CN111399390B - Intelligent air outlet system based on equipment linkage and air outlet section change control method - Google Patents

Abstract

An intelligent air-out system based on equipment linkage comprises intelligent air-out equipment and intelligent household equipment, wherein the intelligent air-out equipment is provided with a plurality of air-out grid plates which are mutually independent and movable; the intelligent air outlet equipment comprises an information acquisition module, a parameter storage module, a state acquisition module, an information processing module and a control execution module; the information acquisition module is used for acquiring environment information in a wind sending area of the intelligent wind outlet equipment; the parameter storage module is used for storing parameter information of the intelligent air outlet equipment; the state acquisition module is used for acquiring the running state information of the intelligent household equipment; the information processing module is used for identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment; the control execution module is used for controlling a plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction. The air supply sections of the air outlet equipment are distributed, so that the effect of simultaneously meeting the air supply requirements of multiple objects is achieved.

Description

Intelligent air outlet system based on equipment linkage and air outlet section change control method

Technical Field

The invention relates to the technical field of intelligent household appliance control, in particular to an intelligent air outlet system based on equipment linkage and an air outlet section change control method.

Background

In the hot summer, the heat dissipation of the household equipment is increased in the use process, and the household equipment is usually cooled by a fan or an air conditioner, so that the performance of the household equipment is maintained, wherein the most used fan is a tower fan;

the conventional tower fans in the market at present mostly have unidirectional air outlet, the air supply range is smaller, and the tower fans can automatically swing left and right, so that the air supply range of the tower fans is enlarged, and the air supply angle is changed;

however, because of the integral structure of the tower fan, the air supply direction is relatively fixed, and the air supply direction of the tower fan cannot be divided according to the requirement, so that the air supply method of the tower fan is adjusted, for example, when two household devices positioned at different positions exist indoors at the same time and need to be blown, the tower fan can only blow air to one household device or blow air to two people in a staggered manner, but cannot blow air to two household devices at the same time in different wind directions or wind speeds, therefore, the air supply mode of the tower fan is limited, and the requirement of multi-object air supply cannot be met at the same time;

Disclosure of Invention

The invention aims at overcoming the defects in the background technology, and provides an intelligent air outlet system based on equipment linkage and an air outlet section change control method.

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

an intelligent air-out system based on equipment linkage comprises intelligent air-out equipment and intelligent household equipment, wherein the intelligent air-out equipment and the intelligent household equipment comprise state information acquisition sub-modules;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

the intelligent air outlet equipment comprises an information acquisition module, a parameter storage module, a state acquisition module, an information processing module and a control execution module;

the information acquisition module is used for acquiring environment information in a wind sending area of the intelligent wind outlet equipment;

the parameter storage module is used for storing parameter information of the intelligent air outlet equipment;

the state acquisition module is used for acquiring the running state information of the intelligent household equipment;

the information processing module is used for identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment;

The control execution module is used for controlling the plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

Preferably, the information acquisition module comprises an automatic acquisition sub-module and a custom input sub-module;

the automatic acquisition submodule is used for periodically acquiring environment information of an air supply area of the intelligent air outlet system;

the custom input submodule is used for custom input of object information;

the selection module is used for reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

Preferably, the intelligent household equipment further comprises a state information acquisition submodule, wherein the state information acquisition submodule is used for acquiring the running state information of the intelligent household equipment.

Preferably, the information processing module comprises a first identification unit, a second identification unit and a matching unit;

the first identification unit is used for identifying and obtaining first object information from environment information, wherein the first object information comprises at least one or more of the combination of the distribution position of objects, the distance of the objects, the height of the objects and the number of the objects;

The second identifying unit is used for identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or a combination of a plurality of on-off state of an object, running time of the object, heating state of the object and air quality parameters in the action range of the object;

the matching unit is used for acquiring matching information of the combined arrangement of the object and each air outlet section according to the first object information and the second object information, and generating combined arrangement control instructions of a plurality of air outlet sections according to the matching information.

Preferably, the information acquisition module is used for periodically acquiring environmental information in a blowing area of the intelligent air-out equipment;

the information processing module is also used for judging whether the latest acquired object information is the same as the object information acquired in the previous time;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

the control execution module controls the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

Preferably, the state acquisition module is used for acquiring running state information of a plurality of intelligent household devices in the air supply area;

The information processing module is used for classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing the control instructions for carrying out combined arrangement on the intelligent household devices corresponding to the groups by the air outlet grid plate of the intelligent air outlet device according to the environment information and the running state information in each group.

The method for controlling the change of the air outlet section based on the equipment linkage comprises intelligent air outlet equipment and intelligent household equipment, wherein the intelligent air outlet equipment is in communication connection with the intelligent household equipment;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

acquiring environmental information in a wind sending area of the intelligent wind outlet equipment;

acquiring running state information of the intelligent home equipment;

storing parameter information of the intelligent air-out equipment;

identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment;

and controlling a plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

Preferably, environment information and/or input custom object information of an air supply area of the intelligent air outlet system are periodically acquired;

and reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

Preferably, the first object information is obtained from the environment information in a recognition way, and the first object information comprises at least one or a combination of a plurality of distribution positions of objects, distances of the objects, heights of the objects and the number of the objects;

identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or more combinations of an on-off state of an object, a running time of the object, a heating state of the object and air quality parameters in an action range of the object;

according to the first object information and the second object information, obtaining the matching information of the lengths of the object and each air outlet section, and according to the matching information, generating length control instructions of a plurality of air outlet sections;

according to the first object information and the second object information, obtaining matching information of the position sequence of the object and each air outlet section, and generating a section sequence control instruction for distributing a plurality of air outlet sections according to the matching information;

And controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the length control instruction and the section sequence control instruction.

