, still include intelligent household equipment, intelligent household equipment with intelligent air-out equipment is connected, intelligent household equipment with intelligent air-out equipment carries out information interconnection, in order to receive the control command that intelligent air-out equipment sent, includes following steps:

acquiring target intelligent home equipment from intelligent home equipment;

and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

Further, the method further comprises the step of setting data:

receiving a data setting instruction sent by a mobile terminal;

acquiring target intelligent household equipment;

the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection;

and finishing the data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment.

When a user needs to set related parameters of the traditional tower fan or column fan, the user needs to press a key or touch a screen by himself/herself to the tower fan to realize corresponding control, which is not beneficial to the operation of the user.

In one embodiment of the technical scheme, the intelligent air-out equipment and the intelligent household equipment are communicated and interconnected, and data transmission among the equipment is utilized to replace a user to personally set and control the intelligent air-out equipment, so that the intelligent air-out equipment is convenient for the user to use.

Specifically, a user can firstly send a data setting instruction for parameter setting to the intelligent air-out equipment through the mobile terminal, then the intelligent air-out equipment obtains intelligent home equipment closest to the mobile terminal, namely target intelligent home equipment, according to the positions of the mobile terminal and the intelligent home equipment, and then the data setting instruction of the target intelligent home equipment is used for completing the data setting of the intelligent air-out equipment. For example, the user needs to set the intelligent air-out device, firstly, a setting instruction is sent to the intelligent air-out device through the smart phone, after the intelligent air-out device receives the instruction, the intelligent sweeping robot beside the user is the intelligent home device closest to the user, and after the intelligent air-out device and the intelligent sweeping robot are in communication interconnection, the user can finish data setting of the intelligent air-out device through a data setting prompt of the intelligent sweeping robot.

Further, in the present technical solution, the data setting of the intelligent air outlet device includes, but is not limited to, setting of an air volume, a wind wheel rotation speed, an air supply mode, an air outlet shape or an air outlet range of the air outlet grid plate or the air supply section. For example, the air supply mode of the intelligent air-out device may be set, for example, a strong mode or a soft mode, or the air supply mode of the intelligent air-out device may be set, for example, an alternate air supply mode, a spiral air supply mode, a direct air supply mode, or the like. When the intelligent air outlet equipment is correspondingly set on the target intelligent household equipment, the target intelligent household equipment can send prompt information of data setting, such as 'please set an air supply mode', and the like, to the user, and then the user completes setting of corresponding parameters according to the prompt information sent by the target intelligent household equipment, so that the operation is simple and convenient, and the use experience of the user is improved.

Further illustratively, the method further comprises the step of obtaining the target:

acquiring position information of a mobile terminal;

acquiring position information of intelligent household equipment in a blowing area;

establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment;

and analyzing and acquiring the intelligent home equipment closest to the position of the mobile terminal, namely the target intelligent home equipment, according to the identified positioning map.

According to the technical scheme, the mobile terminal and the intelligent home equipment in the air supply area are firstly obtained respectively, then a positioning map of the air supply area is established, and identification is carried out on the positioning map according to the position of the mobile terminal and the position of the intelligent home equipment, so that the target intelligent home equipment can be accurately obtained in positioning.

Further, the method also comprises a device linking step;

sending a connection establishment signal for establishing communication interconnection to target intelligent home equipment;

receiving a feedback signal sent by target intelligent home equipment;

when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment;

And when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

The intelligent household equipment in the actual life has programs which need to run, and each intelligent household equipment does not have an interconnection requirement for the intelligent household equipment in idle time response. Therefore, in order to ensure that the data setting instruction sent by the user is timely fed back, in one embodiment of the present technical solution, after the target smart home device is obtained, the smart air outlet device needs to send a connection establishment signal for establishing communication interconnection to the target smart home device.

