CN111425443B - Control method and system of intelligent air outlet equipment and computer readable storage medium - Google Patents

Abstract

The invention discloses a control method of intelligent air outlet equipment, which comprises the following steps: acquiring user information in a wind supply area; and the air outlet grid plate or the air supply section executes a user air supply model corresponding to the user information, wherein the air supply section is formed by combining and arranging a plurality of air outlet grid plates which are independent and movable. According to the control method of the intelligent air outlet equipment, the user behavior is effectively predicted through self-learning of the user behavior habit, personalized control over the intelligent air outlet equipment is achieved, and the user satisfaction degree is improved. Furthermore, the control system of the intelligent air outlet equipment is simple in control method and high in intelligent degree, so that the defects in the prior art are overcome. In addition, a computer-readable storage medium is provided, which stores a control program of an air supply section of the intelligent air-out device, so that the terminal device can execute the control method of the intelligent air-out device of the present invention.

Description

Control method and system of intelligent air outlet equipment and computer readable storage medium

Technical Field

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

Background

At present, conventional tower fans in the market mostly have air outlet in a single direction, the air supply range is small, even the tower fans can automatically swing left and right, the air supply range of the tower fans is enlarged, and the air supply angle is changed, but the tower fans are of an integrated structure, so that the air supply direction is relatively fixed, and further the air supply direction of the tower fans cannot be cut as required, and therefore the air supply direction of the tower fans is adjusted. Therefore, the air supply mode of the tower fan is limited, and the air supply requirement of multiple persons cannot be met simultaneously.

Furthermore, in the prior art, the tower fan needs to readjust parameters such as the rotating speed and the gear of the tower fan, whether the tower fan swings, and the like when the tower fan is used by a user every time, and the 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 only be adjusted according to the requirement of one user, and the corresponding setting can not be carried out according to the requirements of a plurality of users at the same time, so that the control method of the tower fan in the prior art can not meet the air supply requirement of the users.

Disclosure of Invention

The invention aims to provide a control method of intelligent air outlet equipment, which effectively predicts user behaviors through self-learning of user behavior habits, realizes individualized control of the intelligent air outlet equipment and improves user satisfaction.

The invention also aims to provide a control system of the intelligent air outlet equipment, which has the advantages of simple control method and high intelligent degree, so as to overcome the defects in the prior art.

Another objective of the present invention is to provide a computer-readable storage medium, which stores a control program for an air supply section of an intelligent air-out device, so that a terminal device can execute the control method for the intelligent air-out device according to the present invention.

In order to achieve the purpose, the invention adopts the following technical scheme:

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

acquiring user information in a wind supply area;

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

Preferably, the method further comprises the following model establishing step:

storing user information and receiving set data of a user on the intelligent air outlet equipment;

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

Preferably, the method further comprises a model building step:

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

Preferably, the method comprises the following data setting steps:

collecting a specific input instruction of a user as a set instruction template of the user;

sending a reminding signal set by data to a user;

acquiring a current input instruction of a user, and judging whether the current input instruction of the user is matched with a specific input instruction;

and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

Preferably, the method further comprises the following steps of:

receiving an updating setting instruction sent by a user in real time, and recording and updating setting data of the user;

updating a corresponding user air supply model under the user information according to the user information and the updated set data;

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

Preferably, the method further comprises the following model optimization steps:

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

accumulating and calculating the set frequency of the user to the set data of the same air supply parameter;

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

Preferably, the method further comprises the step of updating the model:

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

when N is larger than the update threshold, receiving and recording the latest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user;

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

Preferably, the different types of user information are acquired by at least two acquisition modes.

Preferably, the method comprises the following steps of:

acquiring at least two types of user information;

acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not;

and if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information.

Preferably, the method comprises the following information combination steps:

obtaining identity recognition results obtained by different types of user information;

analyzing by combining different identity recognition results;

if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity;

and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

A control system of intelligent air outlet equipment comprises a user information acquisition module, a control module, a storage module and the intelligent air outlet equipment;

the user information acquisition module is used for acquiring user information in the air supply area;

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

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

the intelligent air outlet equipment comprises a plurality of air outlet grid plates which are independent from each other and move, the air outlet grid plates which are independent from each other and move are combined and arranged to form an air supply section, and each air outlet grid plate or each air supply section executes a respective user air supply model according to execution information.