Preferably, whether the latest acquired object information is the same as the object information acquired in the previous time is judged;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

and controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

Preferably, the running state information of a plurality of intelligent household devices in the air supply area is collected;

classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing according to the environment information and the running state information in each group to obtain a control instruction of the air outlet grid plate of the intelligent air outlet device for carrying out combined arrangement on the intelligent household devices corresponding to the group.

The beneficial effects are that:

1. the intelligent air outlet equipment is provided with an information acquisition module for acquiring environmental information in an air supply area of the intelligent air outlet equipment and a parameter storage module for storing parameter information of the intelligent air outlet equipment, the information processing module is used for processing the environmental information and the parameter information to obtain a control instruction, and the control execution module is used for controlling the combined arrangement of the air outlet grid plates according to the control instruction, so that the high load of the intelligent air outlet equipment is reduced, the air supply requirements of multiple persons are met, and the user experience is improved;

2. The intelligent air outlet equipment has the advantages that the air outlet grating plates of the intelligent air outlet equipment are divided into a plurality of sections of air outlet sections, and the position sequence and the number of each air outlet grating plate are distributed according to object information, so that the air supply requirements of multiple people are met, the use experience of users is improved, and the defects in the prior art are overcome.

Drawings

FIG. 1 is a flow chart of an air outlet section change control method based on equipment linkage;

FIG. 2 is a timing diagram of an intelligent air-out device and a mobile terminal according to the present invention;

FIG. 3 is a schematic diagram of a smart air-out device according to an embodiment of the present invention;

FIG. 4 is a vertical sectional view of the intelligent air-out apparatus of FIG. 3 according to the present invention;

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

Detailed Description

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

In the description of the present invention, it should be understood that the terms "upper," "lower," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The intelligent air-out system based on equipment linkage, as shown in fig. 2, comprises intelligent air-out equipment and intelligent household equipment, wherein the intelligent air-out equipment and the intelligent household equipment both comprise a state information acquisition sub-module;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

the intelligent air outlet equipment comprises an information acquisition module, a parameter storage module, a state acquisition module, an information processing module and a control execution module;

the information acquisition module is used for acquiring environment information in a wind sending area of the intelligent wind outlet equipment;

the parameter storage module is used for storing parameter information of the intelligent air outlet equipment;

the state acquisition module is used for acquiring the running state information of the intelligent household equipment;

the information processing module is used for identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment;

the control execution module is used for controlling the plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

At present, the conventional tower fan in the market mostly has single-direction air outlet, the air supply range is smaller, even if the tower fan can automatically swing left and right, the air supply direction is relatively fixed because the tower fan is of an integral structure, the air supply mode of the tower fan is limited, and the air supply requirements of multiple objects cannot be met at the same time.

In order to solve the technical problem, the technical scheme provides an intelligent air outlet system based on equipment linkage, the intelligent air outlet system comprises intelligent air outlet equipment and intelligent household equipment, the intelligent air outlet equipment is in communication connection with the intelligent household equipment, the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable, for example, electric fans such as a tower fan/column floor fan which are provided with a plurality of air outlet grid plates which are mutually independent and movable and are independently arranged in air supply parameters of the air outlet grid plates. The control instruction of the intelligent air-out equipment comprises the steps of carrying out combined arrangement on a plurality of air-out grid plates of the intelligent air-out equipment, wherein the intelligent air-out equipment executes the combined arrangement of the air-out grid plates according to the control instruction, a plurality of air-out sections capable of independently air-out are obtained, one air-out grid plate group can meet at least one intelligent household equipment or a plurality of households with the same air supply requirement, the air supply mode of each air-out section is automatically set according to each intelligent household equipment, and the air supply requirement of a plurality of intelligent household equipment is met simultaneously. Particularly, the intelligent air outlet equipment is provided with a plurality of mutually independent air outlet grids, namely each air outlet grid is provided with a unit driving device, and each air outlet grid can rotate around the rotating shaft of the intelligent air outlet equipment in a mutually independent mode.

Specifically, the intelligent air outlet device obtains environmental information in an air supply area through the information acquisition module, wherein the environmental information comprises, but is not limited to, quantity information of objects, distance of the objects relative to the intelligent air outlet device, infrared characteristic information or/and object distribution information, heating temperature of the objects, current height information of the objects and the like, and the characteristic information can be used for identifying and distinguishing the objects, and the objects can be intelligent household devices or people. For example: the height/distance and position distribution of the object is identified through the image, or the heating temperature of the object is identified through the infrared sign information.

In addition, the parameter storage module receives parameter information of the self equipment, wherein the parameter storage module can be a parameter storage module for automatically identifying the parameter information of the intelligent air-out equipment, such as identifying a part model of the intelligent air-out equipment, acquiring the parameter information of the intelligent air-out equipment through the part model, and can also be a parameter storage module comprising an input function. The parameter information of the intelligent air outlet equipment comprises, but is not limited to, the number of the air outlet grating plates, the thickness of the air outlet grating plates, the number of wind wheels or/and the matching information of the wind wheels and the air outlet grating plates and other hardware matched parameter information.