When the establishment is successful, the target intelligent household equipment is in an idle running state at present, the interconnection requirement of the intelligent air outlet equipment can be responded, the intelligent air outlet equipment integrates the setting content of the intelligent air outlet equipment into a data setting instruction packet and sends the data setting instruction packet to the target intelligent household equipment, specifically, the data setting instruction packet can be the setting instruction information of the air supply mode of the intelligent air outlet equipment, and also can be the setting instruction information of related parameters of the intelligent air outlet equipment such as the air supply mode setting instruction of the intelligent air outlet equipment, so that the user can conveniently set the corresponding parameters according to the prompt of the setting instruction information.

The user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet, specifically, the setting can be completed through an input device of the target intelligent household equipment according to the prompt of the setting instruction information, and the input device of the target intelligent household equipment can be a key input device, a touch screen input device and the like;

after the user finishes setting, the target intelligent household equipment integrates the data setting of the user on the intelligent air outlet equipment into a data setting result package, and sends the data setting result package to the intelligent air outlet equipment, so that the intelligent air outlet equipment can conveniently establish a user air supply model according to the user identity information and the setting data of the data setting result package.

When the connection establishment fails, the target intelligent household equipment is in a working state at present, the interconnection requirement of the intelligent air-out equipment on the target intelligent household equipment cannot be responded, and after the intelligent air-out equipment marks the target intelligent household equipment, the intelligent household equipment re-analyzes and acquires another target intelligent household equipment until the target intelligent household equipment capable of being established is acquired.

Further illustratively, the method further comprises the step of adapting:

receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section;

Reestablishing a user air supply model according to the user identity information and the updated setting data;

and the air outlet grid plate or the air supply section executes the updated user air supply model.

In the actual use of the intelligent air outlet device, the condition that the air supply parameters need to be readjusted due to the temperature decrease of the air supply area may occur, at this time, the user can also update the setting data of the user on the intelligent air outlet device by sending an update setting instruction to the intelligent air outlet device, and reestablish the user air supply model. The user can reset the relevant data of the intelligent air-out equipment, so that the control system of the intelligent air-out equipment is closer to life.

Further described, the method further comprises the step of model optimization:

storing multiple setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user;

and establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the air supply parameters.

Because of different surrounding environments, the air supply requirements of users on the intelligent air outlet equipment are different, in the actual life, the situation that the local environment suddenly changes possibly occurs, the users have to adjust the parameters of the intelligent air outlet equipment, but the situation is only an accidental situation, and the adjusted parameters should not influence the daily use of the users.

In order to avoid the occurrence of such accidental situations, the technical scheme sets up a user air supply model by accumulating and calculating the set frequency of the user to the intelligent air outlet equipment data. For example, the intelligent air outlet device receives and records the settings about the air supply mode in the air supply parameters of the intelligent air outlet device, 8 times of the settings are set to be the soft mode, 2 times of the settings are set to be the strong mode, namely, the setting frequency of the soft mode is 80%, and the setting frequency of the strong mode is 20%, and according to the setting data of the highest setting frequency of the user to the intelligent air outlet device, the air supply mode output by the intelligent air outlet device is the soft mode when the user uses the intelligent air outlet device next time. The definition of the frequency is set, so that the intelligent air outlet device is more representative of a user air supply model formed according to the habit of the user, and the behavior of the user can be further predicted.

Further illustratively, the method further comprises the step of updating the model:

receiving and recording N times of setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user;

And calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

Due to the constant change of the ambient temperature, it is not possible for the system to record user setting data for each day, and the user air supply model generated according to the user setting data for each day predicts the user behavior habit, for example, in winter, the user setting data in summer should not be used as reference content of the user air supply model.

Thus, the system needs to set an update threshold for the user air supply model.

When the threshold value is updated, the system updates the user air supply model according to the rule of first-in first-out of the data, namely, the latest setting data of the user on the intelligent air outlet equipment is received and recorded, and the earliest setting data of the user on the intelligent air outlet equipment is deleted; calculating the setting frequency of the user to the intelligent air outlet equipment data according to the user identity information and the updated setting data, and updating the user air supply model; specifically, the update threshold value can be set by a developer of the intelligent air outlet equipment, a user can set the update threshold value of the user air supply model according to the instruction information of a user manual according to the actual condition of the user, the change rule of the ambient temperature can be better followed, the control logic of the intelligent air outlet equipment is better close to life, and the user experience is improved.

