CN111425972B

CN111425972B - Processing device, air outlet system using same and hybrid control method

Info

Publication number: CN111425972B
Application number: CN202010247036.5A
Authority: CN
Inventors: 陈小平; 唐清生; 林勇进
Original assignee: Foshan Viomi Electrical Technology Co Ltd
Current assignee: Foshan Viomi Electrical Technology Co Ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2022-04-05
Anticipated expiration: 2040-03-31
Also published as: CN111425972A

Abstract

A processing device is suitable for an intelligent air outlet system, wherein the intelligent air outlet system comprises intelligent air outlet equipment, and the intelligent air outlet equipment is in communication connection with the processing device; the processing device comprises an information receiving module, a first information processing module and an instruction sending module; the information receiving module is used for receiving environmental information and parameter information sent by the intelligent air outlet equipment; the first information processing module is used for identifying and analyzing according to the environmental information and the parameter information to obtain an output control instruction of an air outlet grid plate of the intelligent air outlet equipment, and the output control instruction comprises the steps of combining and arranging the air outlet grid plates into a target air outlet form, combining and arranging the air outlet grid plates into air outlet sections, and distributing the position sequence of the air outlet sections; the instruction sending module is used for sending out an output control instruction. The invention provides a processing device, an air outlet system using the same and a hybrid control method, which achieve the effect of simultaneously meeting the air supply requirements of multiple persons by distributing the air supply sections of air outlet equipment.

Description

Processing device, air outlet system using same and hybrid control method

Technical Field

The invention relates to the technical field of intelligent household appliance control, in particular to a processing device, an air outlet system using the processing device and a hybrid control method.

Background

In the summer of inflammation, people can generally cool down through fan or air conditioner, thereby it is cool and cool to obtain a silk in the summer, and conventional tower fan is the air-out of single direction mostly on the existing market, the air supply scope is less, in time the tower fan can automatic left and right sides shake the head, increase the air supply scope and change air supply angle of tower fan, but because integrative structure when the tower fan, therefore the air supply direction is relatively fixed, and then can not come to cut apart the air supply direction of tower fan according to the demand, thereby adjust the air supply method of tower fan, for example when two people that exist simultaneously and be located different positions need blow in the room, the tower fan can only blow or alternately blow to two people alone, and can not blow to two people different wind directions or wind speed simultaneously, therefore, the air supply mode of tower fan just receives the restriction, can not satisfy the demand of many people simultaneously.

Disclosure of Invention

The invention aims to provide a processing device, an air outlet system using the processing device and a hybrid control method aiming at the defects in the background art, and the processing device can achieve the effect of simultaneously meeting the air supply requirements of multiple persons by distributing the air supply sections of the air outlet equipment.

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

a processing device is suitable for the intelligent air outlet system, the intelligent air outlet system comprises intelligent air outlet equipment, and the intelligent air outlet equipment is in communication connection with the processing device;

the processing device comprises a first information acquisition module, an information receiving module, a first information processing module and an instruction sending module;

the first information acquisition module is used for acquiring environmental information in an air supply area of the intelligent air outlet equipment;

the information receiving module is used for receiving the environmental information and the parameter information sent by the intelligent air outlet equipment;

the first information processing module is used for identifying and analyzing according to the environmental information acquired by the first information acquisition module and/or the environmental information and the parameter information, which are received by the information receiving module and sent by the intelligent air outlet equipment, to obtain an output control instruction for an air outlet grid plate of the intelligent air outlet equipment, wherein the output control instruction comprises the steps of combining and arranging the air outlet grid plates into a target air outlet form, combining and arranging the air outlet grid plates into air outlet sections, and distributing the position sequence of the air outlet sections;

the instruction sending module is used for sending the output control instruction.

Preferably, the system also comprises a first information acquisition module, an information screening module and a priority setting module;

the priority setting module is used for setting the priorities of the processing device and the intelligent air outlet equipment;

the information screening module is used for screening out repeated information from the environmental information acquired by the first information acquisition module and the environmental information received by the information receiving module, judging the priority of the processing device and the intelligent air outlet equipment, retaining the repeated information acquired by the first information acquisition module or the received repeated information sent by the intelligent air outlet equipment according to the judgment result of the priority, and combining unrepeated information as the current environmental information.

Preferably, the first information processing module comprises an identification sub-module and a matching module;

the identification submodule is used for identifying the environment information to obtain object information in the ventilation area, wherein the object information comprises at least one or more of the combination of distribution position of the object, height of the object, body temperature of the object, posture of the object, distance of the object, age of the object and physiological characteristics of the object;

the matching submodule is used for acquiring matching information of the position sequence of the object and each air outlet section according to the object information and generating a section sequence control instruction for distributing a plurality of air outlet sections according to the matching information;

the instruction sending module is used for sending the segment sequence control instruction to the intelligent air outlet equipment as an output control instruction.

Preferably, the air conditioner comprises an information mapping and pre-storing module, wherein the information mapping and pre-storing module is used for pre-storing the mapping relation between the object information and the air outlet form of the air outlet section;

the first information processing module also comprises a form matching submodule;

the shape matching submodule is used for analyzing matching information of the air outlet shapes of the objects and the air outlet sections of the intelligent air outlet equipment according to the object information and the mapping relation, and generating a shape control instruction for combining and arranging air outlet grid plates contained in the matched air outlet sections into the matched target air outlet shape according to the matching information;

the instruction sending module is used for sending the form control instruction to the intelligent air outlet equipment as an output control instruction.

Preferably, the information receiving module is further configured to receive identity information of an object and corresponding usage habit data sent by the intelligent air outlet device;

the first information processing module further comprises a judgment object sub-module, wherein the judgment object sub-module is used for judging whether the object information identified from the environment information is the same as the identity information of the object information pre-storage module, if so, corresponding use habit data is extracted to serve as adaptive adjustment information, and if not, the object information of different objects serves as new object information;

and the form matching submodule is used for acquiring matching information of the air outlet forms of each object and each air outlet section of the intelligent air outlet equipment according to the adaptive adjustment information and/or the new object information, and generating a form control instruction for combining and arranging air outlet grid plates contained in the matched air outlet sections into the matched target air outlet form according to the matching information.

Preferably, the information receiving module is configured to receive environment information of an air supply area of a plurality of intelligent air outlet devices and parameter information of the plurality of intelligent air outlet devices in the intelligent air outlet system;

the first information processing module is used for classifying the parameter information of each intelligent air outlet device and the environment information of an air supply area corresponding to the intelligent air outlet device into a plurality of groups, and identifying and analyzing according to the environment information and the parameter information in each group to obtain a control instruction of an air outlet grid plate of the intelligent air outlet device corresponding to the group;

the instruction sending module is used for sending respective corresponding control instructions to the intelligent air outlet devices.

