CN117029175A

CN117029175A - Linkage control method and device for double air deflectors

Info

Publication number: CN117029175A
Application number: CN202311044565.5A
Authority: CN
Inventors: 陈小平; 吴雪良; 唐清生; 黄愉太
Original assignee: Foshan Viomi Electrical Technology Co Ltd
Current assignee: Foshan Viomi Electrical Technology Co Ltd
Priority date: 2023-08-18
Filing date: 2023-08-18
Publication date: 2023-11-10

Abstract

The invention discloses a linkage control method and a device for double air deflectors, wherein the method comprises the following steps: determining the air outlet requirement corresponding to a target air conditioner, wherein the target air conditioner is provided with an air deflector group, and the air deflector group comprises a first air deflector and a second air deflector; determining an air outlet influence coefficient corresponding to the air deflector group, wherein the air outlet influence coefficient corresponding to the air deflector group is used for representing the air outlet influence relationship between the first air deflector and the second air deflector; generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, wherein the first linkage control parameter corresponding to the air deflector group is used for carrying out linkage control on the first air deflector and the second air deflector; and controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group. Therefore, the control flexibility of the air deflector of the air conditioner can be improved by implementing the invention, thereby being beneficial to realizing the intelligent control of the air outlet operation of the air conditioner.

Description

Linkage control method and device for double air deflectors

Technical Field

The invention relates to the technical field of equipment control, in particular to a linkage control method and device for double air deflectors.

Background

In modern life, the air conditioner has various functions of cooling, heating, dehumidifying, purifying air and the like, and can meet diversified demands of users, so that the air conditioner is popular, and the air conditioner becomes an indispensable household appliance for household.

Air conditioning products on the market are equipped with one or more air deflectors that can be used to regulate the flow direction of air so that the air output from the air conditioner is distributed evenly throughout the room. However, in practical application, the user needs to manually adjust the air outlet direction of the air guide plate through the remote controller, and if the air conditioner product is provided with a plurality of air guide plates, all the air guide plates are usually adjusted to be in the same air outlet direction, so that the air outlet direction of the air guide plate cannot be flexibly controlled, and the use experience of the user on the air conditioner is affected. Therefore, it is important to provide a technical scheme capable of improving the control flexibility of the air deflector of the air conditioner so as to realize intelligent control of the air outlet operation of the air conditioner.

Disclosure of Invention

The invention aims to solve the technical problem of providing a linkage control method and device for double air deflectors, which can improve the control flexibility of the air deflectors of an air conditioner and is beneficial to realizing intelligent control of air outlet operation of the air conditioner.

In order to solve the technical problems, the first aspect of the invention discloses a linkage control method of double air deflectors, which comprises the following steps:

determining the air outlet requirement corresponding to a target air conditioner, wherein the target air conditioner is provided with an air deflector group, and the air deflector group comprises a first air deflector and a second air deflector;

determining an air outlet influence coefficient corresponding to the air deflector group, wherein the air outlet influence coefficient corresponding to the air deflector group is used for representing the air outlet influence relationship between the first air deflector and the second air deflector;

generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, wherein the first linkage control parameter corresponding to the air deflector group is used for carrying out linkage control on the first air deflector and the second air deflector;

and controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group.

In an optional implementation manner, in a first aspect of the present invention, the determining an air outlet influence coefficient corresponding to the air deflector group includes:

according to the position information of the air deflector group, determining the relative position relation between the first air deflector and the second air deflector, a first air outlet influence range corresponding to the first air deflector and a second air outlet influence range corresponding to the second air deflector;

Determining a superposition range between the first air outlet influence range and the second air outlet influence range as a superposition air outlet influence range corresponding to the air deflector group;

and determining an air outlet influence coefficient between the first air deflector and the second air deflector according to the relative position relation and the coincident air outlet influence range.

In an optional implementation manner, in a first aspect of the present invention, the determining the air outlet requirement corresponding to the target air conditioner includes:

determining a target environment parameter set which is required to be reached by a target environment in which the target air conditioner is positioned, wherein the target environment parameter set comprises at least one target environment parameter;

collecting a current environment parameter set of a target environment where the target air conditioner is located, wherein the current environment parameter set comprises at least one current environment parameter, and the environment parameter type contained in the current environment parameter set is the same as the environment parameter type contained in the target environment parameter set;

calculating an environmental parameter difference value of each environmental parameter between the current environmental parameter set and the target environmental parameter set to obtain an environmental parameter difference value set;

acquiring the user demand of a target user on the target air conditioner;

And determining the air outlet requirement corresponding to the target air conditioner according to the environment parameter difference value set and the user requirement.

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

determining a linkage relation between the first air deflector and the second air deflector according to the air outlet requirement corresponding to the target air conditioner, wherein the linkage relation comprises a main-auxiliary linkage relation or a same-level linkage relation;

the generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group comprises the following steps:

generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group and the linkage relation, wherein the first linkage control parameter corresponding to the air deflector group comprises one or more of the swing duration, the swing angle range, the swing frequency and the swing angular speed corresponding to each air deflector.

As an optional implementation manner, in the first aspect of the present invention, the air outlet requirement corresponding to the target air conditioner includes one or more of an air outlet time requirement, an air outlet velocity requirement, an air outlet volume requirement, an air outlet range requirement, an air outlet direction requirement, an air outlet temperature requirement, an air outlet rheumatism requirement and an air particle concentration requirement;

The determining the linkage relation between the first air deflector and the second air deflector according to the air outlet requirement corresponding to the target air conditioner comprises the following steps:

determining an air outlet control parameter corresponding to the target air conditioner according to the air outlet requirement corresponding to the target air conditioner;

according to the air outlet requirement corresponding to the target air conditioner and the air outlet control parameter corresponding to the target air conditioner, estimating the target air outlet efficiency corresponding to the target air conditioner, wherein the target air outlet efficiency corresponding to the target air conditioner is used for indicating the air outlet efficiency required to be achieved by the target air conditioner when the air outlet requirement is completed;

judging whether the target air outlet efficiency corresponding to the target air conditioner is higher than a preset air outlet efficiency or not;

when the target air outlet efficiency corresponding to the target air conditioner is higher than the preset air outlet efficiency, determining the linkage relation between the first air deflector and the second air deflector as a same-level linkage relation;

and when the target air outlet efficiency corresponding to the target air conditioner is judged to be lower than or equal to the preset air outlet efficiency, determining the linkage relation between the first air deflector and the second air deflector as a main and auxiliary linkage relation.