Preferably, the method further comprises a model building module and a model building module:

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

and the model new building module is used for executing the model building step when the acquired user information is not matched with the user information of the existing user air supply model.

Preferably, the model building module further comprises a data setting unit:

the data setting unit is used for acquiring a specific input instruction of a user as a setting instruction template of the user; sending a reminding signal set by data to a user; collecting a current input instruction of a user; judging whether the current input instruction of the user is matched with the specific input instruction; and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

Preferably, the system further comprises an adaptation adjusting module, a model optimizing module and a model updating module:

the adaptive adjustment module is used for receiving an update setting instruction sent by a user in real time, and recording and updating the setting data of the user; updating a corresponding user air supply model under the user information according to the user information and the updated set data; the air outlet grid plate or the air supply section executes the updated air supply model of the user;

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

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

Preferably, the system further comprises an information screening module and/or an information combining module:

the information screening module is used for acquiring at least two types of user information; acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not; if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information;

the information combination module is used for acquiring identity recognition results obtained by different types of user information; analyzing by combining different identity recognition results; if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity; and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

A computer readable storage medium is provided, and an intelligent air outlet device air supply section control program is stored on the computer readable storage medium, and when the intelligent air outlet device air supply section control program is executed by a processor, the steps of the control method of the intelligent air outlet device are realized.

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

Drawings

The drawings are further illustrative of the invention and the content of the drawings does not constitute any limitation of the invention.

Fig. 1 is a flowchart of a control method of an intelligent air outlet device according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent air outlet device in an embodiment of a control method of the intelligent air outlet device according to the present invention.

Fig. 3 is a vertical sectional view of the intelligent air outlet device in fig. 2.

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

Wherein: the wind wheel 100, the wind wheel driving device 130, the wind inlet and outlet array mechanism 140, the unit driving device 400, the air outlet grid plate 310 and the air duct plate 321.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

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

acquiring user information in a wind supply area;

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

In the prior art, the rotating speed gear, whether the tower fan swings and other parameters of the tower fan need to be adjusted again when a user uses the tower fan each time, and the 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 only be adjusted according to the requirement of one user, and the corresponding setting can not be carried out according to the requirements of a plurality of users at the same time, so that the control method of the tower fan in the prior art can not meet the air supply requirement of the users.

In order to solve the above technical problem, the control method of the intelligent air outlet device provided in the technical scheme is suitable for an intelligent air outlet device provided with a plurality of independent air outlet grid plates, for example, a tower fan/column-shaped floor fan and other electric fans which are provided with a plurality of independent movable air outlet grid plates and have independent air supply parameters of the air outlet grid plates. Particularly, this intelligence air-out equipment is equipped with a plurality of air-out grid plates of mutual independence, and every air-out grid plate all is equipped with unit drive arrangement promptly, makes every air-out grid can realize mutual independence rotation around the pivot of intelligence air-out equipment.

Specifically, according to the technical scheme, the user information in the air supply area is obtained firstly, and then the air outlet grid plate or the air supply section which is distributed to the corresponding user executes the corresponding user air supply model according to the user information. Specifically, the user information in the present technical solution refers to information that can be used for identifying the identity of the user, and may be, for example, unique feature information such as voice information, facial feature information, fingerprint information, and posture feature information of the user, and further, for example, the user information may refer to specific identification information such as a gesture, an action, or a posture that is input by the user in advance and used for identity identification. The user air supply model refers to air supply parameters of the air outlet grid plate or the air supply section formed according to historical set data or use habits of users, and the air supply parameters include but are not limited to air supply quantity of the air outlet grid plate or the air supply section, wind wheel rotating speed, air supply mode, air outlet form or air outlet range.

The air supply section is formed by combining and arranging a plurality of air outlet grid plates which are independent from each other, specifically, the air supply section can be formed by combining and arranging the air outlet grid plates firstly, the air outlet grid plates are divided into the air supply section, the air supply section is respectively distributed to each user in an air supply area, and a user air supply model of the air supply section can be executed according to user identities corresponding to different user information.