An intelligent air outlet system comprises intelligent air outlet equipment and the processing device, wherein the intelligent air outlet equipment is in communication connection with the processing device;

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

the intelligent air outlet equipment comprises a second information acquisition module, a parameter storage module, a second information processing module, an information sending module, an instruction receiving module, an instruction selection module and a control execution module;

the second information acquisition module is used for acquiring environmental information in an air supply area of the intelligent air outlet equipment;

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

the second information processing module is used for identifying and analyzing according to the environmental information and the parameter information to obtain an execution control instruction of the air outlet grating plate of the intelligent air outlet device;

the information sending module is used for sending the environment information and the parameter information to the processing device;

the instruction receiving module is used for receiving an output control instruction of the intelligent air outlet equipment, which is sent by the processing device;

the instruction selection module is used for selecting the output control instruction and/or the execution control instruction as a final execution control instruction;

the control execution module is also used for controlling the air outlet grid plates to be combined and arranged according to the final execution control instruction to form a plurality of air outlet sections and a target air outlet form.

Preferably, the instruction selection module is configured to select an execution control instruction as a final execution control instruction when the processing device and the intelligent air outlet device cannot communicate with each other;

and the instruction receiving module is also used for simultaneously selecting the output control instruction and the execution control instruction as a final execution control instruction after receiving the output control instruction.

Preferably, the instruction receiving module is further configured to receive a custom control instruction;

the instruction receiving module is used for reserving the custom control instruction as an execution control instruction in the control instruction obtained by analysis and the received custom control instruction which are obtained under the same environment information;

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

Preferably, the intelligent air outlet device further comprises an object information pre-storing module, wherein the object information pre-storing module is used for pre-storing the identity information of the object and the corresponding use habit data;

the information sending module is also used for sending the identity information of the object and the corresponding use habit data to the processing device.

Preferably, the intelligent air outlet device further comprises a shape storage module, and one or more air outlet shapes are stored in the shape storage module in advance;

the air outlet form comprises any one or more of a spiral type, a staggered type and a direct blowing type and/or a combination of a plurality of types.

Preferably, the information processing module further comprises an update sub-module;

the updating submodule is used for judging whether the latest acquired environment information is the same as the environment information acquired last time;

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

and if not, analyzing and generating an adjusting control instruction for adjusting the combined arrangement of the air outlet grid plates of the intelligent air outlet equipment according to the newly acquired environment information.

A control method of a processing apparatus, disposed in the processing apparatus, the control method comprising the steps of:

receiving environmental information and parameter information of intelligent air outlet equipment;

identifying environmental information and parameter information and analyzing to obtain a control instruction for an air outlet grid plate of the intelligent air outlet equipment;

and sending out a control instruction.

Preferably, the environmental information includes object information within the blowing area;

according to the object information, matching information of the object and the position sequence of each air outlet section is obtained, and according to the matching information, a section sequence control instruction for distributing a plurality of air outlet sections is generated;

and sending the segment sequence control instruction.

Preferably, the mapping relationship between the object information and the air outlet form of the air outlet section is stored in advance;

analyzing the matching information of the air outlet forms of the objects and the air outlet sections of the intelligent air outlet equipment, and generating form control instructions for combining and arranging the air outlet grid plates contained in the matched air outlet sections into the matched target air outlet forms according to the matching information.

Preferably, the identity information of the object and the corresponding use habit data are received;

judging whether the object information identified from the environment information is the same as the identity information of the object information pre-storage module, if so, extracting corresponding use habit data as adaptive adjustment information, and if not, taking the object information of different objects as new object information;

and acquiring matching information of the air outlet forms of each object and each air outlet section of the intelligent air outlet equipment according to the adaptive adjustment information and/or the new object information, and generating a form control instruction for combining and arranging air outlet grid plates contained in the matched air outlet sections into a matched target air outlet form according to the matching information.

Preferably, the method is deployed in the intelligent air outlet system, the intelligent air outlet system includes an intelligent air outlet device and the processing device, and the method for controlling the change of the mixed air outlet section includes the following steps:

the intelligent air outlet equipment acquires environmental information and parameter information in an air supply area;

the intelligent air outlet equipment identifies environmental information and parameter information and analyzes the environmental information and the parameter information to obtain an execution control instruction for an air outlet grid plate of the intelligent air outlet equipment;

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

the intelligent air outlet equipment receives the control instruction and controls the air outlet grid plates to be combined and arranged according to the control instruction, so that a plurality of air outlet sections are formed.

Preferably, the processing device receives environmental information and parameter information in the air supply area;

the processing device identifies environmental information and parameter information and analyzes the environmental information and the parameter information to obtain an output control instruction of the air outlet grid plate of the intelligent air outlet equipment;

the intelligent air outlet equipment receives the output control instruction and controls the air outlet grid plates to be combined and arranged according to the output control instruction, and a plurality of air outlet sections and a target air outlet form are formed.

Has the advantages that:

1. the intelligent air-out equipment is provided with a second information acquisition module for acquiring environment information and storage parameter information of an air supply area and sending the environment information and the storage parameter information to the processing device, the processing device and the intelligent air-out equipment are provided with a first information processing module and a second information processing module for processing the environment information to respectively obtain an output control instruction and an execution control instruction, the instruction selection module is arranged on the intelligent air-out equipment for selecting a final execution control instruction, and the execution control module is controlled to realize the combined arrangement of the air-out grid plates, so that the high load of the intelligent air-out equipment is reduced, the disordered data acquisition is avoided, the requirement of multi-user air supply is met, and the effect of user experience is improved;

2. the air outlet grid plate of the intelligent air outlet device is divided into a plurality of air outlet sections, and the number, the position sequence and the air outlet form of the air outlet grid plates of the plurality of sections are intelligently adjusted, so that the air supply requirement of a plurality of people is met, the use experience of a user is improved, and the defects in the prior art are overcome.

Drawings

FIG. 1 is a flow chart of a hybrid control method of air outlet segment variation according to the present invention;

fig. 2 is a timing diagram of a processing apparatus and an intelligent air outlet device according to the present invention;

fig. 3 is a schematic structural diagram of an intelligent air outlet device in an embodiment of an intelligent air outlet system according to the present invention;

fig. 4 is a vertical sectional view of the intelligent air outlet device in fig. 3 according to the present invention;

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

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The processing device disclosed by the invention is suitable for the intelligent air outlet system as shown in fig. 2, wherein the intelligent air outlet system comprises intelligent air outlet equipment, and the intelligent air outlet equipment is in communication connection with the processing device;

At present, conventional tower fans in the market mostly have air outlet in a single direction, the air supply range is small, and even the tower fans can automatically swing left and right, the air supply direction is relatively fixed due to the fact that the tower fans are of an integrated structure, the air supply mode of the tower fans is limited, and the air supply requirements of multiple people cannot be met simultaneously.