In an optional implementation manner, in a first aspect of the present invention, the generating, according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group, and the linkage relation, a first linkage control parameter corresponding to the air deflector group includes:

When the linkage relation is the same-level linkage relation, generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner, the air outlet control parameter corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group; the swinging frequency corresponding to each air deflector in the air deflector group is higher than the preset standard swinging frequency, and the swinging angular speed corresponding to each air deflector in the air deflector group is higher than the preset standard swinging angular speed;

when the linkage relation is the main-auxiliary linkage relation, determining a main air deflector and an auxiliary air deflector in the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the position information corresponding to the air deflector group;

generating a main linkage control parameter corresponding to the main air guide plate according to the air outlet requirement corresponding to the target air conditioner and the air outlet control parameter corresponding to the target air conditioner;

generating auxiliary linkage control parameters corresponding to the auxiliary air deflectors according to the air outlet requirements corresponding to the target air conditioners, the air outlet influence coefficients corresponding to the air deflector groups and the main linkage control parameters corresponding to the main air deflectors; when the linkage relation is the main-auxiliary linkage relation, the first linkage control parameters corresponding to the air deflector group comprise main linkage control parameters corresponding to the main air deflector and auxiliary linkage control parameters corresponding to the auxiliary air deflector.

As an optional implementation manner, in the first aspect of the present invention, after the controlling the air deflection group to perform the linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflection group, the method further includes:

collecting a test environment parameter set of a target environment where the target air conditioner is located, wherein the test environment parameter set is obtained based on collection of a plurality of sensors arranged at different positions in the target environment, and the test environment parameter set comprises an environment parameter set corresponding to each sensor;

judging whether the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment according to the test environment parameter set;

when the fact that the air outlet corresponding to the target air conditioner is unevenly distributed in the target environment is judged, determining an air unqualified area corresponding to the target environment according to the test environment parameter set, wherein the air unqualified area is an area in which the air outlet is unevenly distributed in the target environment;

determining the position relation between the air non-standard region and the air deflector group according to the position information of the air deflector group;

According to the air outlet requirement, the position relation and the air outlet influence coefficient corresponding to the target air conditioner, adjusting a first linkage control parameter corresponding to the air deflector group to obtain a second linkage control parameter corresponding to the air deflector group;

and controlling the air deflector group to execute linkage operation corresponding to the second linkage control parameter according to the second linkage control parameter corresponding to the air deflector group.

The second aspect of the invention discloses a linkage control device of double air deflectors, which comprises:

the air conditioner comprises a determining module, a control module and a control module, wherein the determining module is used for determining the air outlet requirement corresponding to a target air conditioner, the target air conditioner is provided with an air deflector group, and the air deflector group comprises a first air deflector and a second air deflector;

the determining module is further configured to determine an air outlet influence coefficient corresponding to the air deflector group, where the air outlet influence coefficient corresponding to the air deflector group is used to represent an air outlet influence relationship between the first air deflector and the second air deflector;

the generation module is used for generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, wherein the first linkage control parameter corresponding to the air deflector group is used for carrying out linkage control on the first air deflector and the second air deflector;

And the control module is used for controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group.

In a second aspect of the present invention, a specific manner of determining, by the determining module, the air outlet influence coefficient corresponding to the air deflector group includes:

In a second aspect of the present invention, the specific manner of determining, by the determining module, the air outlet requirement corresponding to the target air conditioner includes:

acquiring the user demand of a target user on the target air conditioner;

In a second aspect of the present invention, the determining module is further configured to determine a linkage relationship between the first air deflector and the second air deflector according to an air outlet requirement corresponding to the target air conditioner, where the linkage relationship includes a primary-secondary linkage relationship or a peer-level linkage relationship;

the specific mode of generating the first linkage control parameter corresponding to the air deflector group by the generating module according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group comprises the following steps:

As an optional implementation manner, in the second aspect of the present invention, the air outlet requirement corresponding to the target air conditioner includes one or more of an air outlet time requirement, an air outlet velocity requirement, an air outlet volume requirement, an air outlet range requirement, an air outlet direction requirement, an air outlet temperature requirement, an air outlet rheumatism requirement and an air particle concentration requirement;

the specific mode of determining the linkage relation between the first air deflector and the second air deflector according to the air outlet requirement corresponding to the target air conditioner by the determining module comprises the following steps:

As an optional implementation manner, in a second aspect of the present invention, the specific manner of generating, by the generating module, the first coordinated control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group, and the coordinated relation includes:

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

the acquisition module is used for acquiring a test environment parameter set of a target environment where the target air conditioner is located after the control module controls the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter, wherein the test environment parameter set is acquired based on a plurality of sensors arranged at different positions in the target environment, and the test environment parameter set comprises an environment parameter set corresponding to each sensor;

The judging module is used for judging whether the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment according to the test environment parameter set;

the determining module is further configured to determine, according to the test environment parameter set, an air non-standard-reaching area corresponding to the target environment when the judging module judges that the air outlet corresponding to the target air conditioner is unevenly distributed in the target environment, where the air non-standard-reaching area is an area where the air outlet is unevenly distributed in the target environment;

the determining module is further used for determining the position relationship between the air non-standard region and the air deflector group according to the position information of the air deflector group;

the adjusting module is used for adjusting the first linkage control parameters corresponding to the air deflector group according to the air outlet demand, the position relation and the air outlet influence coefficient corresponding to the target air conditioner to obtain the second linkage control parameters corresponding to the air deflector group;

the control module is further used for controlling the air deflection group to execute linkage operation corresponding to the second linkage control parameter according to the second linkage control parameter corresponding to the air deflection group.

The third aspect of the invention discloses another linkage control device of double air deflectors, which comprises:

a memory storing executable program code;

a processor coupled to the memory;

the processor calls the executable program codes stored in the memory to execute the linkage control method of the double air deflectors disclosed in the first aspect of the invention.

A fourth aspect of the present invention discloses a computer storage medium storing computer instructions for executing the coordinated control method of the double air deflection plate disclosed in the first aspect of the present invention when the computer instructions are called.

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

in the embodiment of the invention, the air outlet requirement corresponding to a target air conditioner is determined, wherein the target air conditioner is provided with an air deflector group, and the air deflector group comprises a first air deflector and a second air deflector; determining an air outlet influence coefficient corresponding to the air deflector group, wherein the air outlet influence coefficient corresponding to the air deflector group is used for representing the air outlet influence relationship between the first air deflector and the second air deflector; generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, wherein the first linkage control parameter corresponding to the air deflector group is used for carrying out linkage control on the first air deflector and the second air deflector; and controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group. Therefore, the method and the device can generate the first linkage control parameter corresponding to the air deflector group according to the determined air outlet requirement corresponding to the air conditioner and the determined air outlet influence coefficient corresponding to the air deflector group of the air conditioner, and control the air deflector group to execute the linkage operation corresponding to the first linkage control parameter, so that the generation accuracy and the generation flexibility of the linkage control parameter corresponding to the double air deflectors of the air conditioner can be improved, the control flexibility and the control accuracy of the double air deflectors of the air conditioner can be improved when the air deflectors are controlled based on the accurate linkage control parameter, the control flexibility of the air outlet of the air conditioner can be improved by carrying out linkage control on the double air deflectors of the air conditioner, the intelligent control of the air outlet operation of the air conditioner is realized, and the intelligent adjustment of the air distribution uniformity degree of the environment where the air conditioner is located is further realized, so that the use experience of a user on the air conditioner is improved.

