CN111336125B - Intelligent air outlet system and method for controlling change of air outlet section - Google Patents

Abstract

An intelligent air outlet device comprises an acquisition module, an information storage module, an information processing module, a control execution module and a plurality of air outlet grid plates which independently move; the collection module is used for collecting environmental information in an air supply area of the intelligent air outlet equipment; the information 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 environmental information and the parameter information to obtain control instructions of the plurality of wind outlet grid plates; and the control execution module is used for controlling the plurality of air outlet grid plates to be combined and arranged to form a plurality of air outlet sections according to the control instruction. The invention provides an intelligent air outlet system and a method for controlling the change of an air outlet section, which achieve the effect of meeting the air supply requirements of multiple persons at the same time by distributing the air supply sections of air outlet equipment.

Description

Intelligent air outlet system and method for controlling change of air outlet section

Technical Field

The invention relates to the technical field of intelligent household appliance control, in particular to an intelligent air outlet system and a method for controlling change of an air outlet section.

Background

In hot summer, people usually cool by a fan or an air conditioner, so that a cool feeling is obtained in summer, wherein the most used fan is a tower fan;

most of conventional tower fans in the current market are air-out in a single direction, the air supply range is small, and the tower fans can automatically shake the head left and right generally, so that the air supply range of the tower fans is enlarged and the air supply angle is changed;

however, due to the integral structure of the tower fan, the air supply direction is relatively fixed, and further 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 persons located at different positions need to blow air indoors at the same time, the tower fan can only blow air to one person or blow air to two persons in a staggered manner, but cannot blow air to two persons at different wind directions or wind speeds at the same time, therefore, the air supply mode of the tower fan is limited, and the requirement of air supply by multiple persons cannot be met at the same time.

Disclosure of Invention

The invention aims to provide an intelligent air outlet system and a method for controlling the change of an air outlet section aiming at the defects in the background art, and the effect of meeting the air supply requirements of multiple persons at the same time is achieved by distributing the air supply sections of air outlet equipment.

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

an intelligent air outlet device comprises an acquisition module, an information storage module, an information processing module, a control execution module and a plurality of air outlet grid plates which independently move;

the collection module is used for collecting environmental information in an air supply area of the intelligent air outlet equipment;

the information 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 environmental information and the parameter information to obtain control instructions of the plurality of wind outlet grid plates;

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

Preferably, the acquisition module comprises an automatic acquisition submodule and a custom input submodule;

the automatic acquisition submodule is used for periodically acquiring environmental information;

the user-defined input submodule is used for user-defined input of object information;

the information processing module is used for reserving the object information input by the user in the environment information and the object information input by the user in the same time, and analyzing and obtaining the control instructions of the plurality of wind outlet grid plates according to the object information and the parameter information input by the user.

Preferably, the device also comprises a command transceiver module;

the command transceiver module is used for receiving a user-defined control command and sending an output control command given by the information processing module;

the information processing module is used for reserving the user-defined control instruction as an output control instruction in the control instruction and the user-defined control instruction which are analyzed in the same time;

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

Preferably, the automatic acquisition submodule is a sensor.

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

the recognition submodule is used for obtaining object information from environment information recognition, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

the first 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;

preferably, the system 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 processing module 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 be used as adaptive adjustment information, and if not, the object information of different objects is used as new object information;

and the second matching submodule is used for acquiring matching information of the length of the object and each air outlet section according to the adaptive adjustment information and/or the new object information, and generating a length control instruction for distributing a plurality of air outlet sections according to the matching information.

Preferably, the intelligent air-out device further comprises an automatic closing module, wherein the automatic closing module is used for judging whether the currently acquired environmental information meets the air supply standard after the intelligent air-out device is opened, and automatically closing the intelligent air-out device if the environmental information does not meet the air supply standard.

A method for controlling the change of an air outlet section is deployed on intelligent air outlet equipment, and comprises the following specific steps:

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

identifying environmental information and parameter information and analyzing to obtain a control instruction of the wind outlet grid plate;

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

Preferably, environmental information in the wind delivery area is periodically acquired;

and acquiring the object information input by user definition.

Preferably, when the environment information and the object information input by the user are acquired within the same time, the object information input by the user is retained, and the control instructions of the plurality of air outlet grid plates of the intelligent air outlet device are obtained through analysis according to the object information input by the user and the parameter information of the intelligent air outlet device.

Preferably, a user-defined control instruction is received;

when the control instruction and the user-defined control instruction are obtained in the same time, the user-defined control instruction is reserved as an output control instruction, and a plurality of air outlet grid plates of the intelligent air outlet equipment are controlled to be combined and arranged to form a plurality of air outlet sections according to the output control instruction.

Preferably, the specific steps of analyzing and obtaining the control command are as follows:

identifying and obtaining object information from the environment information, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

according to the object information, acquiring the matching information of the position sequence of the object and each air outlet section and/or acquiring the matching information of the length of the object and each air outlet section;

and according to the matching information, generating a segment sequence control instruction for distributing a plurality of air outlet segments and/or generating a length control instruction for the plurality of air outlet segments.