In order to solve the technical problem, the technical scheme provides a processing device which is suitable for an intelligent air outlet system, and the intelligent air outlet system at least comprises an intelligent air outlet device. Specifically, the device receives environmental information and parameter information in an air supply area sent by intelligent air-out equipment through an information receiving module, the environmental information includes but is not limited to quantity information, infrared characteristic information or/and object distribution information of objects and the like which can be used for identifying and distinguishing the characteristic information of the objects, then the first information processing module of the device carries out identification and analysis, an analysis basis is provided for identification and analysis control instructions of each intelligent air-out equipment, meanwhile, operation work is independently processed, the operation burden of the intelligent air-out equipment is reduced, the load of the intelligent air-out equipment is reduced to a great extent, the processing device identifies and analyzes the environmental information and the parameter information to obtain control instructions, then the control instructions are sent to the intelligent air-out equipment through an instruction sending module of the device, and the intelligent air-out equipment controls a plurality of air-out grating plates to be combined and arranged according to the control instructions to form a plurality of air-out sections and a target air-out shape.

The device identifies and analyzes environmental information and parameter information through a first information processing module to obtain output control instructions of a plurality of air outlet grid plates, wherein the output control instructions are control instructions for performing combined arrangement on a plurality of air outlet grid plates, the output control instructions comprise control instructions for performing combined arrangement according to parameters of a plurality of air outlet sections for independently discharging air, the air outlet sections are formed by combining at least one air outlet grid plate, the parameters of the air outlet sections comprise the number, the position sequence or the air outlet form of the air outlet sections, further, the combined arrangement of the plurality of air outlet grid plates refers to the combination of any one or more distribution modes of the number, the position sequence or the air outlet form of the air outlet sections, in the device, the first information processing module generates and combines and arranges the air outlet grid plates into a target air outlet form and combines and arranges the air outlet grid plates into each air outlet section according to the environmental information and the parameter information, in this embodiment, only the air outlet form of the air outlet grid plate and the position sequence of each air outlet section are controlled, namely, the control instruction generated by the first information processing module is output to the position sequence of each air outlet section; with the analytic setting of these two relatively complicacies on this device, the operation load of the intelligent air-out equipment that significantly reduces improves the performance of intelligent air-out equipment. The device acquires environmental information in an air supply area sent by the intelligent air outlet equipment, and acquires object information through identifying the environmental information, wherein the object information includes but is not limited to position information of an object, time information of entering the air supply area, age information of the object, current height information of the object and/or favorite air supply information of the object, for example: the number of the objects and the corresponding body temperature information are identified through the infrared sign information, or the number of the objects and the age/height of the corresponding objects are identified through voice. Specific contents of the parsing include, but are not limited to, the number of subjects identified, corresponding body temperature information of the subjects, or height/age of the subjects, etc. The control instructions for segmenting and/or sequencing the air outlet grid plates of the intelligent air outlet device are, for example, identifying that the object information is 3 objects (A, B and C) in an air supply area through infrared sign information, dividing a plurality of air outlet grid plates of the intelligent air outlet device into at least 3 air outlet sections, sequencing the air outlet sections from far to near according to known distance information to be B, A and C, allocating the air outlet section or air outlet section group with the highest position to B, allocating the air outlet section with the lowest position to A, and allocating the air outlet section with the lowest position to C. Each air outlet section executes respective air supply in the air supply area at the position of the object, and the purpose of meeting the air supply requirements of multiple persons is achieved. For another example, if the object a is a child, the object B is a young adult, and the object C is an old age, it is analyzed that the air outlet section or the air outlet section group with the highest position is allocated to the object B, the air outlet section or the air outlet section group with the lowest position is allocated to the object C, and the air outlet section or the air outlet section group with the highest position is allocated to the object a. The analyzed logic may be pre-stored before the device leaves the factory, or may be input by the user in a customized manner after the user purchases the device.

In the present invention, the environment information identified and analyzed by the processing device is environment information in the air supply area sent by the intelligent air outlet device, and if only the intelligent air outlet device can collect the environment information, the following problems may occur: because the environment information contains a variety of information and the information acquisition modes are various, such as infrared detection, voice recognition or image recognition, if the environment information is acquired only by the intelligent air outlet equipment, the intelligent air outlet equipment needs to be provided with a variety of sensors; therefore, in order to solve the problem, the first information acquisition module of the device can be used for acquiring environmental information in the air supply area, the first information acquisition module of the device acquires part of the environmental information, the intelligent air outlet equipment acquires another part of the information, such as height information of the object, and body temperature information of the object, and after the device receives the body temperature information of the object sent by the intelligent air outlet equipment, the device can independently identify and analyze the body temperature information of the object, and can also identify and analyze the body temperature information by combining the height information acquired by the device; however, when the environmental information collected by the device and the environmental information collected by the intelligent air outlet equipment inevitably have repeated information, for example, the device collects height information and body temperature information, and the intelligent air outlet equipment collects distance information and body temperature information, wherein the body temperature information is repeated, the information is screened out by the information screening module to be repeated, the information collected by the device or equipment with high priority level is reserved, the unrepeated information is used as the current environmental information, for example, the device has high priority level and is reserved in the repeated body temperature information, if the device has high priority level, the height information, the body temperature information and the distance information are used as the current environmental information for identification and analysis, so that the problem that the cost of the equipment is increased due to too many collection devices installed on the intelligent air outlet equipment is solved;

The device analyzes and acquires matching information of the position of the object and each air outlet section according to the object information, wherein the object information is identified from the environment information by the identification submodule, and the object information comprises at least one or more combinations of distribution position of the object, height of the object, body temperature of the object, posture of the object, distance of the object, age of the object and physiological characteristics of the object; the matching information of the positions of the object and the air outlet section specifically refers to matching the position of the air outlet section capable of supplying air according to the object information, the air supply refers to meeting the air supply requirement of the object information, and the air supply requirement includes but is not limited to the air outlet height and/or the transverse position of the air outlet section when the air outlet section is transversely distributed. The matching logic may be a logic set by the device when the device leaves a factory, or a matching logic set by a user according to parameter information of the intelligent air outlet device after the device is purchased. For example, it is known that a plurality of air outlet grid plates in an intelligent air outlet device are longitudinally arranged, and the air outlet sections formed by the air outlet grid plates are located at higher positions and farther air supply distances, so that the device is initially set to sequentially allocate air outlet sections with height positions from high to low according to the distance information of the current objects from the intelligent air outlet device from far to near, that is, the air outlet sections are sequentially allocated according to the distance information of the current objects from the intelligent air outlet device from far to near, and the positions of the air outlet sections are matched and allocated from high to low after being sorted, specifically, when the object information identified by the device is the current distance information of 3 objects (A, B and C) located in an air supply area, the analysis is performed to obtain: the distances between the objects A, B and C and the intelligent air outlet equipment are B, C, A in sequence from far to near, the number of a plurality of air outlet grids or a plurality of groups of air outlet grids facing the air outlet section of B, C, A air supply is distributed according to the parameter information of the intelligent air outlet equipment, the number of the air outlet grids corresponding to the air outlet section of B is the least, the number of the air outlet grids corresponding to C is the second, and the number of the air outlet grids corresponding to A is the most.