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

In another embodiment, any single air outlet grid plate in the intelligent air outlet device may also serve as an independent air supply section, and each air outlet grid plate may also be respectively allocated to each user in the air supply area, and the user air supply model of each air outlet grid plate may be executed according to the user identities corresponding to different user information.

According to the control method for the intelligent air outlet equipment, the user behavior can be effectively predicted through self-learning of the user behavior habit, personalized control over the intelligent air outlet equipment is achieved, and the user satisfaction degree is improved.

It should be noted that, in the technical solution, the control method of the intelligent air outlet device may be implemented by the following intelligent air outlet device, but is not limited to the structure of the intelligent air outlet device.

The utility model provides an intelligence air-out equipment, as shown in fig. 2-3, includes: the wind wheel 100, the wind wheel driving device 130, the wind guide structure and the wind inlet and outlet array mechanism 140; the air inlet and outlet array mechanism 140 includes: the air duct structure comprises a plurality of layers of air duct layer structures which are stacked up and down and a driving mechanism for driving each layer of air duct layer structure to independently rotate horizontally; the drive mechanism includes: a plurality of unit driving devices 400 independently installed 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 guide structure is arranged on the outer side of the wind wheel 100 and used for guiding wind on the outer side of the wind wheel; the air inlet and outlet array mechanism 140 is covered on the outer side of the air guide 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 guide structure. The air duct layer structure is annular and is a layered structure formed by overlapping a plurality of 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 outlet duct plates 321, and a plurality of air outlet 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 combined arrangement of the plurality of air outlet grid plates includes distributing the number of the air supply sections, the air outlet grid 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 of implementing the segmentation are as follows: the intelligent air outlet device can recognize that three users exist in the air supply area according to the user information, and then the intelligent air outlet device segments the air outlet grid plates 310 according to the number of the users to generate segmented information for dividing the plurality of air outlet grid plates 310 into three segments. After the unit driving device 400 of the intelligent air outlet device acquires the segmentation 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 segmentation setting of air-out grid tray 310 makes this technical scheme distribute through the air supply section quantity to intelligent air-out equipment, and air supply section one, air supply section two and air supply section three can rotate to different or the same turned angle alone, makes the realization that satisfies many people's air supply demand simultaneously possible.

Further, the method also comprises the following model establishing steps:

storing user information and receiving set data of a user on the intelligent air outlet equipment;

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

Specifically, according to the technical scheme, a user air supply model can be established according to user information and set data of the intelligent air outlet equipment; the intelligent air-out equipment can conveniently identify the user in the air-out area through the user information, set data of the user on the intelligent air-out equipment is stored, the intelligent air-out equipment can conveniently form a user air supply model according to the use habit of the user, 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 supply model, the personalized control of the intelligent air-out equipment is realized, and the user satisfaction degree 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 information in the air supply area is matched with the user information of the existing user air supply model, and when the user information is matched with each other, the air outlet grid plate or the air supply section executes the user air supply model corresponding to the user information.

Further, the method also comprises a model building step:

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

Because the service environment of intelligent air-out equipment probably appears user's change, for making it can adapt to different service environments fast, the control method of intelligent air-out equipment in this technical scheme has still add the new step of model, makes intelligent air-out equipment can make fast adaptation when facing different users.

Specifically, when the user information acquired by the intelligent air outlet device is not matched with the user information of the existing user air supply model, for example, the intelligent air outlet device detects that 3 pieces of user information are detected in the air supply region, wherein 2 pieces of user information are matched with the user information of the existing user air supply model and are respectively a user a and a user B, and 1 piece of user information is not matched with the user information of the existing user air supply model and is a user C. The air supply section A and the air supply section B of the intelligent air-out equipment 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 user C needs to build its own user blowing model.

Further, the method comprises the following data setting steps:

collecting a specific input instruction of a user as a set instruction template of the user;

sending a reminding signal set by data to a user;

acquiring a current input instruction of a user, and judging whether the current input instruction of the user is matched with a specific input instruction;

and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

In an embodiment of the present technical solution, data setting may be performed on the intelligent air outlet device by using a manner of issuing a specific input instruction, specifically, the specific input instruction refers to an input instruction issued by a user, which can be responded by the intelligent air outlet device, for example, a voice input instruction, a gesture input instruction, or an action input instruction. The setting of relevant air supply parameters of the intelligent air-out equipment is realized by utilizing the specific input instruction, the convenience is brought to users greatly, the users do not need to go to the position of the tower fan in person to press keys or touch a screen to realize corresponding control like the control of the traditional tower fan, the intelligent air-out equipment can be easily controlled only by speaking or making specific gestures or actions, the operation is simple and convenient, and the improvement of the use experience of the users is facilitated.