Preferably, the identity information of the object and the corresponding use habit data are stored in advance;

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

acquiring matching information of the object and the segment length of each air outlet segment according to the adaptive adjustment information and/or the new object information;

and generating a length control instruction for distributing the air outlet sections of the plurality of sections according to the matching information.

Has the advantages that:

1. the intelligent air outlet device is provided with the acquisition module to realize the acquisition of environmental information, the information storage module to realize the storage of parameter information of the intelligent air outlet device, the command transceiving module to realize the reception of control instructions, the information processing module to realize the processing of the environmental information and the transmission of the control instructions, and the control execution module to realize the combined arrangement of the control air outlet grid plates, so that the high load of the intelligent air outlet device is reduced, the air supply requirements of multiple persons are met, and the 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 lengths and the sequence of the air outlet sections are intelligently adjusted, so that the requirement of air supply for multiple people is met, the use experience of a user is improved, and the defects in the prior art are overcome. Furthermore, a method for controlling the change of the air outlet section is provided, which has high intelligence degree and can divide the air outlet grating plate into a plurality of air outlet sections according to the number of people in the air supply area.

Drawings

FIG. 1 is a flow chart of a method of controlling a change in an outlet section of the present invention;

fig. 2 is a timing diagram of an intelligent air outlet system 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 invention discloses intelligent air outlet equipment, which comprises an acquisition module, an information storage module, an information processing module, a control execution module and a plurality of air outlet grid plates, wherein the air outlet grid plates independently move;

the collection module is used for collecting environmental information in an air supply area of the intelligent air outlet equipment;

the information 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 environmental information and the parameter information to obtain control instructions of the plurality of wind outlet grid plates;

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

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 an intelligent air outlet device, wherein the intelligent air outlet device is provided with a plurality of mutually independent air outlet grid plates, for example, a tower fan/column-shaped floor fan and other electric fans which are provided with a plurality of mutually independent movable air outlet grid plates and have independently arranged air supply parameters of the air outlet grid plates. The control instruction of intelligence air-out equipment includes that a plurality of air-out grid plates to intelligence air-out equipment make up and arrange, and intelligence air-out equipment carries out the combination of air-out grid plate according to control instruction and arranges, obtains the air-out section that a plurality of can independently air-out, and an air-out grid plate group can satisfy at least one user or a plurality of users that the air supply demand is the same, and the air supply mode of each air-out section has each user to set up separately, realizes satisfying many people's air supply demand simultaneously. Particularly, this intelligence air-out equipment is equipped with a plurality of air-out grid plates of mutual independence, and every air-out grid plate all is equipped with unit drive arrangement promptly, is that every air-out grid plate can realize mutual independence's rotation around the pivot of intelligence air-out equipment.

Specifically, the intelligent air outlet device obtains environmental information in the air supply region through the collection module, wherein the environmental information includes, but is not limited to, quantity information of objects, distance of the objects relative to the intelligent air outlet device, state of the objects, infrared characteristic information or/and object distribution information and the like, which can be used for identifying and distinguishing the objects.

In addition, the information storage module receives the parameter information of the self-equipment, wherein the information storage module can be an information storage module which automatically identifies the parameter information of the intelligent air outlet equipment, for example, the part model of the intelligent air outlet equipment is identified, the parameter information of the intelligent air outlet equipment is obtained through the part model, the information storage module can also be an information storage module which comprises an input function, and the parameter information of the intelligent air outlet equipment is input manually or through a computer in advance during production. 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.

This equipment passes through information processing module to environmental information and parameter information discernment and analysis, obtains the control command of a plurality of air-out grid tray, control command is for the control command that combines to arrange to a plurality of air-out grid trays of intelligence air-out equipment, and including wherein combining to arrange according to the parameter of the air-out section of a plurality of independent air-out, the air-out section is formed by at least one air-out grid tray combination, and the parameter of air-out section includes the air-out grid tray quantity or the position order of air-out section, and is further, the combination of a plurality of air-out grid trays is arranged and is referred to the combination of arbitrary one or more distribution mode in the air-out grid tray quantity or the position order of air-out section. Acquiring environmental information in the air supply area, and acquiring object information by identifying the environmental information, wherein the object information includes, but is not limited to, position information of the 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, such as: the height/age of the object and the distance of the user are identified through voice identification, or the distance of the user and the body temperature of the corresponding object are identified through infrared sign information. Specific contents of the parsing include, but are not limited to, a distance according to the identified user, corresponding body temperature information of the subject, or a height of the subject, etc. The control instruction for segmenting and/or sequencing the air outlet grating plates of the intelligent air outlet equipment is, for example, 3 objects (A, B and C) in an air supply area are identified through infrared sign information, the distances between the objects A, B and C and the intelligent air outlet equipment are detected through voice identification, the sequencing is sequentially B, C, A from far to near, the number of a plurality of air outlet grating plates or a plurality of groups of air outlet grating plates facing the air outlet section B, C, A for supplying air is distributed according to the parameter information of the intelligent air outlet equipment, the number of the air outlet grating plates corresponding to the air outlet section B is the minimum, the number of the air outlet grating plates corresponding to the air outlet section C is the second, the number of the air outlet grating plates corresponding to the air outlet section A is the maximum, each air outlet section executes respective air supply in the air supply area where the object is located, and the purpose of simultaneously meeting the requirements of multiple persons supplying air 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.