For the matching of the position sequence of the object information and the air outlet section, the following conditions are included, one by one, embodiments are listed:

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

The position information of the objects is the left and right positions of the objects 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 sequence of the left and right positions of the objects relative to the intelligent air outlet equipment corresponds to the sequence of the air outlet sections of the intelligent air outlet equipment, namely, the object positioned on the left side of the intelligent air outlet equipment corresponds to the air outlet section with higher height, the object positioned on the right side of the intelligent air outlet equipment corresponds to the air outlet section with lower height, and the sequence of the objects from left to right corresponds to the sequence of the air outlet sections from high to low; after the device acquires the left and right positions of the object in the air supply area relative to the intelligent air outlet equipment, each air outlet section is distributed to each object according to the corresponding relation between the left and right positions of the object and the height of the air outlet section, a control instruction with position information is sent out, and the control instruction is received and executed by the intelligent air outlet equipment.

Of course, the corresponding relationship between the positions of the objects and the air outlet sections may also be in other corresponding manners, such as the sequence of the positions of the objects from far to near corresponding to the sequence of the air outlet sections from low to high, the sequence of the positions of the objects from left to right corresponding to the sequence of the air outlet sections from low to high, and the like.

Example two: the time information that the object enters the air supply area is the time that the object enters the air supply area, the time is sequenced in sequence, the matching logic can be that the sequence that the object enters the air supply area corresponds to the sequence of the air outlet sections of the intelligent air outlet equipment, namely, the object which enters the air supply area earlier corresponds to the air outlet section with higher height, and the object which enters the air supply area later corresponds to the air outlet section with lower height; after the device acquires the time information of the objects entering the air supply area, each air outlet section is distributed to each object according to the corresponding relation between the sequence of the objects entering the air supply area and the height of the air outlet section, a control instruction with position information is sent out, and the control instruction is received and executed by the intelligent air outlet equipment.

Of course, the corresponding relationship between the time information and the air outlet section may also be: the object entering the air supply area more first corresponds to the air outlet section with lower height, and the object entering the air supply area later corresponds to the air outlet section with higher height.

Example three: the obtained object information is age information of people, the obtained age information is sequenced, the ages of the users in the air supply area are actually identified and sequenced, the matching logic can be that the ranking sequence of the air outlet sections corresponding to the ranking sequence of the users from high to low according to the ranking sequence of the users from big to small, namely, the users with the big age correspond to the air outlet sections with the big height, and the users with the small age correspond to the air outlet sections with the small height; after the device acquires the age information of the user, each air outlet section is distributed to each user according to the corresponding relation between the age sequence of the user and the height of the air outlet section, a control instruction with position information is sent, and the control instruction is received and executed by the intelligent air outlet equipment. Of course, the age information of the user and the height corresponding relationship of the air outlet section can also be: users with small ages correspond to the air outlet sections with low heights, and users with large ages correspond to the air outlet sections with high heights;

an age threshold value is preset in a first information processing module of the device, wherein the age threshold value can be obtained by counting the blowing requirements of users of all age groups before the device leaves a factory, is preset in the first information processing module, and can also be manually set by the users; if the age of the user is larger than the age threshold, the older user corresponds to the air outlet section with the higher height, and the younger user corresponds to the air outlet section with the lower height; if the age of the user is smaller than the age threshold value, the older user corresponds to the air outlet section with the lower height, and the younger user corresponds to the air outlet section with the higher height, sends out the control command with the position information, and is received and executed by the intelligent air outlet equipment.

Example four: the obtained object information is height information of the object, a certain characteristic of the object is set as a base point, such as the head of a user, and then the height of the base point of the object relative to the ground is obtained, namely the height information of the object; then, the obtained height information is sorted from height to short, and the matching logic may be: the height sequence of the height information of the plurality of objects corresponds to the height sequence of the air outlet sections, namely, the object with the base point higher from the ground corresponds to the air outlet section with higher height, the object with the base point lower from the ground corresponds to the air outlet section with 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 device acquires the height sequence of the objects in the air supply area relative to the ground, each air outlet section is distributed to each object according to the corresponding relation between the height of the base point of the object and the height of the air outlet section, a control instruction with position information is sent out, and the control instruction is received and executed by the intelligent air outlet equipment.

Example five: the height position of an air outlet section used by an object is stored in a first information processing module of the device in advance, if a user A is used to use an air outlet section with the highest height and a user B is used to use an air outlet section with the middle height, the mapping relation between the identity information of the user A and the highest air outlet section and the mapping relation between the identity information of the user B and the air outlet section with the middle height are stored in the device, when the user A is shown in an air supply area and the device acquires the identity information of the user A, the highest air outlet section is distributed to the user A, when the user B is shown in the air supply area and the device acquires the identity information of the user B, the air outlet section with the middle height is distributed to the user B, a control instruction with position information is sent, the control instruction is received and executed by intelligent air outlet equipment, and the process is analogized.

Of course, the priority level of the identity information of the object can be set, and the priority distribution sequence of the air outlet sections can be set by 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 in the air supply area at the same time, according to the priority level corresponding to the identity information of the objects, the objects with higher priority levels are distributed according to the priority distribution sequence; for example, the air supply area includes three objects of a user a, a user B, and a user C, among which:

the priority level of the identity information of the user A is the first level, and the air outlet section position of the identity information of the user A is preferentially distributed in the sequence of middle position-high position-low position;

the priority level of the identity information of the user B is the second level, and the air outlet section position of the identity information of the user B is preferentially distributed in the sequence of middle position, low position and high position;

the priority level of the identity information of the user C is the third level, and the air outlet section position of the identity information of the user C is distributed in a low-high-middle-high order in priority;

the air outlet grating plates 310 of the intelligent air outlet device are pre-divided 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, the three air outlet sections are totally three air outlet sections, and the distribution process of the three air outlet sections is as follows:

the priority level of the user A is higher, so that the air outlet section is distributed from the user A, and the air outlet section arranged in the middle position is distributed to the user A because the air outlet section in the middle position is arranged at the first position in the air outlet section priority distribution sequence of the user A;

the priority level of the user B is the second level, so that the user B starts to distribute after the user A finishes distributing, and because the air outlet section II arranged at the middle position is already distributed to the user A, the air outlet section III arranged at the lower position is distributed to the user B according to the air outlet section position priority distribution sequence of the user B;

the priority level of the user C is the third level, so the user C starts to distribute after the user B finishes distributing, and because the air outlet section III arranged at the lower position is already distributed to the user B, one air outlet section arranged at the higher position is distributed to the user C according to the air outlet section position priority distribution sequence of the user C, and the distribution of the air outlet section sequence is finished.