The equipment identifies and analyzes environmental information, parameter information and running state information through an information processing module to obtain control instructions of a plurality of air outlet grids, wherein the control instructions are control instructions for carrying out combined arrangement on a plurality of air outlet grids of intelligent air outlet equipment, the control instructions comprise the combined arrangement according to parameters of air outlet sections of a plurality of independent air outlets, the air outlet sections are formed by combining at least one air outlet grid, the parameters of the air outlet sections comprise the number or position sequence of the air outlet grids of the air outlet sections, and further, the combined arrangement of the plurality of air outlet grids refers to the combination of any one or more distribution modes in the number, the length or the position sequence of the air outlet grids of the air outlet sections. And acquiring environmental information in the air supply area, acquiring object information through identifying the environmental information, and analyzing according to the object information, the parameter information and the running state information to acquire control instructions for segmenting and/or sequencing the air outlet grid plate of the intelligent air outlet equipment.

The analysis logic can be prestored before leaving the factory or can be custom input after the user purchases the equipment. Resolution logic includes, but is not limited to: and distributing the air outlet section according to the number and the types of the objects, and simultaneously obtaining the air supply mode or the air supply parameter of the air outlet section according to the running state information of the intelligent household equipment if the objects are the intelligent household equipment.

For example: when the object is identified to comprise a user and a humidifier, and the humidifier is executing a strong humidification mode, according to the parameter information of the intelligent air outlet device, a plurality of air outlet grids capable of supplying air to the humidifier are analyzed and distributed to the humidifier, a plurality of air outlet grids capable of supplying air to the user are distributed to the user, and in addition, the distributed air outlet grids are required to execute the strong air supply mode in combination with the current running state information (strong humidification) of the humidifier.

In another specific embodiment, the object information is identified as 3 objects (A, B and C) in the air-supply area through image recognition, the distances between the objects A, B and C and the intelligent air-out device are detected through infrared recognition, the distances are sequentially B, C, A from far to near, the number of a plurality of air-out grating plates or a plurality of groups of air-out grating plates of the air-out section for B, C, A air supply is distributed according to the parameter information of the intelligent air-out device, the number of the air-out grating plates of the air-out section corresponding to B is the least, the number of the air-out grating plates of the air-out section corresponding to C is the next most, the number of the air-out grating plates corresponding to A is the most, and each air-out section performs respective air supply in the air-supply area where the object is located, so as to realize the purpose of simultaneously meeting the air supply requirements of multiple objects.

In another embodiment, the object a is a host computer placed on the ground, the object B is a purifier placed on a table, and the object C is an air conditioner installed on a wall, and then the object C is allocated with the air outlet section or the air outlet section component with the highest position, then the object B is allocated with the air outlet section or the air outlet section component with the lowest position, and the object a is allocated with the air outlet section or the air outlet section component with the highest position.

In another embodiment, the object a is an intelligent home device in operation, the heat dissipation temperature is 40 ℃, the object B is a user, the body surface temperature is 36 ℃, and the air supply requirement of the intelligent home device is obviously higher than the air supply requirement of the user, so that a control instruction for preferentially distributing the air outlet section to the object a is generated by analyzing the information.

According to the technical scheme, the intelligent air outlet device is applicable to the following structure, but is not limited to the following structure.

An intelligent air-out device, as shown in fig. 3 and 4, comprising: the wind wheel 100, the wind wheel driving device 130, the wind guiding structure and the wind inlet and outlet array mechanism 140; the wind inlet and outlet array mechanism 140 includes: the air duct structure comprises a plurality of layers of air duct layer structures which are overlapped up and down and a driving mechanism for driving each layer of air duct layer structure to independently and horizontally rotate; the driving mechanism includes: a plurality of unit driving devices 400 installed independently and driving parts in transmission fit with the unit driving devices 400; the driving part is arranged on the air duct layer structure. The wind wheel 100 is vertically arranged and is in transmission connection with the wind wheel driving device 130; the wind guiding structure is arranged outside the wind wheel 100 and is used for guiding wind outside the wind wheel; the air inlet and outlet array mechanism 140 is covered on the outer side of the air guiding structure, and the unit driving device 400 is used for driving the air duct layer structure at the corresponding position to horizontally rotate relative to the air guiding structure. The air duct layer structure is annular, and is a layered structure formed by stacking multiple layers of air outlet grid plates 310 up and down, the lower surfaces of the air outlet grid plates 310 vertically extend downwards to form air duct plates 321, and a plurality of air duct plates 321 are distributed in parallel with the lower surfaces of the air outlet grid plates 310.

One practical scenario for the above structure: the method comprises the specific steps of distributing the number of the air outlet grating plates of each air outlet section, namely, the number of the air outlet grating plates of each air outlet section is more or less, wherein the number of the air outlet grating plates of each air outlet section is three air outlet sections, namely, the first air outlet section, the second air outlet section and the third air outlet section, namely, the number of the air outlet grating plates of each air outlet section is distributed: the intelligent household device acquires infrared information of intelligent household devices in a wind sending area through an information acquisition module (infrared detection module), identifies the distance to the intelligent household devices corresponding to each wind outlet section according to the infrared information of the intelligent household devices, then segments the wind outlet grating plates 310 and parameter information according to the distance of the intelligent household devices in a combined analysis mode, and generates control instructions for distributing the number of the plurality of wind outlet grating plates 310 to each wind outlet section according to the distance of the intelligent household devices. After the unit driving device 400 of the intelligent air outlet equipment acquires the control instruction, 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 distributed to the corresponding air outlet section under the driving of the unit driving device 400. The air outlet grating plates of the intelligent air outlet equipment are arranged in a combined mode, the distribution of the number of the plurality of air outlet grating plates 310 of each air outlet section of the intelligent air outlet equipment is achieved, and the first air outlet section, the second air outlet section and the third air outlet section can independently rotate to different or same rotation angles, so that the realization of simultaneously meeting the air supply requirements of multiple objects is possible.