Drawings

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

Fig. 1 is a schematic view of a scene to which a linkage control method of a double air deflector is applied according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a linkage control method of double air deflectors disclosed in the embodiment of the invention;

FIG. 3 is a schematic flow chart of another method for controlling linkage of double air deflectors according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a linkage control device with double air deflectors according to an embodiment of the present invention;

FIG. 5 is a schematic view of a linkage control device for a dual air deflection disclosed in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a linkage control device with two air deflectors according to an embodiment of the present invention.

Detailed Description

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

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

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

The invention discloses a linkage control method and device for double air deflectors of an air conditioner, which can generate a first linkage control parameter corresponding to an air deflector group according to the determined air outlet requirement corresponding to the air conditioner and the determined air outlet influence coefficient corresponding to the air deflector group of the air conditioner, and control the air deflector group to execute linkage operation corresponding to the first linkage control parameter, so that the generation accuracy and the generation flexibility of the linkage control parameter corresponding to the double air deflectors of the air conditioner can be improved, the control flexibility and the control accuracy of the double air deflectors of the air conditioner can be improved when the air deflectors are controlled based on the accurate linkage control parameter, the control flexibility of the air outlet of the air conditioner can be improved by carrying out linkage control on the double air deflectors of the air conditioner, the intelligent control of the air outlet operation of the air conditioner is realized, and the intelligent adjustment of the air distribution uniformity degree of the environment where the air conditioner is located is further realized, and the use experience of a user on the air conditioner is improved. The following will describe in detail.

In order to better understand the linkage control method and device of the double air deflectors, firstly, a scene suitable for the linkage control method of the double air deflectors is described, and the scene suitable for the method is particularly a scene provided with an air conditioner, such as a scene requiring air outlet control of the air conditioner. Specifically, taking a scenario in which air outlet control is required for an air conditioner as an example, the scenario may be shown in fig. 1, and fig. 1 is a schematic diagram of a scenario in which the linkage control method for dual air deflectors disclosed in the embodiment of the present invention is applicable. As shown in fig. 1, the schematic view of the scene illustrates a living room area in a scene where air-out control is required, where the living room area may include an air conditioner, where the air conditioner is provided with an air deflector group, and the air deflector group may include two air deflectors, and each air deflector may be used to adjust an air-out parameter (such as an air-out direction and/or an air-out range) of the air conditioner; further, the living room area can also include windows, furniture (such as sofas) and users;

still further, with the air conditioner in the living room area as the target air conditioner, the following operations may be performed on the target air conditioner: determining the air outlet requirement corresponding to a target air conditioner, wherein the target air conditioner is provided with an air deflector group, and the air deflector group comprises a first air deflector and a second air deflector; determining an air outlet influence coefficient corresponding to the air deflector group, wherein the air outlet influence coefficient corresponding to the air deflector group is used for representing the air outlet influence relationship between the first air deflector and the second air deflector; generating a first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, wherein the first linkage control parameter corresponding to the air deflector group is used for carrying out linkage control on the first air deflector and the second air deflector; and controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group.

It should be noted that, the scene diagram shown in fig. 1 is only for showing one scene to which the linkage control method of the double air deflectors is applicable, and is not used for limiting other scenes to which the linkage control method and the device of the double air deflectors are applicable, and the scene diagram shown in fig. 1 is not used for limiting the model, the type, the size, the shape, the function and the like of the air conditioner.

The above describes one scenario applicable to the linkage control method and device of the double air deflectors by way of example, and the following describes the linkage control method and device of the double air deflectors in detail.

Example 1

Referring to fig. 2, fig. 2 is a flow chart of a linkage control method of a dual air deflector according to an embodiment of the present invention. The linkage control method of the double air deflectors described in fig. 2 can be applied to a linkage control device of the double air deflectors, wherein the device can comprise one of control equipment, a control terminal, a control system and a server, the server comprises a cloud server or a local server, the device can be applied to an intelligent air conditioner and can also be applied to control equipment integrated with an intelligent home control function, the intelligent home at least comprises the intelligent air conditioner, and the embodiment of the invention is not limited. As shown in fig. 2, the linkage control method of the double air deflectors may include the following operations:

101. And determining the air outlet requirement corresponding to the target air conditioner.

In the embodiment of the invention, a target air conditioner is provided with an air deflector group, wherein the air deflector group comprises a first air deflector and a second air deflector; the target air conditioner may have functions including an air temperature control function and an air quality processing function, and the air temperature control function may include a cooling function and/or a heating function, and the air quality processing function may include a dehumidifying function and/or a humidifying function and/or an air purifying function, which are not limited in the embodiment of the present invention; the air deflector is used for adjusting air outlet parameters (such as air outlet direction and/or air outlet range) of the air conditioner so as to enable air in a target environment where the target air conditioner is located to be uniformly distributed.

102. And determining the air outlet influence coefficient corresponding to the air deflector group.

In the embodiment of the invention, the air outlet influence coefficient corresponding to the air deflector group is used for representing the air outlet influence relation between the first air deflector and the second air deflector; for example, the relative positional relationship between the first air deflector and the second air deflector on the target air conditioner may cause the air outlet effect corresponding to the first air deflector to cancel/enhance the air outlet effect corresponding to the second air deflector, that is, the air outlet influence coefficient corresponding to the air deflector group may be used to represent the degree of interaction between the first air deflector and the second air deflector with respect to the air outlet effect.

It should be noted that, step 101 and step 102 have no precedence relationship, that is, step 101 may occur before or after step 102 or simultaneously with step 102, which is not limited in the embodiments of the present invention.

103. And generating a first linkage control parameter corresponding to the air deflector group according to the air outlet demand corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group.

In the embodiment of the invention, the first linkage control parameters corresponding to the air deflector group are used for carrying out linkage control on the first air deflector and the second air deflector.

104. And controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group.

Therefore, the method described by the embodiment of the invention can generate the first linkage control parameter corresponding to the air deflector group according to the determined air outlet requirement corresponding to the air conditioner and the determined air outlet influence coefficient corresponding to the air deflector group of the air conditioner, and control the air deflector group to execute the linkage operation corresponding to the first linkage control parameter, so that the generation accuracy and the generation flexibility of the linkage control parameter corresponding to the double air deflectors of the air conditioner can be improved, the control flexibility and the control accuracy of the double air deflectors of the air conditioner can be improved when the air deflectors are controlled based on the accurate linkage control parameter, the control flexibility of the air outlet of the air conditioner can be improved by carrying out linkage control on the double air deflectors of the air conditioner, the intelligent control of the air outlet operation of the air conditioner is realized, and the intelligent adjustment of the air distribution uniformity degree of the environment where the air conditioner is located is further realized, so that the use experience of a user on the air conditioner is improved.