The device analyzes matching information of air outlet forms of each object and each air outlet section of the intelligent air outlet equipment through pre-storing mapping relations between object information and the air outlet forms of the air outlet sections, generates form control instructions according to the matching information, sends the form control instructions to the intelligent air outlet equipment, divides a plurality of air outlet grid plates which independently move or a plurality of groups of air outlet grid plates which independently move into a plurality of air outlet sections of the intelligent air outlet equipment according to the form control instructions, and arranges the air outlet grid plates contained in each air outlet section into a target air outlet form according to corresponding object information; the air outlet shape means that the air outlet of the air outlet section forms a corresponding air blowing effect under the guidance of the air outlet grid plates which are arranged in a combined manner by statically or dynamically combining and arranging the air outlet grid plates contained in the air outlet section; the static combined arrangement means that a plurality of air outlet grid plates included in the air outlet section are arranged according to a certain rule, and the plurality of air outlet grid plates 310 are kept relatively static, for example, the air outlet directions of the plurality of air outlet grid plates included in the air outlet section are arranged according to a spiral rule, and the plurality of air outlet grid plates included in the air outlet section are relatively fixed; the dynamic combination arrangement refers to that part or all of the air outlet grating plates contained in the air outlet section regularly move relatively, for example, the air outlet grating plates contained in the air outlet section are divided into a plurality of air outlet parts, and the air outlet grating plates contained in each air outlet part are relatively fixed; the air outlet parts reciprocate in the air supply range in a staggered mode and exhaust air to the air supply area; of course, the air outlet form may be a combined arrangement form of the air outlet grid plates set by the intelligent air outlet device when the device leaves the factory, or a combined arrangement form of the air outlet grid plates set by the user after purchase. The target air outlet form refers to an air outlet form allocated to the air outlet section corresponding to the object according to the object information.

The air outlet form distribution method of the air outlet section comprises the following steps: the device receives environment information in an air supply area sent by intelligent air outlet equipment, identifies and acquires object information from the environment information, wherein the object information comprises but is not limited to distance information of objects, age information of the objects, state information of the objects, surface temperature information of the objects, physiological characteristic parameter information of the objects and/or identity information of the objects, and acquires matching information of air outlet forms of the objects and air outlet sections according to the object information, wherein the matching information of the air outlet forms of the objects and the air outlet sections specifically refers to matching the air outlet forms of the air outlet sections capable of supplying air according to the object information, the air supply refers to meeting air supply requirements of the objects of the object information, and the air supply requirements comprise but not limited to air outlet quantity and/or air supply range. The matching logic may be a logic set by the device when it is shipped from a factory, or may be a matching logic set by the user after purchase.

In an embodiment of the present technical solution, after obtaining matching information between a certain object and an air outlet shape of a corresponding air outlet section, the specific steps of combining and arranging air outlet grid plates included in the air outlet section into a target air outlet shape are as follows: after the intelligent air outlet device acquires the control instruction, the unit driving device of the intelligent air outlet device drives the air duct layer structure at the corresponding position to horizontally rotate relative to the air guide structure, so that the air outlet grid plates are combined and arranged under the driving of the unit driving device, and a target air outlet form is formed. This application accessible is arranged into different air-out forms with the air-out grid plate combination that the air-out section contained to give the different impression of blowing of user, can satisfy user's demand of blowing like this better.

Further, the information mapping pre-storage module is configured to pre-store a mapping relationship between the object information and an air outlet form of the air outlet section, where the mapping relationship specifically includes:

1. the mapping relation between the distance of the object relative to the intelligent air outlet equipment and the air outlet form of the air outlet section is stored in advance;

the object information is distance information of an object relative to the intelligent air outlet equipment;

2. pre-storing a mapping relation between the age of a user and the air outlet form of the air outlet section;

the object information is age information of the user;

3. the mapping relation between the state of a user and the air outlet form of the air outlet section is stored in advance;

the object information is state information of a user;

4. pre-storing a mapping relation between the surface temperature of the object and the air outlet form of the air outlet section;

the object information is surface temperature information of an object;

5. the method comprises the steps of storing a mapping relation between physiological characteristic parameters of a user and an air outlet form of an air outlet section in advance;

the object information is physiological characteristic parameter information of the user;

the shape matching submodule acquires matching information of the object and the air outlet shape of the corresponding air outlet section according to the object information, and the air outlet grid plates contained in the air outlet section are arranged into a target air outlet shape in a combined mode according to the matching information;

specifically, the following examples are set forth to illustrate:

as one embodiment of the present technical solution, the distance information of the object refers to a distance between the object and the intelligent air outlet device, and because the air outlet patterns formed by the combined arrangement of the air outlet grid plates included in the air outlet section are different, the sizes of the wind forces are also different, and the distance that can be reached by the wind forces are different, a mapping relationship between the distance between the object and the intelligent air outlet device and the air outlet pattern of the air outlet section can be stored in advance, specifically, a plurality of distance sections are stored in advance, each distance section corresponds to a different air outlet pattern, for example, three distance sections of long distance, middle distance and short distance are stored in advance, and the matching logic can be that the middle distance corresponds to a spiral air outlet pattern, the middle distance corresponds to an interlaced air outlet pattern, and the long distance corresponds to a direct-blowing air outlet pattern; when the distance information of the object falls into any distance interval, matching the air outlet form corresponding to the distance interval with the object information to obtain matching information, and then arranging the air outlet grid plates contained in the air outlet section corresponding to the object into a target air outlet form, for example:

when the object information falls into a short-distance interval, the air supply section corresponding to the object runs a spiral air outlet form;

when the object information falls into the distance interval of the middle distance, the air supply section corresponding to the object runs the staggered air outlet form;

when the object information falls into a long-distance interval, the air supply section corresponding to the object runs in a direct blowing type air outlet form.

As one embodiment of the present technical solution, the age information of the user refers to the age of the user; the user groups of different ages have different requirements on air blowing because the user groups of different ages have larger differences in physique, for example, young users are more suitable for the direct-blowing type air-out form with strong wind power because the physique is stronger; the elderly are weak, so the utility model is suitable for spiral wind outlet; and the body of the children with relatively small age is in the development stage, and the physique of the children is better than that of the old, so that the children are suitable for the staggered air outlet form.

Therefore, the mapping relationship between the age of the object and the air outlet form of the air outlet section can be stored in advance, specifically, a plurality of age sections are stored in advance, each age section corresponds to a different air outlet form, for example, three age sections of children, young people and old people are stored in advance, the matching logic can be that middle children correspond to the staggered air outlet form, young people correspond to the direct-blowing air outlet form, and old people correspond to the spiral air outlet form; when the age information of the object falls into any one age interval, matching the air outlet form corresponding to the age interval with the object information to obtain matching information, and then arranging the air outlet grating plates contained in the air outlet section corresponding to the object into a target air outlet form, for example:

when the object information falls into the age interval of the old, the air supply section of the object runs a spiral air outlet form;

when the object information falls into the age interval of the child, the air supply section of the object runs the staggered air outlet form;

and when the object information falls into the age interval of young people, the air supply section of the object runs the direct blowing type air outlet form.

As one embodiment of the technical solution, the state information of the user is a motion state of the user; the motion state refers to the amplitude of the user's motion; since a user in a moving state feels heat relatively easily, and the larger the amplitude of the movement is, the larger the air volume demand is, the logic matched with the user may be to divide the moving state of the user into a plurality of levels, where each level corresponds to one air outlet form, for example:

when the motion state of the user is in a first level, the air supply section of the object runs a spiral air outlet form;

when the motion state of the user is in a second-level state, the air supply section of the object runs the staggered air outlet form;

when the motion state of the user is in three stages, the air supply section of the object runs a direct blowing type air outlet form.