Further, the number of the air outlet grating plates contained in the air outlet sections of the air outlet grating plates divided into a plurality of sections can be uniform, namely, the air outlet grating plates are distributed evenly, but also can be inconsistent, namely, the number of grid plates in different air outlet sections can be different.

In this system, intelligent household equipment includes intelligent television, air conditioner, refrigerator, humidifier, intelligent equipment such as clarifier, through setting up information acquisition module, parameter storage module, state acquisition module, information processing module and control execution module, realizes the linkage of intelligent air-out equipment and intelligent household equipment, realizes simultaneously that intelligent air-out equipment carries out the effect that intelligence was bloied to many intelligent household equipment simultaneously, can improve the life of each intelligent household equipment, reduces the trouble.

Preferably, the intelligent household equipment further comprises a state information acquisition submodule, wherein the state information acquisition submodule is used for acquiring the running state information of the intelligent household equipment.

Specifically, the state information collecting sub-module is used for collecting the running state information of the intelligent household equipment, wherein the state information collecting sub-module can be arranged on the intelligent air outlet equipment, the intelligent air outlet equipment can obtain the running state information of the intelligent household equipment, the intelligent household equipment can also be externally arranged on the intelligent household equipment, the running state information of the intelligent household equipment is collected, the intelligent household equipment is communicated with the intelligent air outlet equipment, and the running state information is sent to the intelligent air outlet equipment.

Preferably, the information acquisition module comprises an automatic acquisition sub-module and a custom input sub-module;

the automatic acquisition submodule is used for periodically acquiring environment information of an air supply area of the intelligent air outlet system;

the custom input submodule is used for custom input of object information;

the selection module is used for reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

In the device, the environment information collected by the information collection module comprises environment information periodically obtained by the automatic collection sub-module and object information custom-input by the custom-input sub-module, wherein the custom-input sub-module can be a custom-input sub-module comprising an input function, and an input keyboard is arranged, so that a user can input the environment information in a wind-sending area of the intelligent wind-out device to the custom-input sub-module by himself. The user manually inputs the objects in the air-sending area, for example, the number of intelligent household devices in the air-sending area is 5 at present, the opening state of each intelligent household device, the heating state of each intelligent household device and the like. After the user inputs the self-defined object information, in order to avoid processing the environment information collected by the automatic collecting sub-module and the self-defined input object information at the same time and generating corresponding control instructions, the control executing module does not know which control instruction is executed, and confusion occurs, so that the current self-defined input object information is reserved in the environment information collected in the same time period and the self-defined input object information, and the control instructions are generated preferentially according to the self-defined input object information and parameter information.

It should be noted that the same time period may be a time interval set by the user or a time interval preset by the mobile terminal or the smart home device, for example, 15 minutes is set as a time interval, that is, from 10 am to 15 am is divided into one time period.

Preferably, the information processing module comprises a first identification unit, a second identification unit and a matching unit;

the first identification unit is used for identifying and obtaining first object information from environment information, wherein the first object information comprises at least one or more of the combination of the distribution position of objects, the distance of the objects, the height of the objects and the number of the objects;

the second identifying unit is used for identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or a combination of a plurality of on-off state of an object, running time of the object, heating state of the object and air quality parameters in the action range of the object;

the second identifying unit identifies second object information from the running state information, wherein the second object information comprises an on-off state of an object, for example, whether the intelligent household equipment is in an on state or an off state, and the intelligent household equipment in the on state needs to supply air and cool down, and the intelligent household equipment in the off state does not need to supply air; the intelligent household equipment comprises a heating state of an object, such as a computer host, when complex processing work is carried out, the temperature of a CPU (central processing unit) of the computer host is risen, so that the temperature of the host is risen, the host is in a high heating state, at the moment, the intelligent household equipment needs to supply air, and in a normal heating state, the air supply quantity can be reduced or no air supply is carried out; the intelligent household equipment comprises the operation time of an object, such as long-term intelligent household equipment during operation, and the generated temperature is naturally high, so that air supply is needed, and the air supply quantity needed by the intelligent household equipment with different operation time is also different; including air quality parameters within the target's range of action, such as a humidifier, the humidification effect is mostly concentrated at the outlet of the humidifier, resulting in a higher humidity in the air in the outlet range, and a lower humidity in the air in other ranges in the room, and then the supply of air is required to disperse the humidity in the outlet range to the other ranges in the room.

The matching unit is used for acquiring matching information of the combined arrangement of the object and each air outlet section according to the first object information and the second object information, and generating combined arrangement control instructions of a plurality of air outlet sections according to the matching information.

Specifically, the matching unit is configured to obtain, according to the first object information and the second object information, matching information of lengths of the object and each air outlet section, and generate a length control instruction of a plurality of air outlet sections according to the matching information;

after the intelligent air outlet equipment is started, acquiring environment information and running state information in an air supply area, and acquiring object information by identifying the environment information and the running state information, wherein the object comprises an air conditioner, a heating appliance, a humidifier and the like; the mode of the information acquisition module for acquiring the environmental information in the air supply area can be image recognition, infrared detection recognition or a combination thereof.

The combination arrangement of the plurality of air outlet grids comprises the distribution of the lengths of the air supply sections, wherein the lengths of the air supply sections refer to the number of the air outlet grids contained in a certain air supply section, and if the first air supply section has 10 air outlet grids and the second air supply section has 16 air outlet grids in one embodiment of the invention, the length of the first air supply section is smaller than that of the second air supply section.

Specifically, in the same air supply area, the distances between the intelligent household equipment and the intelligent air outlet equipment are different, and the required air supply quantity is different; the intelligent household equipment has different heating states and different required air supply amounts, and if the intelligent household equipment is in a high heating state, the heating amount is large, the required air supply amount is large, and in a normal heating state, the heating amount is small, and the required air supply amount is small; furthermore, the heating states of all the intelligent household devices have individual differences, and the required air supply amounts of the intelligent household devices in different heating states are different.