Specifically, in an embodiment of the present technical solution, an option of "cross-hands" gesture represents "no" and an option of "loop with two hands" gesture represents "yes" may be collected according to a habit of a user, and are used as a setting instruction template of the user; when the intelligent air outlet device sends a reminding signal of data setting to a user, for example, the intelligent air outlet device sends a reminding signal of whether to set an air supply mode or not, or whether the air supply mode is set to a powerful mode or not, the user can select yes or no by 'two-hand crossing' or 'two-hand looping', then the intelligent air outlet device receives and identifies a specific input instruction sent by the user, and if the specific input instruction is matched with a specific input instruction in a setting instruction template, a setting instruction corresponding to the specific input instruction is executed. In the above practical situation, because the habit actions of different users are different, the technical scheme can collect the specific gestures of different users and store the gestures as the set instruction templates of a plurality of users, thereby fully considering the action habits of different user types and fully embodying the individuation of the users. Then, the intelligent air outlet equipment sends a reminding signal of data setting to the user, receives and identifies a setting instruction sent by the user, effectively improves the operability of the data setting, and has high intelligent degree.

Further, the method also comprises the following steps of:

receiving an updating setting instruction sent by a user in real time, and recording and updating setting data of the user;

updating a corresponding user air supply model under the user information according to the user information and the updated set data;

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

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

Further, the method also comprises the following model optimization steps:

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

accumulating and calculating the set frequency of the user to the set data of the same air supply parameter;

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

Due to the fact that the ambient environments are different, air supply requirements of users on the intelligent air outlet device are also different, in actual life, the situation that the local environment changes suddenly may occur, and the users have to adjust the parameters of the intelligent air outlet device, but the situation is only an accidental situation, and the adjusted parameters should not affect daily use of the users.

In order to avoid such an accidental situation, the technical scheme sets a mode of building a user air supply model by cumulatively calculating the setting frequency of the setting data of the same air supply parameter by the user. For example, the intelligent air outlet device receives and records the setting of the air supply mode in the air supply parameters of the intelligent air outlet device by the user, 8 times of the 10 times of setting are set as the soft mode, and 2 times of setting are set as the strong mode, that is, the set frequency of the soft mode is 80%, and the set frequency of the strong mode is 20%, then according to the set data with the highest set frequency in the intelligent air outlet device by the user, when the user uses the intelligent air outlet device next time, the air supply mode output by the intelligent air outlet device is the soft mode. The definition of the frequency is set, so that the intelligent air outlet equipment has more representativeness according to a user air supply model formed by user habits, and the behavior of the user can be further predicted.

It should be noted that the air supply parameters include, but are not limited to, the air output of the air outlet grid plate or the air supply section, the rotation speed of the wind wheel, the air supply mode, the air outlet form or the air outlet range, and the like.

Further, the method also comprises the step of updating the model:

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

when N is larger than the update threshold, receiving and recording the latest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user;

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

Due to the continuous change of the environmental temperature, the system cannot record the user setting data every day, and the user air supply model generated according to the user setting data every day is used for predicting the user behavior habit, for example, the user setting data in summer should not be used as the reference content of the user air supply model in winter.

Therefore, the system needs to set an update threshold for the user's blowing model.

When N is greater than the update threshold, the system updates the air supply model of the user according to the rule of data first-in first-out, namely receives and records the latest set data of the air supply parameters of the user, and deletes the earliest set data of the air supply parameters of the user; according to the user information and the updated set data, calculating the set frequency of the user to the set data of the same air supply parameter, and updating the air supply model of the user; specifically, the update threshold value can be set for the developer of intelligent air-out equipment, and the user can set for the update threshold value of user's air supply model according to user manual's indicating information according to the actual conditions of self, can follow ambient temperature's change law better, makes the control logic of intelligent air-out equipment better press close to life, improves user experience.