As another embodiment of the present technical solution, the state information of the user is an emotional state of the user; emotional state refers to the user's current mood, including but not limited to calmness, anger, and excitement; when the obtained state information of the user is calm, the air outlet section corresponding to the user runs a spiral air outlet form; when the obtained state information of the user is gas generation, the air outlet section corresponding to the user runs in a staggered air outlet form; and when the obtained state information of the user is excited, the air outlet section corresponding to the user runs the direct blowing type air outlet form.

As one example of the present disclosure, the surface temperature information of the object specifically refers to a surface temperature of the object, and the surface temperature of the object reflects an air supply requirement of the object to a large extent. It can be understood that the logic of matching may be to divide the surface temperature of the object into three levels, where the higher the surface temperature of the object is, the higher the corresponding level is, and each level corresponds to a different air outlet form, for example:

when the surface temperature of a user is in a first level, the air supply section of the user runs a spiral air outlet form;

when the surface temperature of the user is in the second stage, the air supply section of the user operates the staggered air outlet form;

when the surface temperature of the user is three levels, the air supply section of the user runs a direct blowing type air outlet form.

As one example of the technical solution, users in different physiological states have different air supply requirements, in an air supply area in the same environment, a user in a calm state may not need to supply air, and a user who just changes from a sport state to a calm state may have much sweat due to excessive exercise consumption, and at this time, may need to supply air very much. And user's physiological state can judge through the physiological characteristic parameter that intelligent wearing equipment acquireed, for example, be in the user of calm state, its heart rate is pulsating with normal rate, breathes relatively steadily, and body surface temperature is close with normal body surface temperature etc. and just change into the user of calm state from the motion state, and its heart rate is pulsating with the rate that is faster than normal rate, breathes relatively precipitously, and normal body surface temperature is higher slightly than to body surface temperature etc..

Specifically, the physiological characteristic parameters in the technical solution include, but are not limited to, any one or combination of more of body surface temperature, heart rate, respiratory rate, brain waves, fingertip pulse, electrocardiogram, and body state; the physiological characteristic parameters of the user can be acquired through the wearable device, and then the wearable device transmits the acquired physiological characteristic parameters of the user to the intelligent air outlet device through a network; through analyzing and judging the detected various physiological characteristic parameters, the physiological state of the user can be judged more conveniently and accurately, and the requirement of the user on air supply can be predicted better; in the technical scheme, the mapping relationship between physiological characteristic parameter information of a user and the air outlet form of the air outlet section is stored in advance, specifically, one or more parameter intervals are preset, and each parameter interval corresponds to one air outlet form; when a certain physiological characteristic parameter of a user reaches a certain parameter interval, the air outlet section corresponding to the user operates the air outlet form corresponding to the physiological characteristic parameter interval, for example, the physiological characteristic parameter is the heart rate of the user, and the air outlet section is divided into three heart rate intervals according to the heart rate:

if the heart rate of the user is less than 90 times/minute, the air supply section corresponding to the object runs in a spiral air outlet form;

if the heart rate of the user is 90-120 times/minute, the air supply section corresponding to the object runs in a staggered air outlet form;

and if the heart rate of the user is more than 120 times/minute, the air supply section corresponding to the object runs in a direct blowing type air outlet form.

If the heart rate of the user is detected to be 70 times/minute, the user is possibly in a calm state at the moment, so that the air supply requirement of the user is relatively low, and the user can feel comfortable when the air outlet section corresponding to the user runs in the spiral air outlet mode; if the heart rate of the user is detected to be 130 times/minute, it is indicated that the user may just finish moving at the moment, and the user needs relatively large air output and relatively concentrated air supply direction to rapidly reduce heat, so that the air supply requirement of the user can be met only when the air outlet section corresponding to the user runs the direct blowing type air outlet form.

As another embodiment of the present technical solution, identity information of an object is stored in an intelligent air outlet device in advance, for example, identity information of objects a and B is stored, then usage habit data corresponding to the identity information is collected, the intelligent air outlet device sends the identity information and the usage habit data to the device, the usage habit data refers to frequency of an air outlet form used by an object corresponding to each identity information in daily use, if an air outlet form of an air outlet section used by the user a is spiral, and an air outlet form of an air outlet section used by the user B is direct-blowing, the identity information of the user a and the spiral air outlet form a mapping relationship, and the identity information of the user B and the direct-blowing air outlet form a mapping relationship, and are stored in the device; when the user A is shown in the air supply area and the device acquires the identity information of the user A through the intelligent air outlet equipment, the device is allocated to the air outlet section of the user A to operate a spiral air outlet form; when the user B appears in the air supply area and the device acquires the identity information of the user B through the intelligent air outlet equipment, the device distributes the air outlet section of the user B to run the direct-blowing air outlet form, and the like.

In the invention, the device and the intelligent air outlet equipment are mutually independent, the device can be a pair of multiple intelligent air outlet equipment, so that the environment information received by the information receiving module comprises environment information in the air supply area of the multiple intelligent air outlet equipment and parameter information of the multiple intelligent air outlet equipment, the parameter information and the environment information belonging to the same intelligent air outlet equipment are classified into one group by the first information processing module, and then the control instruction of the multiple intelligent air outlet equipment is generated according to the environment information and the parameter information in each group.

An intelligent air outlet system is shown in fig. 2 and comprises intelligent air outlet equipment and the processing device, wherein the intelligent air outlet equipment is in communication connection with the processing device;

This technical scheme provides an intelligence air-out system, intelligence air-out system include at least one intelligence air-out equipment with processing apparatus. Specifically, the device acquires the environmental information in the air supply area through the second information acquisition module and stores the parameter information through the parameter storage module, and the mode of acquiring the environmental information in the air supply area through the second information acquisition module can be image recognition, infrared detection recognition or a combination thereof. The environment information includes but is not limited to quantity information, infrared characteristic information or/and object distribution information of the objects and other characteristic information which can be used for identifying and distinguishing the objects;

the environmental information and the parameter information are sent to the processing device through an information sending module of the equipment for identification and analysis, an analysis basis is provided for identification and analysis control instructions of each intelligent air-out equipment, meanwhile, operation work is independently processed, the operation burden of the intelligent air-out equipment is reduced, and the load of the intelligent air-out equipment is reduced to a great extent; and meanwhile, the equipment receives an output control instruction sent by the processing device by using an instruction receiving module, selects the output control instruction and an execution control instruction generated by a second information processing module of the equipment as a final execution control instruction, wherein the selection of the final execution control instruction comprises the selection of one or both of the output control instruction and the execution control instruction, and the selection is executed simultaneously.

In addition, the equipment stores the parameter information of the equipment through the parameter storage module, wherein the information storage module can also be a parameter storage module with an input function and is provided with an input keyboard, so that a user can input the parameter information of the intelligent air outlet equipment into the equipment by himself or can set the parameter information by default when the equipment leaves a factory. The parameter information of the intelligent air outlet device includes, but is not limited to, the number of the air outlet grid plates, the thickness of the air outlet grid plates, the number of the wind wheels or/and the matching information of the wind wheels and the air outlet grid plates and other hardware matching parameter information.