In an embodiment of the present disclosure, the predicted heating temperature of the smart home device may be obtained according to a mapping relationship between a predicted heating temperature of the smart home device and a length of the air supply section, which are stored in the smart air outlet device in advance, and the distance, the height and the temperature detection value of the smart home device are obtained, and the length of the air supply section is determined according to the predicted heating temperature of the smart home device.

It should be noted that, the length of the air supply section in this technical scheme refers to the number of the air outlet grating plates included in one air supply section, and when the predicted heating temperature of the intelligent home equipment is higher under the condition that the rotation speed of the air outlet grating plates in the intelligent air outlet equipment is equal, the length of the air supply section required by the intelligent home equipment is longer, the larger the range of the air can be sensed by a user, the larger the air supply amount is, and the requirements of different users on the intelligent air outlet equipment are more favorably met.

Further, the information processing module is used for determining the number of the air outlet sections formed by the plurality of air outlet grid plates and generating a control instruction for evenly distributing the lengths of the air outlet sections.

The number of the air outlet grating plates of the intelligent air outlet equipment is fixed, the number of the air outlet sections is determined, the lengths of the air outlet sections are evenly distributed according to the number of the air outlet sections, for example, the number of the air outlet grating plates of the intelligent air outlet equipment is 12, 2 air outlet sections are determined in total, then the number of the air outlet grating plates obtained by each air outlet section is 6, and the lengths of the air outlet sections are consistent.

Specifically, the matching unit is configured to obtain matching information of the position sequence of the object and each air outlet section according to the first object information and the second object information, and generate a section sequence control instruction for allocating a plurality of air outlet sections according to the matching information;

the control execution module controls the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the length control instruction and the section sequence control instruction.

According to the object information, analyzing and acquiring matching information of the object and the positions of the air outlet sections, wherein the matching information of the object and the positions of the air outlet sections specifically refers to the positions of the air outlet sections which can be supplied according to the matching of the object information, and the air supply requirement of the object meeting the object information includes but is not limited to the air outlet height and/or the transverse position of the air outlet section when in transverse distribution, and the like. The matching logic can be set when the intelligent air-out equipment leaves the factory, or can be set by a user according to the parameter information of the intelligent air-out equipment after purchasing. For example, a plurality of air outlet grating plates in the intelligent air outlet device are longitudinally arranged, and the higher the position of the air outlet section is, the farther the air supply distance is, so when the intelligent air outlet device leaves the factory, the air outlet sections with the height positions from high to low are sequentially distributed from far to near according to the distance information of the current object from the intelligent air outlet device, namely, the positions of the air outlet sections are matched and distributed from high to low according to the distance information of the current object from the intelligent air outlet device, and specifically, when the object information acquired by the intelligent air outlet device is the current distance information of 3 objects (A, B and C) in an air supply area, the analysis is obtained: the intelligent air outlet equipment is characterized in that a plurality of air outlet grating plates of the intelligent air outlet equipment are at least divided into 3 sections of air outlet sections, corresponding matching information is obtained according to the known distance information from far to near and is sorted into B, A and C, namely, the air outlet section or the air outlet section group with the highest position is distributed into B, then the control instruction of the air outlet section with the lowest position distributed to C is distributed to A, the control instruction of the height position is distributed to the intelligent air outlet equipment, and the intelligent air outlet equipment executes corresponding combination and distribution after receiving the control instruction.

For the matching of the object information and the sequence of the air outlet segments, the matching comprises the following cases, wherein the examples are listed one by one:

embodiment one: the space position information of the objects is the distance between the objects and the intelligent air outlet equipment, the distance is sequenced from far to near, the matching logic can be that the distance sequence of the objects relative to the intelligent air outlet equipment corresponds to the height sequence of the air outlet sections, namely, the objects far away from the intelligent air outlet equipment correspond to the air outlet sections with higher heights, the objects near to the intelligent air outlet equipment correspond to the air outlet sections with lower heights, and the arrangement sequence of the objects from far to near corresponds to the arrangement sequence of the air outlet sections from high to low; after the intelligent air outlet equipment acquires the distance sequence of the objects in the air outlet area relative to the intelligent air outlet equipment, each air outlet section is distributed to each object according to the height corresponding relation between the distance of the objects and the air outlet sections, and a control instruction with position distribution information is sent out and received and executed by the control execution module.

The position information of the object is the left and right positions of the object relative to the intelligent air outlet equipment, the left and right positions are sequenced from left to right, the matching logic can be that the arrangement sequence of the object relative to the left and right positions of the intelligent air outlet equipment corresponds to the high and low sequence of the air outlet sections of the intelligent air outlet equipment, namely, the object positioned at the left side of the intelligent air outlet equipment corresponds to the air outlet section with higher height, the object positioned at the right side of the intelligent air outlet equipment corresponds to the air outlet section with lower height, and the arrangement sequence of the object from left to right corresponds to the arrangement sequence of the air outlet sections from high to low; after the left and right positions of the objects in the air supply area relative to the intelligent air outlet equipment are obtained, distributing each air outlet section to each object according to the corresponding relation between the left and right positions of the objects and the height of the air outlet section, sending out a control instruction with position information, and receiving and executing the control instruction by the intelligent air outlet equipment.

Of course, the correspondence between the positions of the objects and the air outlet sections may be other corresponding manners, such as the arrangement sequence of the objects from far to near corresponding to the air outlet sections from low to high, the arrangement sequence of the objects from left to right corresponding to the air outlet sections from low to high, and so on.