In an alternative embodiment, determining the air outlet requirement corresponding to the target air conditioner may include the following operations:

determining a target environment parameter set which is required to be reached by a target environment in which a target air conditioner is positioned, wherein the target environment parameter set comprises at least one target environment parameter;

collecting a current environment parameter set of a target environment where a target air conditioner is located, wherein the current environment parameter set comprises at least one current environment parameter, and the environment parameter type contained in the current environment parameter set is the same as the environment parameter type contained in the target environment parameter set;

calculating the environmental parameter difference value of each environmental parameter between the current environmental parameter set and the target environmental parameter set to obtain an environmental parameter difference value set;

acquiring the user demand of a target user on a target air conditioner;

Wherein, the environmental parameter may include one or more of the combination of the environmental temperature, the environmental humidity, the environmental air flow rate and the environmental air particle concentration, and the embodiment of the invention is not limited; the user demand of the target user with respect to the target air conditioner may include a combination of one or more of a user temperature sensing demand, a user ambient temperature demand, a user ambient humidity demand, a user air flow rate demand, a user air quality level demand, a user air conditioning duration demand, and an air conditioning energy consumption demand; by way of example, assuming a current ambient temperature of 32 ℃ and a target ambient temperature of 25 ℃, the user demand may be to lower the user's temperature of the body to 26 ℃ within 15 minutes and the air flow rate is a gentle wind, embodiments of the present invention are not limited.

Therefore, according to the alternative embodiment, the environmental parameter difference value of each environmental parameter between the target environmental parameter set required to be achieved by the target environment and the current environmental parameter set of the target environment can be calculated, the user requirement of the target user on the target air conditioner is obtained, the air outlet requirement corresponding to the air conditioner is determined according to the environmental parameter difference value set and the user requirement, the determination accuracy of the air outlet requirement of the air conditioner can be improved, the generation accuracy of the linkage control parameters corresponding to the double air deflectors of the air conditioner is improved, and the control accuracy of the air outlet of the air conditioner is improved.

In this optional embodiment, optionally, acquiring the user requirement of the target user with respect to the target air conditioner may include the following operations:

collecting user information of a target user;

determining user state information of a target user according to the current environment parameter set and the user information;

and determining the user requirement of the target user on the target air conditioner according to the user information of the target user and the user state information of the target user.

Wherein the user information of the target user may include one or more combinations of user attribute information, user body information, user action information, user location information, and user clothing information; wherein, the user attribute information comprises user gender and user age; the user body information includes a combination of one or more of user height, user body type, user body temperature, user breathing rate, user heart rate, and user health condition; the user location information includes user location coordinates and/or user motion trajectories, which are not limited in the embodiment of the present invention.

By way of example, assuming a current ambient temperature of 32 ℃, when the user wears the vest and the user movement trajectory indicates that the user enters the target environment from outdoors, the user state information may be that the user returns from outdoors to indoors and the user feels very hot, further, in order to avoid excessive indoor-outdoor temperature difference and short-time cooling to cause the user to catch a cold, the user's demand may be to lower the user's body temperature to 26 ℃ within 25 minutes.

It can be seen that, according to the optional embodiment, the user state information can be determined according to the collected user information and the current environment parameter set of the target user, the user requirement of the target user about the target air conditioner can be determined according to the user information and the user state information, and the determination flexibility and the determination accuracy of the user requirement can be improved, so that the determination accuracy and the determination reliability of the air outlet requirement of the air conditioner are improved, and the generation accuracy of the linkage control parameters corresponding to the double air deflectors of the air conditioner is improved.

In another alternative embodiment, after controlling the air deflection group to perform the linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflection group, the method may further include the following operations:

Collecting a test environment parameter set of a target environment where a target air conditioner is located, wherein the test environment parameter set is obtained based on collection of a plurality of sensors arranged at different positions in the target environment, and comprises an environment parameter set corresponding to each sensor;

when the air-out air corresponding to the target air conditioner is judged to be unevenly distributed in the target environment, determining an air unqualified area corresponding to the target environment according to the test environment parameter set, wherein the air unqualified area is an area in which the air-out air is unevenly distributed in the target environment;

determining the position relation between the air substandard area and the air deflector group according to the position information of the air deflector group;

according to the air outlet requirement, the position relation and the air outlet influence coefficient corresponding to the target air conditioner, adjusting the first linkage control parameter corresponding to the air deflector group to obtain the second linkage control parameter corresponding to the air deflector group;

Optionally, the method may further comprise the following operations:

when the fact that the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment is judged, continuously controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter; alternatively, the air deflector group is controlled to be closed.

The position information of the air guide plate group can include position information of each air guide plate in the air guide plate group arranged on the target air conditioner and/or position coordinates of each air guide plate in the air guide plate group in the target environment, and the embodiment of the invention is not limited; the positional relationship between the air non-standard region and the air deflector group is a relative positional relationship, and the positional relationship may include one or more of a distance relationship between the air non-standard region and each air deflector in the air deflector group, a positional coordinate relationship between the air non-standard region and each air deflector in the air deflector group, and a range overlapping relationship between the air non-standard region and an air outlet influence range of each air deflector in the air deflector group.

The method includes the steps that when it is judged that air outlet corresponding to a target air conditioner is unevenly distributed in a target environment according to a test environment parameter set, an area where at least one environmental parameter in the test environment parameter set is suddenly changed is determined to be an air non-standard-reaching area, a first distance relation between the air non-standard-reaching area and a first air deflector and a second distance relation between the air non-standard-reaching area and a second air deflector are determined, the first distance relation and the second distance relation are compared to obtain the fact that the first distance relation is shorter than the second distance relation, and then linkage control parameters corresponding to the first air deflector can be mainly adjusted, and linkage control parameters corresponding to the second air deflector are adjusted based on the adjusted linkage control parameters corresponding to the first air deflector.

Therefore, according to the optional embodiment, after the first linkage control parameter corresponding to the first linkage control parameter is executed by the air deflector group, the environment parameters are collected at different positions in the target environment to obtain a test environment parameter set, whether the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment is judged according to the test environment parameter set, if the air outlet is unevenly distributed in the target environment, an air non-standard area corresponding to the target environment is determined, the position relation between the air non-standard area and the air deflector group is determined, the first linkage control parameter corresponding to the air deflector group is adjusted according to the air outlet requirement, the position relation and the air outlet influence coefficient, the second linkage control parameter corresponding to the air deflector group is obtained, the linkage operation corresponding to the second linkage control parameter is executed by the air deflector group, the adjustment flexibility of the linkage control parameter corresponding to the air conditioner double air deflector is improved, and the control flexibility of the air conditioner double air deflector is improved, and the control adjustment flexibility of the air outlet of the air conditioner is further improved.