An intelligent air-out equipment control system which is characterized in that: the intelligent air-out device comprises a mobile terminal and intelligent air-out equipment, wherein the mobile terminal is connected with the intelligent air-out equipment through a communication network;

the mobile terminal is used for storing user identity information;

the system also comprises a user identity acquisition module, a storage module and a control module;

the user identity acquisition module is used for searching and acquiring user identity information in the air-sending area;

the storage module is used for storing a user air supply model corresponding to the user identity information;

the control module is used for distributing a user air supply model corresponding to the user identity information to the air outlet grid plates or the air supply sections to form execution information, and sending the execution information of each air outlet grid plate or each air supply section to the intelligent air outlet equipment;

the intelligent air outlet equipment comprises a plurality of air outlet grids which are mutually independent and movable, wherein the air outlet grids which are mutually independent and movable are combined and arranged to form an air supply section, and each air outlet grid or air supply section executes a user air supply model according to execution information.

The system further comprises a model building module and a model matching module;

the model building module is used for storing user identity information and receiving setting data of the intelligent air outlet equipment by a user; according to the user identity information and the setting data of the user on the intelligent air outlet equipment, establishing a user air supply model corresponding to the user identity information;

The model matching module is used for repeating the model building step when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

According to the intelligent air outlet equipment control system provided by the technical scheme, information interconnection is established through the mobile terminal and the intelligent air outlet equipment, and specifically, the mobile terminal can be a smart phone of a user, a portable intelligent bracelet and the like. Under the operation of a user, the storage module can call the relevant data setting record of the model building module to the user, which is favorable for the user to correspondingly adjust the mapping relation in the control system according to the change of the data setting record and the information such as the change of the environment, so that the control system of the air supply section of the intelligent air outlet equipment further improves the accuracy and pertinence.

The control module is used for identifying the user identity, searching whether the user identity information acquired by the acquisition module is matched with the user identity information of the user air supply model in the storage module, and when the user identity information is matched, determining the control code corresponding to the acquired user identity information according to the mapping relation between the intelligent air outlet equipment setting data and the control codes under each user air supply model, and transmitting the control code to the intelligent air outlet equipment for execution.

The model building module is used for receiving and screening user identity information and setting data of the intelligent air outlet equipment, and building a user air supply model of the intelligent air outlet equipment by a user, wherein the user air supply model refers to a mapping relation between the setting data of the intelligent air outlet equipment and control codes under different user identity information.

The intelligent household equipment is connected with the intelligent air outlet equipment;

the control module is also used for acquiring target intelligent household equipment from the intelligent household equipment; and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

The system further comprises a target acquisition module, an equipment connection module and a data setting module;

the data setting module is used for receiving a data setting instruction sent by the mobile terminal; acquiring target intelligent household equipment; the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection; completing data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment;

the target acquisition module is used for acquiring the position information of the mobile terminal; acquiring position information of intelligent household equipment in a blowing area; establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment; according to the identified positioning map, analyzing and acquiring intelligent home equipment closest to the position of the mobile terminal, namely target intelligent home equipment;

The device connection establishment module is used for sending connection establishment signals for establishing communication interconnection to the target intelligent home devices; receiving a feedback signal sent by target intelligent home equipment; when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment; and when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

Further, the system also comprises an adaptation module, a model optimization module and a model updating module;

the adaptation module is used for receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section; reestablishing a user air supply model according to the user identity information and the updated setting data; the updated user air supply model is executed by the air outlet grid plate or the air supply section;

The module optimizing module is used for storing the multiple setting data of the air supply parameters of the air outlet grating plate or the air supply section; the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user; establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the intelligent air outlet equipment;

the model updating module is used for receiving and recording N times of setting data of air supply parameters of the air outlet grid plate or the air supply section by a user; when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user; and calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

A computer readable storage medium, on which an intelligent air outlet device air supply section control program is stored, wherein the intelligent air outlet device air supply section control program realizes the steps of the intelligent air outlet device control method when being executed by a processor.

The technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (16)

1. The intelligent air outlet equipment control method comprises a mobile terminal and intelligent air outlet equipment, wherein the mobile terminal is connected with the intelligent air outlet equipment through a communication network; the air duct layer structure is annular and is a layered structure formed by stacking a plurality of layers of air outlet grid plates up and down;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable, and the intelligent air outlet equipment control method comprises the following steps:

searching a mobile terminal in a wind sending area to acquire user identity information stored in the mobile terminal;

The air outlet grating plates or the air supply sections execute a user air supply model corresponding to user identity information, wherein the air supply sections are air supply sections formed by combining and arranging a plurality of air outlet grating plates which are mutually independent and movable, the combined arrangement of the plurality of air outlet grating plates refers to the combination of any one or more distribution modes in the number, the length or the sequence of the air supply sections, the user air supply model refers to the air supply parameters of the air outlet grating plates or the air supply sections formed according to historical setting data or using habits of users, and the air supply parameters comprise the air supply quantity, the wind wheel rotating speed, the air supply mode, the air outlet form or the combination of any one or more distribution modes in the air outlet range of the air outlet grating plates or the air supply sections.

2. The intelligent air-out equipment control method according to claim 1, further comprising a model building step of:

storing user identity information and receiving setting data of a user on intelligent air outlet equipment;

and establishing a user air supply model corresponding to the user identity information according to the user identity information and the setting data of the user on the intelligent air outlet equipment.

3. The intelligent air-out equipment control method according to claim 2, further comprising a model matching step:

And repeating the step of establishing the model when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

4. The method for controlling an intelligent air-out device according to claim 2, further comprising an intelligent home device, wherein the intelligent home device is connected with the intelligent air-out device, and the intelligent home device is in information interconnection with the intelligent air-out device, and the method is characterized by comprising the following steps:

acquiring target intelligent home equipment from intelligent home equipment;

and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

5. The intelligent air-out equipment control method according to claim 4, further comprising the step of data setting:

receiving a data setting instruction sent by a mobile terminal;

acquiring target intelligent household equipment;

the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection;

and finishing the data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment.

6. The intelligent air-out equipment control method according to claim 5, further comprising the step of obtaining a target:

acquiring position information of a mobile terminal;

Acquiring position information of intelligent household equipment in a blowing area;

establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment;

and analyzing and acquiring the intelligent home equipment closest to the position of the mobile terminal, namely the target intelligent home equipment, according to the identified positioning map.

7. The intelligent air-out equipment control method according to claim 5, wherein: the method also comprises a device establishment step;

sending a connection establishment signal for establishing communication interconnection to target intelligent home equipment;

receiving a feedback signal sent by target intelligent home equipment;

when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment;

and when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

8. The intelligent air-out equipment control method according to claim 2, further comprising an adaptation adjustment step:

receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section;

reestablishing a user air supply model according to the user identity information and the updated setting data;

and the air outlet grid plate or the air supply section executes the updated user air supply model.

9. The intelligent air-out equipment control method according to claim 2, further comprising a model optimization step:

storing multiple setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user;

and establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the air supply parameters.

10. The intelligent air-out equipment control method according to claim 2, further comprising a model updating step of:

receiving and recording N times of setting data of air supply parameters of a user on an air outlet grid plate or an air supply section;

when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user;

And calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

11. An intelligent air-out equipment control system which is characterized in that: the method for realizing the intelligent air-out equipment control method according to any one of claims 1-10, comprising a mobile terminal and intelligent air-out equipment, wherein the mobile terminal is connected with the intelligent air-out equipment through a communication network;

the mobile terminal is used for storing user identity information;

the system also comprises a user identity acquisition module, a storage module and a control module;

the user identity acquisition module is used for searching and acquiring user identity information in the air-sending area;

the storage module is used for storing a user air supply model corresponding to the user identity information;

the control module is used for distributing a user air supply model corresponding to the user identity information to the air outlet grid plates or the air supply sections to form execution information, and sending the execution information of each air outlet grid plate or each air supply section to the intelligent air outlet equipment;

the intelligent air outlet equipment comprises a plurality of air outlet grids which are mutually independent and movable, wherein the air outlet grids which are mutually independent and movable are combined and arranged to form an air supply section, and each air outlet grid or air supply section executes a user air supply model according to execution information.