Embodiment two: the object running time information is object running time, the time is sequenced, the matching logic can be that the sequence of the object running time corresponds to the high and low sequence of the air outlet sections of the intelligent air outlet equipment, namely, the object with long running time corresponds to the air outlet section with higher height, and the object with short running time corresponds to the air outlet section with lower height; after the intelligent air outlet equipment acquires the running time information of the objects, each air outlet section is distributed to each object according to the corresponding relation between the running time sequence of the objects and the height of the air outlet sections.

Of course, the corresponding relationship between the time information and the air outlet section may be: long run-time objects correspond to lower height wind-out sections, while short run-time objects correspond to higher height wind-out sections.

Embodiment III: the acquired object information is the height information of the object, a certain feature of the object is firstly set as a base point, such as the head of intelligent household equipment, and then the height of the base point of the object relative to the ground is acquired, namely the height information of the object; and then the acquired height information is ranked from high to low, and the matching logic can be as follows: according to the height sequence of the height information of the objects, the height sequence corresponds to the height sequence of the air outlet sections, namely, the object with the base point higher than the ground corresponds to the air outlet section with the higher height, the object with the base point lower than the ground corresponds to the air outlet section with the lower height, and the arrangement sequence of the base points of the objects from high to low corresponds to the arrangement sequence of the air outlet sections from high to low; after the intelligent air outlet equipment acquires the height sequence of the objects in the air outlet area relative to the ground, distributing each air outlet section to each object according to the height corresponding relation between the base point of the object and the height of the air outlet section, sending out a control instruction with position information, and receiving and executing the control instruction by the control execution module.

Fifth embodiment: the method comprises the steps that the height position of an air outlet section used by an object is stored in an information processing module of intelligent air outlet equipment in advance, if the intelligent home equipment A is used to use a section of the air outlet section with the highest height, the intelligent home equipment B is used to use a section of the air outlet section with the middle height, the mapping relation between the identity information of the intelligent home equipment A and the highest section of the air outlet section and the mapping relation between the identity information of the intelligent home equipment B and the section of the air outlet section with the middle height are stored in the intelligent air outlet equipment, when the intelligent home equipment A is in an air supply area and the intelligent air outlet equipment acquires the identity information of the intelligent home equipment A, the highest section of the air outlet section is distributed to the intelligent home equipment A, when the intelligent home equipment B is in the air supply area and the intelligent air outlet equipment acquires the identity information of the intelligent home equipment B, the middle section of the air outlet with the high height is distributed to the intelligent home equipment B, and the like.

Of course, the priority level of the identity information of the object can be set, and the priority allocation sequence of the air outlet section can be set for each identity information; when the same air outlet section corresponds to the identity information of a plurality of objects and the plurality of objects are simultaneously in the air supply area, the objects are distributed according to the priority level corresponding to the identity information of the objects, starting from the object with higher priority level and the priority distribution sequence; for example, the air supply area includes three objects, namely, an intelligent home device a, an intelligent home device B and an intelligent home device C, in which:

The priority level of the identity information of the intelligent household equipment A is the first level, and the priority allocation sequence of the position of the air outlet section of the identity information of the intelligent household equipment A is the middle position, the high position and the low position;

the priority level of the identity information of the intelligent household equipment B is the second level, and the priority allocation sequence of the position of the air outlet section of the identity information of the intelligent household equipment B is the middle position, the low position and the high position;

the priority level of the identity information of the intelligent household equipment C is the third level, and the priority allocation sequence of the position of the air outlet section of the identity information of the intelligent household equipment C is low-high-medium;

the method comprises the steps of pre-dividing a plurality of air outlet grid plates of the intelligent air outlet equipment into an air outlet section I, an air outlet section II and an air outlet section III which are sequentially arranged from high to low, wherein the air outlet sections of the three sections are distributed as follows:

the priority level of the intelligent household equipment A is higher, so that the intelligent household equipment A starts to distribute, and the position of the air outlet section in the middle position is arranged at the first position in the priority distribution sequence of the air outlet section of the intelligent household equipment A, so that the air outlet section arranged in the middle position is distributed to the intelligent household equipment A;

the priority level of the intelligent household equipment B is the second level, so that the intelligent household equipment B starts to be distributed after the intelligent household equipment A finishes distribution, and three rows of air outlet sections arranged at the low position are distributed to the intelligent household equipment B according to the priority distribution sequence of the positions of the air outlet sections of the intelligent household equipment B because the second air outlet section arranged at the middle position is distributed to the intelligent household equipment A;

The priority level of the intelligent household equipment C is the third level, so that the intelligent household equipment C starts to be distributed after the intelligent household equipment B finishes distribution, and the third air outlet section arranged at the low position is distributed to the intelligent household equipment B, so that the first air outlet section arranged at the high position is distributed to the intelligent household equipment C according to the priority distribution sequence of the positions of the air outlet sections of the intelligent household equipment C, and the distribution of the section sequences of the air outlet sections is finished.

Specifically, the matching unit is configured to obtain matching information of the number of the objects and each air outlet section according to the object information, and generate a section number control instruction for distributing a plurality of air outlet sections according to the matching information;

specifically, the object information may be the number of objects, the matching information of the number of the objects and the number of the air outlet sections is obtained according to the number of the objects, and a section number control instruction is generated according to the matching information.