In this optional embodiment, optionally, according to the test environment parameter set, determining whether the outlet air corresponding to the target air conditioner is uniformly distributed in the target environment may include the following operations:

Calculating, for each environmental parameter, a variance of the environmental parameter in the set of test environmental parameters;

for each environmental parameter, judging whether the variance of the environmental parameter is larger than a variance threshold corresponding to the environmental parameter, and obtaining a variance judgment result;

determining an environmental parameter, of which the variance of the environmental parameter is larger than a variance threshold corresponding to the environmental parameter, as a target environmental parameter, wherein the variance of the environmental parameter is represented by a variance judgment result in the test environmental parameter set;

when the number of the target environment parameters is smaller than the preset number, determining that the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment;

when the number of the target environment parameters is greater than or equal to the preset number, the non-uniform distribution of the air outlet corresponding to the target air conditioner in the target environment is determined.

For example, if the variance of the ambient temperature and the variance of the ambient humidity in the test ambient parameter set are respectively greater than the corresponding variance threshold, two target ambient parameters exist, and if the preset number is one, the number of the target ambient parameters is greater than the preset number, that is, it is determined that the air outlet corresponding to the target air conditioner is unevenly distributed in the target environment.

It can be seen that, this optional embodiment can also calculate the variance of each environmental parameter and determine whether the variance of the environmental parameter is greater than the variance threshold corresponding to the environmental parameter, if the variance of the environmental parameter is greater than the variance threshold corresponding to the environmental parameter, then determine the environmental parameter as a target environmental parameter, and when the number of the target environmental parameters is less than the preset number, determine that the wind air is uniformly distributed in the target environment, when the number of the target environmental parameters is greater than or equal to the preset number, determine that the wind air is unevenly distributed in the target environment, can improve the accuracy of judging whether the wind air is uniformly distributed in the target environment, thereby being beneficial to improving the accuracy of determining the non-standard area of the air, and further being beneficial to improving the accuracy of adjusting the linkage control parameters corresponding to the dual air deflectors.

Example two

Referring to fig. 3, fig. 3 is a flow chart of a linkage control method of a dual air deflector according to an embodiment of the present invention. The linkage control method of the double air deflectors described in fig. 3 can be applied to a linkage control device of the double air deflectors, wherein the device can comprise one of control equipment, a control terminal, a control system and a server, the server comprises a cloud server or a local server, the device can be applied to an intelligent air conditioner and can also be applied to control equipment integrated with an intelligent home control function, the intelligent home at least comprises the intelligent air conditioner, and the embodiment of the invention is not limited. As shown in fig. 3, the linkage control method of the double air deflectors may include the following operations:

201. and determining the air outlet requirement corresponding to the target air conditioner.

202. And determining the relative position relation between the first air guide plate and the second air guide plate, the first air outlet influence range corresponding to the first air guide plate and the second air outlet influence range corresponding to the second air guide plate according to the position information of the air guide plate group.

In the embodiment of the invention, the relative position relationship between the first air guide plate and the second air guide plate is used for representing the position relationship between the first air guide plate and the second air guide plate on a target air conditioner, and the relative position relationship can be used for representing the position of the first air guide plate which is 5 cm above the second air guide plate by way of example; the corresponding air outlet influence range of each air deflector is used for representing the maximum influence range corresponding to the air outlet parameters of the air conditioner regulated by the air deflector.

203. And determining the superposition range between the first air outlet influence range and the second air outlet influence range as the superposition air outlet influence range corresponding to the air deflector group.

204. And determining an air outlet influence coefficient between the first air deflector and the second air deflector according to the relative position relation and the coincident air outlet influence range.

In the embodiment of the invention, if the positions of the first air deflector and the second air deflector indicated by the relative position relationship are closer and the overlapping air outlet influence range is larger, the air outlet influence coefficient between the first air deflector and the second air deflector is larger.

205. And generating a first linkage control parameter corresponding to the air deflector group according to the air outlet demand corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group.

206. And controlling the air deflector group to execute linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group.

In the embodiment of the present invention, for other detailed descriptions of step 201 and step 205-step 206, please refer to the detailed descriptions of step 101 and step 103-step 104 in the first embodiment, and the detailed descriptions of the embodiment of the present invention are omitted.

Therefore, the method described by the embodiment of the invention can generate the first linkage control parameter corresponding to the air deflector group according to the determined air outlet requirement corresponding to the air conditioner and the determined air outlet influence coefficient corresponding to the air deflector group of the air conditioner, and control the air deflector group to execute the linkage operation corresponding to the first linkage control parameter, so that the generation accuracy and the generation flexibility of the linkage control parameter corresponding to the double air deflectors of the air conditioner can be improved, the control flexibility and the control accuracy of the double air deflectors of the air conditioner can be improved when the air deflectors are controlled based on the accurate linkage control parameter, the control flexibility of the air outlet of the air conditioner can be improved by carrying out linkage control on the double air deflectors of the air conditioner, the intelligent control of the air outlet operation of the air conditioner is realized, and the intelligent adjustment of the air distribution uniformity degree of the environment where the air conditioner is located is further realized, so that the use experience of a user on the air conditioner is improved. In addition, the relative position relation of the first air guide plate and the second air guide plate, the first air outlet influence range corresponding to the first air guide plate and the second air outlet influence range corresponding to the second air guide plate can be determined according to the position information of the air guide plate group, the superposition range between the first air outlet influence range and the second air outlet influence range is determined to be the superposition air outlet influence range, the air influence coefficient is determined according to the relative position relation and the superposition air outlet influence range, the determination accuracy of the air outlet influence coefficient can be improved, and therefore the generation accuracy of the linkage control parameters corresponding to the air conditioner double air guide plates is improved, and the control accuracy of the air conditioner double air guide plates is improved.

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

according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group, the first linkage control parameter corresponding to the air deflector group is generated, and the method can comprise the following operations:

generating a first linkage control parameter corresponding to the air guide plate group according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air guide plate group and the linkage relation, wherein the first linkage control parameter corresponding to the air guide plate group comprises one or more of the swing duration, the swing angle range, the swing frequency and the swing angular speed corresponding to each air guide plate.

The main and auxiliary linkage relations are used for indicating that one air deflector in the air deflector group is used as an air deflector for mainly adjusting the air outlet parameters of the air conditioner, and the other air deflector in the air deflector group is used as an air deflector for assisting in adjusting the air outlet parameters of the air conditioner; the same-level linkage relation is used for indicating that all air deflectors in the air deflector group jointly adjust the air outlet parameters of the air conditioner.