Further, different types of user information are obtained by at least two obtaining methods.

In an embodiment of the present technical solution, the user information may refer to specific identification information, such as a gesture, an action, or a posture, which is pre-entered by a user and used for identity identification, but a situation that different users make the same specific identification information may occur in an air supply area, which may cause the intelligent air outlet device not to correctly identify the identity of the user, and therefore, the air outlet grating or the air supply section assigned to the user may not be accurately enabled to execute a corresponding user air supply model.

In order to avoid the above situation, the technical scheme further defines that the user information of different types is obtained through at least two obtaining modes, so as to increase the accuracy of the intelligent air outlet equipment for identifying the user identity. Specifically, the user information may be unique feature information such as voice information, facial feature information, fingerprint information, posture feature information, and the like of the user, or may be specific identification information such as a gesture, an action, or a posture for identity identification, which is previously entered by the user.

More specifically, the obtaining of the user information includes, but is not limited to, obtaining infrared information of the air supply area by means of infrared detection, obtaining image information of the air supply area by means of real-time photographing, obtaining voice information of the user by means of voice recognition, collecting physiological characteristic information of the user by means of an intelligent wearable device or obtaining three-dimensional space information in the air supply area by means of structured light scanning, and then extracting unique characteristic information and/or specific identification information from the detection information for identification of identity.

Further, the method comprises the following steps of:

acquiring at least two types of user information;

acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not;

and if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information.

Different kinds of user information have different detection characteristics and advantages, but if a user air supply model to be executed corresponding to the air outlet grid plate or the air supply section is distributed by using single user information, the accuracy of the distribution result is obviously lower, and if the air outlet grid plate or the air supply section executes the user air supply model according to the wrong distribution result, the use satisfaction of users is greatly reduced.

Therefore, in the technical scheme, the user information includes but is not limited to unique feature information such as voice information, facial feature information, fingerprint information, posture feature information and the like of the user, and also includes specific identification information such as gestures, actions or postures which are pre-input by the user and used for identity identification, and at least two different types of user information are obtained to analyze and obtain the user air supply model which is correspondingly executed by the air grid plate or the air supply section, so that the accuracy of the distribution result is improved.

Specifically, in an embodiment of the present disclosure, the user information may include a unique feature information and a specific identification information. Assuming that the user may be the first user and the second user by the intelligent air-out device according to the specific gesture acquired in the air supply area, and the user is the first user by the intelligent air-out device according to the acquired voice information in the air supply area, obviously, the identification results acquired by the two types are different, at this time, the unique characteristic information with higher identification accuracy can be used as default reference information, so that the air outlet grid plate or the air supply section executes the corresponding user air supply model according to the identification result of the default reference information, that is, the air outlet grid plate or the air supply section executes the user air supply model of the first user.

Specifically, in another embodiment of the present disclosure, the user information may include two specific identification information. Assuming that the user may be the first user and the second user according to the specific gesture acquired in the air supply area, and the user is the first user according to the specific motion acquired in the air supply area, obviously, the identity recognition results acquired by the two types are different, and at this time, the specific motion information with higher difficulty of the specific recognition information can be used as default reference information, so that the air outlet grid plate or the air supply section executes the corresponding user air supply model according to the identity recognition result of the default reference information, that is, the air outlet grid plate or the air supply section executes the user air supply model of the first user.

It should be noted that the default reference information may be selected by the intelligent air outlet device according to the detection characteristics and advantages of different user information, or may be set by the user.

Further, the method comprises the following information combination steps:

obtaining identity recognition results obtained by different types of user information;

analyzing by combining different identity recognition results;

if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity;

and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

Specifically, in an embodiment of the present disclosure, the user information may include two kinds of specific identification information. Assuming that the intelligent air outlet device recognizes that the user may be the first user and the second user according to the specific gesture obtained in the air supply area, and the intelligent air outlet device recognizes that the user is the first user, the second user and the third user according to the obtained specific action in the air supply area, obviously, the two types of respectively obtained identity recognition results have overlapped identity recognition results as the first user and the second user, and at this time, in order to avoid repeated allocation of the same user identity, the identity recognition result of the overlapped part needs to be deleted to obtain non-overlapped user identities, so that the air outlet grid plate or the air supply section executes corresponding user air supply models according to the non-overlapped user identities, namely, the air outlet grid plate or the air supply section executes the user air supply models of the first user, the second user and the third user.