Preferably, the information acquisition module is used for periodically acquiring environmental information in a blowing area of the intelligent air-out equipment;

the information processing module is also used for judging whether the latest acquired object information is the same as the object information acquired in the previous time;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

the control execution module controls the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

Specifically, when the object information is the number of objects in the air supply area, the number of the objects in the air supply area can not be kept unchanged all the time in the air supply process, and because the heating electric appliance can be cooled and the heating equipment can be stopped, when the number of the objects is changed, the intelligent air outlet equipment needs to be correspondingly adjusted in time so as to better adapt to the current use requirement; therefore, the number of the objects in the air-sending area can be periodically acquired to update the number of the air-sending sections, namely when the number of the objects in the air-sending area is unchanged, the intelligent air-sending equipment does not send out an adjustment control instruction, and the intelligent air-sending equipment keeps the original distribution state of the number of the air-sending sections; when the number of the objects in the air supply area is changed, the intelligent air outlet equipment analyzes and obtains an adjustment control instruction, and the number of the air outlet sections is updated to be matched with the number of the objects in the current air supply area according to the adjustment control instruction, so that the air supply requirement of each object in the air supply area is met, and the user experience is better. The regular period may be a set time interval of the intelligent air outlet device when leaving the factory, or may be set by the user when the user sets the time interval by himself.

For example, the intelligent air outlet equipment acquires 5 intelligent household equipment in an air supply area, then the intelligent air outlet equipment segments the air outlet grating plates and the physical parameter information of the intelligent air outlet equipment according to the number of the intelligent household equipment in a combined analysis way to generate a segment control instruction for dividing a plurality of air outlet grating plates of the intelligent air outlet equipment into five segments, and the intelligent air outlet equipment divides the air outlet grating plates into five segments of air outlet segments according to the segment control instruction and respectively corresponds to 5 objects; after a certain time, one object is changed into a closed state from an open state, at this time, the intelligent air outlet equipment acquires 4 intelligent household devices in the air supply area, and then the intelligent air outlet equipment segments the air outlet grating plates and the physical parameter information of the intelligent air outlet equipment according to the number of users in combination with re-analysis, so as to generate a segment adjustment control instruction for dividing a plurality of air outlet grating plates of the intelligent air outlet equipment into four segments, and the intelligent air outlet equipment divides the air outlet grating plates into four segments according to the segment adjustment control instruction, thereby completing the update of the number of air outlet segments.

Preferably, the state acquisition module is used for acquiring running state information of a plurality of intelligent household devices in the air supply area;

The information processing module is used for classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing the control instructions for carrying out combined arrangement on the intelligent household devices corresponding to the groups by the air outlet grid plate of the intelligent air outlet device according to the environment information and the running state information in each group.

In the invention, the intelligent household equipment and the intelligent air-out equipment are mutually independent, the intelligent air-out equipment can be a pair of multiple intelligent household equipment, so that the collected environment information comprises the operation state information of the multiple intelligent household equipment in the air-out area and the environment information corresponding to each intelligent household equipment in the air-out area of the intelligent air-out equipment, the information processing module classifies the parameter information and the environment information belonging to the same intelligent air-out equipment into a group, and further identifies and analyzes the control instruction of the air-out grid plate of the intelligent air-out equipment for carrying out combined arrangement on the corresponding intelligent household equipment in the group according to the environment information and the operation state information in each group, and the intelligent air-out equipment can be a pair of intelligent household equipment and only collect the environment information and the operation state information of one intelligent household equipment.

An air outlet section change control method based on equipment linkage is shown in fig. 1, and comprises intelligent air outlet equipment and intelligent household equipment, wherein the intelligent air outlet equipment is in communication connection with the intelligent household equipment;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

acquiring environmental information in a wind sending area of the intelligent wind outlet equipment;

acquiring running state information of the intelligent home equipment;

storing parameter information of the intelligent air-out equipment;

identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment;

and controlling a plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

Preferably, environment information and/or input custom object information of an air supply area of the intelligent air outlet system are periodically acquired;

and reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

Preferably, the first object information is obtained from the environment information in a recognition way, and the first object information comprises at least one or a combination of a plurality of distribution positions of objects, distances of the objects, heights of the objects and the number of the objects;

Identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or more combinations of an on-off state of an object, a running time of the object, a heating state of the object and air quality parameters in an action range of the object;

according to the first object information and the second object information, obtaining the matching information of the lengths of the object and each air outlet section, and according to the matching information, generating length control instructions of a plurality of air outlet sections;

according to the first object information and the second object information, obtaining matching information of the position sequence of the object and each air outlet section, and generating a section sequence control instruction for distributing a plurality of air outlet sections according to the matching information;

and controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the length control instruction and the section sequence control instruction.

Preferably, whether the latest acquired object information is the same as the object information acquired in the previous time is judged;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

and controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

Preferably, the running state information of a plurality of intelligent household devices in the air supply area is collected;

classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing according to the environment information and the running state information in each group to obtain a control instruction of the air outlet grid plate of the intelligent air outlet device for carrying out combined arrangement on the intelligent household devices corresponding to the group.

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

Claims (11)

1. Intelligent air-out system based on equipment linkage, its characterized in that: the intelligent air outlet device comprises intelligent air outlet equipment and intelligent household equipment;

the intelligent air-out equipment includes: the wind wheel, the wind wheel driving device, the wind guiding structure and the wind inlet and outlet array mechanism; the air inlet and outlet array mechanism comprises: the air duct structure comprises a plurality of layers of air duct layer structures which are overlapped up and down and a driving mechanism for driving each layer of air duct layer structure to independently and horizontally rotate; the air duct layer structure is annular and is a layered structure formed by stacking a plurality of layers of air outlet grid plates up and down;

The intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

the intelligent air outlet equipment comprises an information acquisition module, a parameter storage module, an information processing module and a control execution module;

the information acquisition module is used for acquiring environment information in a wind sending area of the intelligent wind-out equipment, wherein the environment information comprises running state information of intelligent household equipment in the wind sending area;

the parameter storage module is used for storing parameter information of the intelligent air outlet equipment;

the information processing module is used for identifying and analyzing according to the environment information and the parameter information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment, wherein the control instruction comprises a length control instruction, a section sequence control instruction and a section number control instruction;

the control execution module is used for controlling the plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

2. The intelligent air-out system based on equipment linkage according to claim 1, wherein:

the information acquisition module further comprises a state information acquisition sub-module, and the state information acquisition sub-module is used for acquiring the running state information of the intelligent household equipment.