Therefore, according to the alternative embodiment, the linkage relation between the first air guide plate and the second air guide plate can be determined according to the air outlet requirement corresponding to the air conditioner, the first linkage control parameter corresponding to the air guide plate group is generated according to the air outlet requirement, the air outlet influence coefficient and the linkage relation, intelligent construction of the linkage relation of the double air guide plates is realized, the generation accuracy of the linkage control parameter corresponding to the double air guide plates of the air conditioner can be further improved, the control accuracy of the double air guide plates of the air conditioner is further improved, and the control accuracy of the air outlet of the air conditioner is further improved.

In this optional embodiment, optionally, the air outlet requirement corresponding to the target air conditioner includes one or more of an air outlet time requirement, an air outlet velocity requirement, an air outlet volume requirement, an air outlet range requirement, an air outlet direction requirement, an air outlet temperature requirement, an air outlet rheumatism requirement, and an air particle concentration requirement;

wherein, according to the air-out demand that the target air conditioner corresponds, confirm the linkage relation between first aviation baffle and the second aviation baffle, can include following operation:

according to the air outlet requirement corresponding to the target air conditioner and the air outlet control parameter corresponding to the target air conditioner, estimating the target air outlet efficiency corresponding to the target air conditioner, wherein the target air outlet efficiency corresponding to the target air conditioner is used for indicating the air outlet efficiency required to be achieved when the target air conditioner completes the air outlet requirement;

Judging whether the target air outlet efficiency corresponding to the target air conditioner is higher than the preset air outlet efficiency or not;

when the target air outlet efficiency corresponding to the target air conditioner is judged to be higher than the preset air outlet efficiency, determining the linkage relation between the first air deflector and the second air deflector as a same-level linkage relation;

The air outlet control parameter corresponding to the target air conditioner may include one or more of a target air outlet speed, a target air outlet temperature, a target air outlet humidity, a target air outlet volume and a target air outlet particle concentration corresponding to the target air conditioner.

When the air outlet requirement corresponding to the target air conditioner includes an air outlet time requirement and an air outlet range requirement, if the air outlet time (for example, 10 minutes) corresponding to the air outlet time requirement is shorter than a time threshold, and/or the air outlet range corresponding to the air outlet range requirement is greater than a range threshold, and/or a temperature difference value between the target air outlet temperature corresponding to the target air conditioner and the current environment temperature is higher than a temperature difference value threshold, the estimated target air outlet efficiency corresponding to the target air conditioner may be higher than the preset air outlet efficiency, and at this time, the linkage relationship between the first air deflector and the second air deflector is a same-level linkage relationship; if the air outlet duration (for example, 30 minutes) corresponding to the air outlet duration requirement is longer than the duration threshold, or the air outlet range corresponding to the air outlet range requirement is smaller than or equal to the range threshold, or the temperature difference between the target air outlet temperature corresponding to the target air conditioner and the current environment temperature is smaller than or equal to the temperature difference threshold, the estimated target air outlet efficiency corresponding to the target air conditioner may be lower than the preset air outlet efficiency, and at this time, the linkage relationship between the first air deflector and the second air deflector is the main-auxiliary linkage relationship.

It can be seen that, this optional embodiment can also confirm the air-out control parameter that the target air conditioner corresponds according to the air-out demand to predict the target air-out efficiency that the target air conditioner corresponds according to air-out demand and air-out control parameter, if target air-out efficiency is higher than the air-out efficiency of predetermineeing, confirm the linkage relation as the linkage relation of peer, if target air-out efficiency is less than or equal to predetermineeing air-out efficiency, confirm the linkage relation as main assistance linkage relation, intelligent prediction of air-out efficiency of air conditioner has been realized, can improve the determination accuracy of linkage relation, thereby be favorable to further improving the production accuracy of the linkage control parameter that the air conditioner is two aviation baffle corresponds, and then be favorable to improving the control accuracy of air conditioner two aviation baffle.

In this optional embodiment, further optionally, according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group, and the linkage relationship, generating the first linkage control parameter corresponding to the air deflector group may include the following operations:

When the linkage relation is a main-auxiliary linkage relation, determining a main air deflector and an auxiliary air deflector in the air deflector group according to the air outlet demand corresponding to the target air conditioner and the position information corresponding to the air deflector group;

generating main linkage control parameters corresponding to the main air deflector according to the air outlet requirements corresponding to the target air conditioner and the air outlet control parameters corresponding to the target air conditioner;

generating auxiliary linkage control parameters corresponding to auxiliary air deflectors according to the air outlet requirements corresponding to the target air conditioners, the air outlet influence coefficients corresponding to the air deflector groups and the main linkage control parameters corresponding to the main air deflectors; when the linkage relation is a main-auxiliary linkage relation, the first linkage control parameters corresponding to the air deflector group comprise main linkage control parameters corresponding to the main air deflector and auxiliary linkage control parameters corresponding to the auxiliary air deflector.

When the linkage relationship is a peer linkage relationship, and the air outlet requirement includes an air outlet time requirement (for example, 5 minutes), an air outlet range requirement (for example, the whole living room) and an air outlet temperature requirement (for example, the environment temperature is reduced to 26 ℃ from 30 ℃ after air outlet), the air outlet control parameter corresponding to the target air conditioner includes an air outlet temperature (for example, 22 ℃), the swing angle ranges corresponding to the first air deflector and the second air deflector can be set to be respectively corresponding maximum swing angle ranges, the swing frequencies corresponding to the first air deflector and the second air deflector are respectively higher than the standard swing frequency, and the swing angle speeds corresponding to the first air deflector and the second air deflector are respectively higher than the standard swing angle speed; and in the overlapping air outlet influence range, the swing angular speed corresponding to the first air deflector and the second air deflector can be higher than the swing angular speed corresponding to the air outlet influence range except for the overlapping air outlet influence range.

In addition, when the linkage relation is a main-auxiliary linkage relation, and the air outlet requirement comprises an air outlet direction requirement (such as the direction of the air outlet to the ground) and an air outlet speed requirement (such as the gentle air), the air guide plate with the lower height from the ground in the air guide plate group is determined to be the main air guide plate, and the other air guide plate is the auxiliary air guide plate, so that only the main air guide plate can be controlled to guide the air outlet of the air conditioner to the ground and the auxiliary air guide plate can be closed, and the main air guide plate can be controlled to guide the air outlet of the air conditioner to be adjusted down to be close to the ground.

It can be seen that, in this optional embodiment, when the linkage relationship is a peer linkage relationship, the first linkage control parameter is further generated according to the air-out requirement, the air-out control parameter and the air-out influence coefficient; when the linkage relation is a main-auxiliary linkage relation, the main air guide plate and the auxiliary air guide plate are determined according to the air outlet requirement and the position information corresponding to the air guide plate group, main linkage control parameters corresponding to the main air guide plate are generated according to the air outlet requirement and the air outlet control parameters, auxiliary linkage control parameters corresponding to the auxiliary air guide plate are generated according to the air outlet requirement, the air outlet influence coefficient and the main linkage control parameters corresponding to the main air guide plate, different linkage control parameter generation modes are selected according to different linkage relations, the generation flexibility and the generation accuracy of the linkage control parameters corresponding to the air conditioner double air guide plates are improved, the control flexibility and the control accuracy of the air conditioner double air guide plates are further improved, and the control accuracy of air outlet of the air conditioner is improved.