A control system of intelligent air outlet equipment comprises a user information acquisition module, a control module, a storage module and the intelligent air outlet equipment;

the user information acquisition module is used for acquiring user information in the air supply area;

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

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

the intelligent air outlet equipment comprises a plurality of air outlet grid plates which are independent from each other and move, the air outlet grid plates which are independent from each other and move are combined and arranged to form an air supply section, and each air outlet grid plate or each air supply section executes a respective user air supply model according to execution information.

Further, the system also comprises a model building module and a model building module:

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

and the model new building module is used for executing the model building step when the acquired user information is not matched with the user information of the existing user air supply model.

According to the control system of the intelligent air outlet equipment, under the operation of a user, the storage module can call the relevant data setting record of the model building module for the user, the change of the record is favorably set by the user according to the data, the mapping relation in the control system is correspondingly adjusted by combining information such as the change of the environment, and the accuracy and the pertinence of the control system of the intelligent air outlet equipment are further improved.

And the control module identifies the user identity by using the user information, determines the control code corresponding to the acquired user information according to the mapping relation between the set data of the intelligent air-out equipment and the control code under each user air-supply model when the user information is matched, and sends the control code to the intelligent air-out equipment for execution.

The model establishing module is used for receiving and screening user information and setting data of the intelligent air outlet equipment and establishing 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 information.

To be further described, the model building module further includes a data setting unit:

the data setting unit is used for acquiring a specific input instruction of a user as a setting instruction template of the user; sending a reminding signal set by data to a user; collecting a current input instruction of a user; judging whether the current input instruction of the user is matched with the specific input instruction; and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

Further, the system comprises an adaptation adjusting module, a model optimizing module and a model updating module:

the adaptive adjustment module is used for receiving an update setting instruction sent by a user in real time, and recording and updating the setting data of the user; updating a corresponding user air supply model under the user information according to the user information and the updated set data; the air outlet grid plate or the air supply section executes the updated air supply model of the user;

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

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

Further, the system also comprises an information screening module and/or an information combining module:

the information screening module is used for acquiring at least two types of user information; acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not; if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information;

the information combination module is used for acquiring identity recognition results obtained by different types of user information; analyzing by combining different identity recognition results; if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity; and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

In the technical scheme, the user information acquisition module, the storage module, the control module, the model establishment module, the model new establishment module, the adaptation adjustment module, the model optimization module and the model update module can be arranged on the intelligent air outlet device or the communication terminal, communication connection can be achieved between the intelligent air outlet device and the communication terminal, and particularly, the communication terminal can be other household appliance devices and the like except the intelligent air outlet device in a mobile phone or an intelligent household appliance.

A computer readable storage medium is provided, and an intelligent air outlet device air supply section control program is stored on the computer readable storage medium, and when the intelligent air outlet device air supply section control program is executed by a processor, the steps of the control method of the intelligent air outlet device are realized.

The technical solution of the present invention or the portions that contribute to the prior art can be embodied in the form of a software product, where the computer software product is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) as described above, and includes several instructions for enabling a terminal device (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (16)

1. The control method of the intelligent air outlet equipment is characterized in that the intelligent air outlet equipment comprises a wind wheel, a wind wheel driving device, a wind guide structure and an air inlet and outlet array mechanism, wherein the air inlet and outlet array mechanism comprises a plurality of layers of air duct layer structures which are stacked up and down and a driving mechanism for driving each layer of air duct layer structure to independently and horizontally rotate; the air duct layer structure is annular and is a layered structure formed by overlapping a plurality of layers of air outlet grid plates from top to bottom;

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

acquiring user information in a wind supply area;

the air supply section is formed by combining and arranging a plurality of air outlet grating plates which are independent from each other and move, the combined arrangement of the air outlet grating plates refers to the combination of any one or more distribution modes in the number, length or sequence of the air supply section, the air supply model of the user refers to the air supply parameters of the air outlet grating plates or the air supply section formed according to the historical setting data or the use habit of the user, and the air supply parameters comprise any one of the air outlet form and the air outlet range of the air outlet grating plates or the air supply section.