The intelligent air outlet device is applicable to the intelligent air outlet device with the following structure, but not limited to the structure of the intelligent air outlet device.

An intelligence air-out equipment, as shown in fig. 3 and 4, includes: the wind wheel 100, the wind wheel driving device 130, the wind guide structure and the wind inlet and outlet array mechanism 140; the air inlet and outlet array mechanism 140 includes: the air duct structure comprises a plurality of layers of air duct layer structures which are stacked up and down and a driving mechanism for driving each layer of air duct layer structure to independently rotate horizontally; the drive mechanism includes: a plurality of unit driving devices 400 independently installed and driving parts in transmission fit with the unit driving devices 400; the driving part is arranged on the air duct layer structure. The wind wheel 100 is vertically arranged and is in transmission connection with the wind wheel driving device 130; the wind guide structure is arranged on the outer side of the wind wheel 100 and used for guiding wind on the outer side of the wind wheel; the air inlet and outlet array mechanism 140 is covered on the outer side of the air guide structure, and the unit driving device 400 is used for driving the air duct layer structure at the corresponding position to horizontally rotate relative to the air guide structure. The air duct layer structure is annular and is a layered structure formed by overlapping a plurality of layers of air outlet grid plates 310 up and down, the lower surfaces of the air outlet grid plates 310 vertically extend downwards to form air outlet duct plates 321, and the air outlet 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 air outlet grid plate is divided into an air outlet section I, an air outlet section II and an air outlet section III, and the concrete steps of the segmentation are as follows: and a certain intelligent air outlet device acquires human body infrared information in the air supply region through a second information acquisition module (infrared detection module), identifies three users in the air supply region according to the human body infrared information, processes and identifies the environmental information to obtain object information, segments the air outlet grating plates according to the number of the users and the physical parameter information of the intelligent air outlet device by combining and analyzing, and generates a segmented control instruction for dividing a plurality of air outlet grating plates 310 of the intelligent air outlet device into three segments. After the unit driving device 400 of the intelligent air outlet device obtains the segment 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 divided into three air outlet segments under the driving of the unit driving device 400. The intelligent air outlet equipment combines and arranges each air outlet grid plate, realizes the segmentation of a plurality of air outlet grid plates 310 of the intelligent air outlet equipment, and the air outlet section I, the air outlet section II and the air outlet section III can independently rotate to different or same rotation angles, so that the realization of simultaneously meeting the air supply requirements of multiple persons becomes possible.

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

In the system, the intelligent air outlet equipment and the processing device are mutually independent and are connected through communication, once the communication connection between the equipment and the processing device is in a problem or when the processing device cannot identify or analyze to obtain a control instruction, the equipment cannot receive the control instruction sent by the processing device, the equipment cannot control the combined arrangement of the air outlet grid plates according to the control instruction, and therefore the equipment cannot work independently. When the communication between the equipment and the processing device is normal and the processing device analyzes the output control command, after the equipment receives the output control command, the execution control command analyzed by the second information processing module and the output control command are used as a final execution control command together and are executed by the control execution module. In this way, an independent operation device, namely a processing device, is additionally arranged outside the intelligent air outlet device, the processing device processes two relatively complex control instructions, the most basic control instruction is processed and operated by the device, if the second information processing module of the device processes all the environmental information and parameter information to obtain all the control instructions for controlling the air outlet grid plate of the device, the operation load of the device can be increased, the device is in a high-load state, and the service life and maintenance of the device are inconvenient, so that the device sends the environmental information and the parameter information to the processing device, the processing device identifies and analyzes the environmental information and the parameter information to obtain a part of control instructions, and then the instruction receiving module of the device receives the control instructions sent by the processing device to control the execution module to execute the control instructions; the method realizes that only a part of environmental information and parameter information is recognized in the equipment, and the control instruction related to the number of the air outlet sections is obtained through analysis, the control instruction is a basic control instruction of the equipment, the basic operation of the equipment is guaranteed, the operation load of the equipment is greatly reduced, and the processing device is used for recognizing other environmental information and parameter information of the equipment and analyzing the control instruction.

In the equipment, the obtained control instruction comprises a user-defined control instruction besides a control instruction obtained by a processing device through identification and analysis according to environment information and parameter information, the equipment receives the user-defined control instruction through an instruction receiving module, the user-defined control instruction is a user-defined control instruction distributed to a plurality of air outlet sections according to actual requirements, and the user-defined control instruction comprises the number of the air outlet sections and the air outlet mode of the air outlet sections, for example, a user manually inputs a user-defined control instruction for blowing 5 users in an air supply area, or manually inputs a user-defined control instruction for blowing a certain user in the air supply area by using a certain air outlet mode;

if the device is under the same environmental information, the instruction receiving module receives a user-defined control instruction and acquires a control instruction obtained by analysis sent by the processing device, the user-defined control instruction is preferentially reserved, the user-defined control instruction is sent to the control execution module as an execution control instruction, and the control execution module controls a plurality of air outlet grid plates to be combined and arranged according to the execution control instruction, so that the situation that the control execution module does not know which execution is caused due to the fact that the two control instructions are received simultaneously is avoided, and unnecessary confusion is caused, and the user experience is reduced. The same environmental information means that the environmental information in the air supply area does not change, namely, the custom control instruction is reserved as the execution control instruction in the control instruction obtained by analysis and the received custom control instruction which are obtained in the time period when the environmental information in the air supply area does not change. It is generally determined whether or not the number of objects in the environment information changes.

The equipment also comprises an object information pre-storage module, wherein the object information pre-storage module stores the identity information of the object in the intelligent air outlet equipment in advance, such as storing the identity information of the objects A and B, and then collects the use habit data corresponding to the identity information, wherein the use habit data refers to the frequency of the air outlet form used by the object corresponding to each identity information in daily use; the information sending module sends the information to the processing device for recognition and analysis, corresponding control instructions are obtained according to the object identity information and the use habit data, corresponding operations are executed according to the control instructions, convenience is provided for users, and experience of the users and intellectualization of equipment are improved.

In an embodiment of the present technical solution, the intelligent air outlet device stores one or more air outlet forms in advance through the form storage module, where the form storage logic may be a logic set by the intelligent air outlet device when the intelligent air outlet device leaves a factory, or a form storage logic set by a user after the intelligent air outlet device is purchased.

Specifically, the spiral air outlet form means that the air outlet directions of a plurality of air outlet grid plates included in the air outlet section are arranged in a spiral shape, the plurality of air outlet grid plates included in the air outlet section are relatively fixed, and when air is blown, the air outlet grid plates included in the air outlet section can integrally rotate or do spiral reciprocating motion within a certain angle range; spiral air-out form has the big advantage of air-out scope dispersion area, and at the in-process of blowing, the air-out is spiral circulation, and the wind sense is soft comfortable.