In this optional embodiment, still further optionally, determining the main air guide plate and the auxiliary air guide plate in the air guide plate group according to the air outlet requirement corresponding to the target air conditioner and the position information corresponding to the air guide plate group may include the following operations:

when the air outlet requirement corresponding to the target air conditioner comprises an air outlet range requirement, calculating the ratio of the first air outlet influence range corresponding to the first air deflector in the air outlet range corresponding to the air outlet range requirement, and obtaining the first air outlet range ratio corresponding to the first air deflector;

calculating the ratio of the second air outlet influence range corresponding to the second air deflector in the air outlet range corresponding to the air outlet range requirement, and obtaining the ratio of the second air outlet range corresponding to the second air deflector;

and determining the air guide plate with the air outlet range ratio higher than that of the other air guide plate as a main air guide plate according to the first air outlet range ratio and the second air outlet range ratio, and determining the rest air guide plates in the air guide plate group as auxiliary air guide plates.

For example, assuming that the first air outlet range corresponding to the first air deflector is 70% and the second air outlet range corresponding to the second air deflector is 50%, the first air deflector is determined to be the main air deflector and the second air deflector is determined to be the auxiliary air deflector.

Therefore, the optional embodiment can also calculate the ratio of the air outlet influence ranges corresponding to the two air deflectors in the air outlet range corresponding to the air outlet range requirement, determine the air deflector with the higher air outlet range as the main air deflector, and determine the other air deflector as the auxiliary air deflector, so that the determination accuracy of the main air deflector and the auxiliary air deflector can be improved, the generation accuracy of the linkage control parameters corresponding to the air conditioner double air deflectors can be improved, and the control accuracy of the air conditioner double air deflectors can be improved.

Example III

Referring to fig. 4, fig. 4 is a schematic structural diagram of a linkage control device with dual air deflectors according to an embodiment of the present invention. The linkage control device of the double air deflectors described in fig. 4 may include one of a control device, a control terminal, a control system and a server, where the server includes a cloud server or a local server, and the device may be applied to an intelligent air conditioner, and may also be applied to a control device integrated with an intelligent home control function, where the intelligent home includes at least the intelligent air conditioner. As shown in fig. 4, the linkage control device of the double air deflectors may include:

The determining module 301 is configured to determine an air outlet requirement corresponding to a target air conditioner, where the target air conditioner is provided with an air deflector group, and the air deflector group includes a first air deflector and a second air deflector;

the determining module 301 is further configured to determine an air outlet influence coefficient corresponding to the air deflector group, where the air outlet influence coefficient corresponding to the air deflector group is used to represent an air outlet influence relationship between the first air deflector and the second air deflector;

the generating module 302 is configured to generate a first linkage control parameter corresponding to an air deflector group according to an air outlet requirement corresponding to a target air conditioner and an air outlet influence coefficient corresponding to the air deflector group, where the first linkage control parameter corresponding to the air deflector group is used for performing linkage control on the first air deflector and the second air deflector;

and the control module 303 is configured to control the air deflection group to execute the linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflection group.

Therefore, the device described by the embodiment of the invention can generate the first linkage control parameter corresponding to the air deflector group according to the determined air outlet requirement corresponding to the air conditioner and the determined air outlet influence coefficient corresponding to the air deflector group of the air conditioner, and control the air deflector group to execute the linkage operation corresponding to the first linkage control parameter, so that the generation accuracy and the generation flexibility of the linkage control parameter corresponding to the double air deflectors of the air conditioner can be improved, the control flexibility and the control accuracy of the double air deflectors of the air conditioner can be improved when the air deflectors are controlled based on the accurate linkage control parameter, the control flexibility of the air outlet of the air conditioner can be improved by carrying out linkage control on the double air deflectors of the air conditioner, the intelligent control of the air outlet operation of the air conditioner is realized, and the intelligent adjustment of the air distribution uniformity degree of the environment where the air conditioner is located is further realized, so that the use experience of a user on the air conditioner is improved.

In an alternative embodiment, the specific manner of determining the air outlet influence coefficient corresponding to the air deflector group by the determining module 301 may include:

Therefore, the device described by implementing the alternative embodiment can determine the relative position relation between the first air deflector and the second air deflector, the first air outlet influence range corresponding to the first air deflector and the second air outlet influence range corresponding to the second air deflector according to the position information of the air deflector group, and the superposition range between the first air outlet influence range and the second air outlet influence range is determined as the superposition air outlet influence range, and the air influence coefficient is determined according to the relative position relation and the superposition air outlet influence range, so that the determination accuracy of the air outlet influence coefficient can be improved, thereby being beneficial to improving the generation accuracy of the linkage control parameters corresponding to the air conditioner double air deflectors, and further being beneficial to improving the control accuracy of the air conditioner double air deflectors.

In another alternative embodiment, the specific manner of determining, by the determining module 301, the air outlet requirement corresponding to the target air conditioner may include:

acquiring the user demand of a target user on a target air conditioner;

Therefore, the device described by implementing the alternative embodiment can calculate the environmental parameter difference value of each environmental parameter between the target environmental parameter set required to be achieved by the target environment and the current environmental parameter set of the target environment, acquire the user requirement of the target user on the target air conditioner, determine the air outlet requirement corresponding to the air conditioner according to the environmental parameter difference value set and the user requirement, and improve the determination accuracy of the air outlet requirement of the air conditioner, thereby being beneficial to improving the generation accuracy of the linkage control parameters corresponding to the double air deflectors of the air conditioner, and further being beneficial to improving the control accuracy of the air outlet of the air conditioner.