12. The intelligent air-out plant control system of claim 11, wherein: the system also comprises a model building module and a model matching module;

the model building module is used for storing user identity information and receiving setting data of the intelligent air outlet equipment by a user; according to the user identity information and the setting data of the user on the intelligent air outlet equipment, establishing a user air supply model corresponding to the user identity information;

the model matching module is used for repeating the model building step when the acquired user identity information is not matched with the user identity information of the existing user air supply model.

13. The intelligent air-out appliance control system of claim 12, further comprising an intelligent home appliance, wherein the intelligent home appliance is connected to the intelligent air-out appliance:

the control module is also used for acquiring target intelligent household equipment from the intelligent household equipment; and setting data of the intelligent air outlet equipment through the target intelligent household equipment.

14. The intelligent air-out plant control system of claim 13, wherein: the system also comprises a target acquisition module, an equipment connection establishment module and a data setting module;

The data setting module is used for receiving a data setting instruction sent by the mobile terminal; acquiring target intelligent household equipment; the intelligent air outlet equipment and the target intelligent household equipment are in communication interconnection; completing data setting of the intelligent air outlet equipment according to the data setting prompt of the target intelligent home equipment;

the target acquisition module is used for acquiring the position information of the mobile terminal; acquiring position information of intelligent household equipment in a blowing area; establishing a positioning map of the air supply area, and marking the positions of the mobile terminal and the intelligent household equipment; according to the identified positioning map, analyzing and acquiring intelligent home equipment closest to the position of the mobile terminal, namely target intelligent home equipment;

the device connection establishment module is used for sending connection establishment signals for establishing communication interconnection to the target intelligent home devices; receiving a feedback signal sent by target intelligent home equipment; when the establishment is successful, integrating the set content of the intelligent air outlet equipment data into a data set instruction packet, and sending the data set instruction packet to the target intelligent household equipment; the user completes the data setting of the intelligent air outlet equipment on the target intelligent household equipment according to the data setting instruction packet; integrating the data setting of the intelligent air-out equipment by the user into a data setting result package by the target intelligent home equipment, and sending the data setting result package to the intelligent air-out equipment; and when the connection establishment fails, the original target intelligent home equipment is marked and then is re-analyzed, and another target intelligent home equipment is obtained.

15. The intelligent air-out plant control system of claim 12, wherein: the system also comprises an adaptation module, a model optimization module and a model updating module;

the adaptation adjustment module is used for receiving an update setting instruction sent by a user in real time, and recording and updating setting data of the user on the air outlet grid plate or the air supply section; reestablishing a user air supply model according to the user identity information and the updated setting data; the updated user air supply model is executed by the air outlet grid plate or the air supply section;

the model optimization module is used for storing the multiple setting data of the air supply parameters of the air outlet grid plate or the air supply section; the method comprises the steps of accumulating and calculating the setting frequency of setting data of the same air supply parameter by a user; establishing a user air supply model according to the user identity information and the setting data with highest setting frequency in the air supply parameters;

the model updating module is used for receiving and recording N times of setting data of air supply parameters of the air outlet grid plate or the air supply section by a user; when the threshold value is updated, receiving and recording the latest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grating plate or the air supply section by the user; and calculating the setting frequency of the user on the setting data of the same air supply parameter according to the user identity information and the updated setting data, and updating the user air supply model.

16. A computer-readable storage medium, characterized by: the computer readable storage medium stores an intelligent air outlet device air supply section control program, which when executed by a processor, implements the steps of an intelligent air outlet device control method according to any one of claims 1-10.