2. The control method of the intelligent air outlet device according to claim 1, further comprising the step of establishing a model:

storing user information and receiving set data of a user on the intelligent air outlet equipment;

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

3. The control method of the intelligent air outlet device according to claim 2, further comprising a model building step:

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

4. The control method of the intelligent air outlet device according to claim 2, comprising the data setting step of:

collecting a specific input instruction of a user as a set instruction template of the user;

sending a reminding signal set by data to a user;

acquiring a current input instruction of a user, and judging whether the current input instruction of the user is matched with a specific input instruction;

and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

5. The control method of the intelligent air outlet device according to claim 1, further comprising an adaptive adjustment step:

receiving an updating setting instruction sent by a user in real time, and recording and updating setting data of the user;

updating a corresponding user air supply model under the user information according to the user information and the updated set data;

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

6. The control method of the intelligent air outlet device according to claim 1, further comprising a model optimization step:

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

accumulating and calculating the set frequency of the user to the set data of the same air supply parameter;

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

7. The control method of the intelligent air outlet device according to claim 1, further comprising a model updating step:

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

when N is larger than the update threshold, receiving and recording the latest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user, and deleting the earliest setting data of the air supply parameters of the air outlet grid plate or the air supply section by the user;

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

8. The control method of the intelligent air outlet device according to claim 1, characterized in that: different types of user information are acquired through at least two acquisition modes.

9. The control method of the intelligent air outlet device according to claim 8, comprising the information screening step of:

acquiring at least two types of user information;

acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not;

and if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information.

10. The control method of the intelligent air outlet device according to claim 8, comprising the information combining step of:

obtaining identity recognition results obtained by different types of user information;

analyzing by combining different identity recognition results;

if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity;

and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

11. The control system of the intelligent air outlet equipment is characterized by being used for realizing the control method of the intelligent air outlet equipment according to any one of claims 1 to 10, and comprising a user information acquisition module, a control module, a storage module and the intelligent air outlet equipment;

the user information acquisition module is used for acquiring user information in the air supply area;

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

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

the intelligent air outlet equipment comprises a plurality of air outlet grid plates which are independent from each other and move, the air outlet grid plates which are independent from each other and move are combined and arranged to form an air supply section, and each air outlet grid plate or each air supply section executes a respective user air supply model according to execution information.

12. The control system of an intelligent air outlet device according to claim 11, further comprising a model building module and a model building module:

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

and the model new building module is used for executing the model building step when the acquired user information is not matched with the user information of the existing user air supply model.

13. The control system of intelligent air outlet equipment according to claim 12, wherein the model building module further comprises a data setting unit:

the data setting unit is used for acquiring a specific input instruction of a user as a setting instruction template of the user; sending a reminding signal set by data to a user; collecting a current input instruction of a user; judging whether the current input instruction of the user is matched with the specific input instruction; and if the input instruction is matched with the specific input instruction in the setting instruction template, executing the setting instruction corresponding to the specific input instruction.

14. The control system of intelligent air outlet equipment according to claim 11, further comprising an adaptation adjusting module, a model optimizing module, and a model updating module:

the adaptive adjustment module is used for receiving an update setting instruction sent by a user in real time, and recording and updating the setting data of the user; updating a corresponding user air supply model under the user information according to the user information and the updated set data; the air outlet grid plate or the air supply section executes the updated air supply model of the user;

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

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

15. The control system of intelligent air-out equipment of claim 11, characterized in that, further comprises an information screening module and/or an information combining module:

the information screening module is used for acquiring at least two types of user information; acquiring the identity recognition result of the user through the user information, and judging whether the identity recognition results respectively acquired by different types of user information are the same or not; if the identity recognition results are different, screening out the identity recognition result of the default reference information, and executing a corresponding user air supply model by the air outlet grating plate or the air supply section according to the identity recognition result of the default reference information;

the information combination module is used for acquiring identity recognition results obtained by different types of user information; analyzing by combining different identity recognition results; if the identity recognition result has an overlapping part, deleting the overlapping part to obtain a non-overlapping user identity; and the air outlet grid plate or the air supply section executes a corresponding user air supply model according to the non-overlapped user identity.

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

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