In yet another optional embodiment, the determining module 301 is further configured to determine, according to an air outlet requirement corresponding to the target air conditioner, a linkage relationship between the first air deflector and the second air deflector, where the linkage relationship includes a primary-secondary linkage relationship or a peer linkage relationship;

the specific manner of generating the first linkage control parameter corresponding to the air deflector group by the generating module 302 according to the air outlet requirement corresponding to the target air conditioner and the air outlet influence coefficient corresponding to the air deflector group may include:

Therefore, the device described by implementing the alternative embodiment can determine the linkage relation between the first air deflector and the second air deflector according to the air outlet requirement corresponding to the air conditioner, and generate the first linkage control parameter corresponding to the air deflector group according to the air outlet requirement, the air outlet influence coefficient and the linkage relation, thereby realizing the intelligent construction of the linkage relation of the double air deflectors, further improving the generation accuracy of the linkage control parameter corresponding to the double air deflectors of the air conditioner, further improving the control accuracy of the double air deflectors of the air conditioner, and being beneficial to improving the control accuracy of the air outlet of the air conditioner.

the specific manner of determining the linkage relationship between the first air deflector and the second air deflector by the determining module 301 according to the air outlet requirement corresponding to the target air conditioner may include:

It can be seen that the device described in this optional embodiment can also determine the air outlet control parameter corresponding to the target air conditioner according to the air outlet requirement, and predict the target air outlet efficiency corresponding to the target air conditioner according to the air outlet requirement and the air outlet control parameter, if the target air outlet efficiency is higher than the preset air outlet efficiency, the linkage relationship is determined as the same-level linkage relationship, if the target air outlet efficiency is lower than or equal to the preset air outlet efficiency, the linkage relationship is determined as the main and auxiliary linkage relationship, so that the intelligent prediction of the air outlet efficiency of the air conditioner is realized, the determination accuracy of the linkage relationship can be improved, and the generation accuracy of the linkage control parameter corresponding to the air conditioner double air deflectors is further improved, and the control accuracy of the air conditioner double air deflectors is further improved.

In this optional embodiment, further optionally, the specific manner of generating, by the generating module 302, the first coordinated control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group, and the linkage relationship may include:

It can be seen that the device described in implementing this alternative embodiment is further capable of generating the first linkage control parameter according to the air-out requirement, the air-out control parameter and the air-out influence coefficient when the linkage relationship is a peer linkage relationship; when the linkage relation is a main-auxiliary linkage relation, the main air guide plate and the auxiliary air guide plate are determined according to the air outlet requirement and the position information corresponding to the air guide plate group, main linkage control parameters corresponding to the main air guide plate are generated according to the air outlet requirement and the air outlet control parameters, auxiliary linkage control parameters corresponding to the auxiliary air guide plate are generated according to the air outlet requirement, the air outlet influence coefficient and the main linkage control parameters corresponding to the main air guide plate, different linkage control parameter generation modes are selected according to different linkage relations, the generation flexibility and the generation accuracy of the linkage control parameters corresponding to the air conditioner double air guide plates are improved, the control flexibility and the control accuracy of the air conditioner double air guide plates are further improved, and the control accuracy of air outlet of the air conditioner is improved.

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

the acquisition module 304 is configured to acquire a test environment parameter set of a target environment where the target air conditioner is located after the control module 303 controls the air deflection unit to perform linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflection unit, where the test environment parameter set is acquired based on a plurality of sensors disposed at different positions in the target environment, and the test environment parameter set includes an environment parameter set corresponding to each sensor;

The judging module 305 is configured to judge whether the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment according to the test environment parameter set;

the determining module 301 is further configured to determine, when the judging module 305 judges that the air-out air corresponding to the target air conditioner is unevenly distributed in the target environment, an air non-standard area corresponding to the target environment according to the test environment parameter set, where the air non-standard area is an area where the air-out air is unevenly distributed in the target environment;

the determining module 301 is further configured to determine a positional relationship between the air non-standard area and the air deflector group according to the positional information of the air deflector group;

the adjusting module 306 is configured to adjust a first linkage control parameter corresponding to the air deflector group according to an air outlet requirement, a position relationship and an air outlet influence coefficient corresponding to the target air conditioner, so as to obtain a second linkage control parameter corresponding to the air deflector group;

the control module 303 is further configured to control the air deflection group to execute linkage operation corresponding to the second linkage control parameter according to the second linkage control parameter corresponding to the air deflection group.

It can be seen that, after the linkage operation corresponding to the first linkage control parameter is performed by the air deflector group, the device described in this optional embodiment is implemented to acquire environmental parameters at different positions in the target environment to obtain a test environmental parameter set, and determine whether the air outlet corresponding to the target air conditioner is uniformly distributed in the target environment according to the test environmental parameter set, if the air outlet is unevenly distributed in the target environment, determine an air non-standard area corresponding to the target environment, determine a position relationship between the air non-standard area and the air deflector group, and adjust the first linkage control parameter corresponding to the air deflector group according to the air outlet requirement, the position relationship and the air outlet influence coefficient to obtain a second linkage control parameter corresponding to the air deflector group, so as to control the air deflector group to perform the linkage operation corresponding to the second linkage control parameter, thereby improving the adjustment flexibility of the linkage control parameter corresponding to the air conditioner double air deflector, and further being beneficial to further improving the control adjustment flexibility of the air outlet of the air conditioner.

Example IV

Referring to fig. 6, fig. 6 is a schematic structural diagram of a linkage control device with two air deflectors according to an embodiment of the present invention. As shown in fig. 6, the linkage control device of the double air deflectors may include:

a memory 401 storing executable program codes;

a processor 402 coupled with the memory 401;

the processor 402 invokes executable program codes stored in the memory 401 to execute the steps in the linkage control method for the dual air deflectors described in the first embodiment or the second embodiment of the present invention.

Example five

The embodiment of the invention discloses a computer storage medium which stores computer instructions for executing the steps in the linkage control method of the double air deflectors described in the first or second embodiment of the invention when the computer instructions are called.

Example six

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

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

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

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

Claims

1. The linkage control method of the double air deflectors is characterized by comprising the following steps of:

2. The method for controlling linkage of double air deflectors according to claim 1, wherein the determining the air outlet influence coefficient corresponding to the air deflector group comprises:

3. The method for controlling linkage of double air deflectors according to claim 1, wherein the determining the air outlet requirement corresponding to the target air conditioner comprises:

acquiring the user demand of a target user on the target air conditioner;

4. A method of controlling the ganging of a double wind deflector according to any one of claims 1 to 3, further comprising:

5. The method according to claim 4, wherein the air outlet requirement corresponding to the target air conditioner comprises one or more of an air outlet time requirement, an air outlet speed requirement, an air outlet volume requirement, an air outlet range requirement, an air outlet direction requirement, an air outlet temperature requirement, an air outlet rheumatism requirement and an air particle concentration requirement;

6. The method for controlling the linkage of the double air deflectors according to claim 5, wherein the generating the first linkage control parameter corresponding to the air deflector group according to the air outlet requirement corresponding to the target air conditioner, the air outlet influence coefficient corresponding to the air deflector group and the linkage relation comprises:

7. The method for controlling linkage of double air deflectors according to claim 1, further comprising, after the controlling the air deflector group to perform the linkage operation corresponding to the first linkage control parameter according to the first linkage control parameter corresponding to the air deflector group:

8. A coordinated control device for double air deflectors, the device comprising:

9. A coordinated control device for double air deflectors, the device comprising:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the coordinated control method of the dual air deflection of any one of claims 1-7.

10. A computer storage medium storing computer instructions for executing the double air deflection linkage control method according to any one of claims 1 to 7 when the computer instructions are called.