The staggered air outlet form means that the air outlet grating plate contained in the air outlet section is divided into a plurality of air outlet parts, and the air outlet grating plate contained in each air outlet part is relatively fixed; the air outlet parts alternately discharge air to the air supply area and form surrounding airflow around the object; the staggered air outlet means that a plurality of air outlet parts perform air supply operation to the air supply area in a non-synchronous mode, for example, two air outlet parts rotate at the same speed and in opposite directions within a certain angle range.

The air outlet shape of the direct blowing type means that the air outlet directions of a plurality of air outlet grid plates contained in the air outlet section are the same, and the air outlet section is relatively fixed or reciprocates within a certain angle range. The wind power can be gathered by the air outlet form of the direct blowing type, so that the wind power is stronger.

The air outlet form comprises any one or more of a spiral form, a staggered form and a direct blowing form and/or a combination of a plurality of forms, and specifically comprises the following conditions:

1. may include any of a spiral type, an interlaced type, and a direct blow type, for example, only a spiral type;

2. may include any number of spiraling, interleaving, and direct blowing, including, for example, spiraling, interleaving, and direct blowing;

3. combinations of any of the spiraling, interleaving, and direct blowing types may be included, including, for example, spiraling and interleaving, spiraling and direct blowing, and interleaving and direct blowing; the multiple combinations specifically mean that more than two air outlet forms are combined and run on the same air outlet section, for example, a certain air outlet section is divided into two secondary air outlet sections, one of the secondary air outlet sections is in a spiral air outlet form, and the other secondary air outlet section is in a direct blowing air outlet form.

4. And may include one or more of spiral, staggered and direct blown combinations, including, for example, spiral and staggered combinations, spiral and direct blown combinations, and staggered and direct blown combinations.

5. And may include a plurality and combination of the spiral, staggered, and direct-blown types, including, for example, spiral, staggered, direct-blown, a combination of spiral and staggered, a combination of spiral and direct-blown, and a combination of staggered and direct-blown. Of course, the air outlet form may be preset when the intelligent air outlet device leaves the factory, or may be set by the user according to the user's own needs.

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

Specifically, when the object information identified in the environment information is the number of objects in the air supply area, the number of the objects in the air supply area cannot be kept unchanged all the time in the air supply process, because the objects such as users and pets can move around, and the heating electric appliance can be cooled down and the heating equipment can be shut down, so that when the number of the objects changes, the intelligent air outlet equipment can better meet the current use requirement by timely performing corresponding adjustment; therefore, the number of the objects in the air supply area is obtained periodically, so that the number of the air outlet sections can be updated, namely when the number of the objects in the air supply area is unchanged, the intelligent air outlet equipment does not send out an adjustment control instruction, and the intelligent air outlet equipment keeps the original distribution state of the number of the air outlet sections; and when the number of the objects in the air supply area changes, the intelligent air outlet equipment analyzes and obtains the 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 requirements of all the objects in the air supply area are met, and the user experience is better. The method includes that the intelligent air-out device periodically acquires object information in an air-sending area, and the periodicity can be a set time interval carried by the intelligent air-out device when the intelligent air-out device leaves a factory or a time interval set by a user during initial setting.

For example, the intelligent air outlet device acquires that 5 users exist in the air supply area, then the device segments the air outlet grid plates and the parameter information by combining and analyzing according to the number of the users, generates a segmented control instruction for dividing a plurality of air outlet grid plates into five segments, and divides the air outlet grid plates into five air outlet segments according to the segmented control instruction, wherein the air outlet segments correspond to 5 objects respectively; after a certain time, one object leaves the air supply area, at the moment, the intelligent air outlet device acquires that 4 users exist in the air supply area, the intelligent air outlet device performs segmentation on the air outlet grid plates and the parameter information in a combined and reanalyzed mode according to the number of the users to generate a segmentation adjustment control instruction for dividing the plurality of air outlet grid plates into four segments, and the intelligent air outlet device divides the air outlet grid plates into four air outlet segments according to the segmentation adjustment control instruction, so that the number of the air outlet segments is updated.

and sending out a control instruction.

and sending the segment sequence control instruction.

Preferably, as shown in fig. 1, the method is deployed in the intelligent air outlet system, the intelligent air outlet system includes an intelligent air outlet device and the processing device, and the method for controlling the change of the mixed air outlet section includes the following steps:

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

Claims

1. A processing apparatus, characterized by: the intelligent air outlet system is suitable for an intelligent air outlet system, the intelligent air outlet system comprises intelligent air outlet equipment, and the intelligent air outlet equipment is in communication connection with the processing device;

the instruction sending module is used for sending the output control instruction;

the system also comprises an information screening module and a priority setting module;

the information screening module is used for screening out repeated information from the environmental information acquired by the first information acquisition module and the environmental information received by the information receiving module, judging the priority of the processing device and the intelligent air outlet equipment, retaining the repeated information acquired by the first information acquisition module or the repeated information sent by the intelligent air outlet equipment according to the judgment result of the priority, and combining unrepeated information as the current environmental information.

2. A processing apparatus according to claim 1, characterized in that:

the first information processing module comprises an identification submodule and a matching submodule;

3. A processing apparatus according to claim 1, characterized in that:

the air outlet device comprises an information mapping and pre-storing module, wherein the information mapping and pre-storing module is used for pre-storing the mapping relation between object information and the air outlet form of the air outlet section;

4. A processing apparatus according to claim 3, characterized in that:

the information receiving module is also used for receiving the identity information of the object and the corresponding use habit data sent by the intelligent air outlet equipment;

5. A processing apparatus according to claim 1, characterized in that:

the information receiving module is used for receiving the environment information of the air supply areas of the intelligent air outlet devices and the parameter information of the intelligent air outlet devices in the intelligent air outlet system;

6. The utility model provides an intelligence air-out system which characterized in that: the intelligent air outlet device is in communication connection with the processing device;

7. The intelligent air outlet system of claim 6, wherein:

the instruction selection module is used for selecting an execution control instruction as a final execution control instruction when the processing device and the intelligent air outlet equipment cannot communicate;

8. The intelligent air outlet system of claim 6, wherein:

the instruction receiving module is also used for receiving a user-defined control instruction;

9. The intelligent air outlet system of claim 7, wherein:

the intelligent air outlet equipment also comprises an object information pre-storing module, wherein the object information pre-storing module is used for pre-storing the identity information of the object and the corresponding use habit data;

10. The intelligent air outlet system of claim 6, wherein:

the intelligent air outlet equipment also comprises a shape storage module, and one or more air outlet shapes are stored in the shape storage module in advance;

11. The intelligent air outlet system of claim 6, wherein:

the information processing module also comprises an updating submodule;

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

12. A hybrid control air outlet section change method is characterized in that:

the hybrid control air outlet section change method is deployed in the intelligent air outlet system, the intelligent air outlet system comprises an intelligent air outlet device and the processing device of any one of claims 1 to 5, and the hybrid control air outlet section change method comprises the following steps:

13. The method of claim 12, wherein the method comprises:

the processing device receives environmental information and parameter information in the air supply area;