3. The intelligent air-out system based on equipment linkage according to claim 1, wherein:

the information acquisition module comprises an automatic acquisition sub-module and a user-defined input sub-module;

the automatic acquisition submodule is used for periodically acquiring environment information of an air supply area of the intelligent air outlet system;

the custom input submodule is used for custom input of object information;

the selection module is used for reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

4. The intelligent air-out system based on equipment linkage according to claim 1, wherein:

the information processing module comprises a first identification unit, a second identification unit and a matching unit;

the first identification unit is used for identifying and obtaining first object information from environment information, wherein the first object information comprises at least one or more of the combination of the distribution position of objects, the distance of the objects, the height of the objects and the number of the objects;

the second identifying unit is used for identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or a combination of a plurality of on-off state of an object, running time of the object, heating state of the object and air quality parameters in the action range of the object;

The matching unit is used for acquiring matching information of the combined arrangement of the object and each air outlet section according to the first object information and the second object information, and generating combined arrangement control instructions of a plurality of air outlet sections according to the matching information.

5. The intelligent air-out system based on equipment linkage according to claim 4, wherein:

the information acquisition module is used for periodically acquiring environment information in a wind sending area of the intelligent wind-out equipment;

the information processing module is also used for judging whether the latest acquired object information is the same as the object information acquired in the previous time;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

the control execution module controls the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

6. The intelligent air-out system based on equipment linkage according to claim 1, wherein:

the information acquisition module is used for acquiring running state information of a plurality of intelligent household devices in the air supply area;

the information processing module is used for classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing the control instructions for carrying out combined arrangement on the intelligent household devices corresponding to the groups by the air outlet grid plate of the intelligent air outlet device according to the environment information and the running state information in each group.

7. An air outlet section change control method based on equipment linkage is characterized by comprising the following steps of: the intelligent air outlet device is in communication connection with the intelligent household device;

the intelligent air-out equipment includes: the wind wheel, the wind wheel driving device, the wind guiding structure and the wind inlet and outlet array mechanism; the air inlet and outlet array mechanism comprises: the air duct structure comprises a plurality of layers of air duct layer structures which are overlapped up and down and a driving mechanism for driving each layer of air duct layer structure to independently and horizontally rotate; the air duct layer structure is annular and is a layered structure formed by stacking a plurality of layers of air outlet grid plates up and down;

the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are mutually independent and movable;

acquiring environmental information in a wind sending area of the intelligent wind outlet equipment;

acquiring running state information of the intelligent home equipment;

storing parameter information of the intelligent air-out equipment;

identifying and analyzing according to the environment information, the parameter information and the running state information to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment, wherein the control instruction comprises a length control instruction, a section sequence control instruction and a section number control instruction;

and controlling a plurality of air outlet grid plates of the intelligent air outlet equipment to be combined and arranged into a plurality of air outlet sections according to the control instruction.

8. The method for controlling the change of the air outlet section based on equipment linkage according to claim 7, wherein the method comprises the following steps:

periodically acquiring environment information and/or input custom object information of an air supply area of the intelligent air outlet system;

and reserving the custom object information as output environment information in the environment information and the custom object information which are acquired in the same time period.

9. The method for controlling the change of the air outlet section based on equipment linkage according to claim 7, wherein the method comprises the following steps:

identifying and obtaining first object information from environment information, wherein the first object information comprises at least one or a combination of a distribution position of objects, a distance of the objects, a height of the objects and the number of the objects;

identifying and obtaining second object information from the running state information, wherein the second object information comprises at least one or more combinations of an on-off state of an object, a running time of the object, a heating state of the object and air quality parameters in an action range of the object;

according to the first object information and the second object information, obtaining the matching information of the lengths of the object and each air outlet section, and according to the matching information, generating length control instructions of a plurality of air outlet sections;

According to the first object information and the second object information, obtaining matching information of the position sequence of the object and each air outlet section, and generating a section sequence control instruction for distributing a plurality of air outlet sections according to the matching information;

and controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the length control instruction and the section sequence control instruction.

10. The method for controlling the change of the air outlet section based on equipment linkage according to claim 9, wherein the method comprises the following steps:

judging whether the latest acquired object information is the same as the object information acquired in the previous time;

if the two types of the data are the same, the analysis operation is not executed;

if the object information is different, analyzing and generating an adjustment control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the latest acquired object information;

and controlling the plurality of air outlet grid plates to be combined and arranged into a plurality of air outlet sections according to the adjustment control instruction.

11. The method for controlling the change of the air outlet section based on equipment linkage according to claim 7, wherein the method comprises the following steps:

collecting running state information of a plurality of intelligent household devices in a wind-sending area;

classifying the running state information of each intelligent household device and the environment information corresponding to each intelligent household device in the air supply area of the intelligent air outlet device into a plurality of groups, and identifying and analyzing according to the environment information and the running state information in each group to obtain a control instruction of the air outlet grid plate of the intelligent air outlet device for carrying out combined arrangement on the intelligent household devices corresponding to the group.