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

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: there are three air-out sections altogether of air-out section one, air-out section two and air-out section three, thereby distribute the length of controlling every air-out section to the quantity of the air-out grid plate of every air-out section, the quantity of the air-out grid plate of every air-out section has many to have a few, and it realizes that the concrete step of distributing the quantity of air-out grid plate is: the device acquires human body infrared information in the air supply area through the acquisition module (infrared detection module), identifies the distance of a user corresponding to each air outlet section according to the human body infrared information, then combines and analyzes the air outlet grid plates 310 and the parameter information according to the distance of the user to carry out segmentation, and generates a control instruction for distributing the number of the air outlet grid plates 310 to each air outlet section according to the distance of the user. After the unit driving device 400 of the intelligent air outlet device obtains 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 grid plates of the intelligent air outlet equipment are combined and arranged, the number of the air outlet grid plates 310 of each air outlet section of the intelligent air outlet equipment is distributed, 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 meeting the air supply requirements of multiple persons at the same time 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.

Preferably, the acquisition module comprises an automatic acquisition submodule and a custom input submodule;

the automatic acquisition submodule is used for periodically acquiring environmental information;

the user-defined input submodule is used for user-defined input of object information;

the information processing module is used for reserving the object information input by the user in the environment information and the object information input by the user in the same time, and analyzing and obtaining the control instructions of the plurality of wind outlet grid plates according to the object information and the parameter information input by the user.

In this equipment, the environmental information that the collection module gathered includes the environmental information that the automatic collection submodule piece regularly obtained and the object information at the custom input submodule piece custom input, and custom input submodule piece can be including the custom input submodule piece of input function, is provided with input keyboard for the user can be by oneself with the environmental information input to custom input submodule piece in the air supply region of intelligent air-out equipment. The user manually inputs the objects in the blowing area, such as the number of the users in the current blowing area is 5, the age and the position of each person. After the user inputs the user-defined object information, in order to avoid simultaneously processing the environment information acquired by the automatic acquisition submodule and the user-defined input object information, a corresponding control instruction is generated at the same time, so that the control execution module does not know which kind of control instruction is executed, and confusion occurs, therefore, the current user-defined input object information is reserved in the environment information acquired in the same time and the user-defined input object information, and the control instruction is generated preferentially according to the user-defined input object information and the user-defined input parameter information.

Preferably, the device also comprises a command transceiver module;

the command transceiver module is used for receiving a user-defined control command and sending an output control command given by the information processing module;

the information processing module is used for reserving the user-defined control instruction as an output control instruction in the control instruction and the user-defined control instruction which are analyzed in the same time;

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

In the equipment, the control instruction obtained by analyzing the information processing module according to the environment information and the parameter information also comprises a self-defining control instruction received by the command transceiver module, after the user inputs the user-defined control instruction, the control execution module can control a plurality of air outlet grid plates according to the user-defined control instruction, meanwhile, when receiving the self-defining control instruction, the user wants to keep the change of the air outlet section controlled by the self-defining control instruction unchanged, the control instruction obtained by the analysis of the information processing module is used for adjusting and controlling the change of the air outlet section in real time, so that the control instruction obtained by the analysis of the information processing module can not be used any more, therefore, the command transceiver module stops sending the control command obtained by the analysis of the information processing module, preferentially processes the user-defined control command, and outputs the user-defined control command to the control execution module as an output control command.

The user-defined control instruction comprises user-defined object information and is used for distributing a plurality of air outlet sections;

further, according to the self-defined section length signal, the lengths of the air outlet sections of the plurality of sections are distributed;

for the adjustment of the length of the air outlet section, the manually input control instruction comprises a self-defined section length signal to determine how to allocate the length of the air outlet section, for example, if a control instruction that the length of the first air outlet section is 5 and the length of the second air outlet section is 3 is input, the control instruction automatically adjusts the number of the air outlet grating plates of the first air outlet section to 5 and the number of the air outlet grating plates of the second air outlet section to 3, so that the effect of randomly adjusting the length of the air outlet section is realized, and the user experience is improved.

Furthermore, the position sequence of the air outlet sections of the plurality of sections is distributed according to the self-defined matching signals.

The control instruction that intelligence air-out equipment obtained can be manually input's control instruction, and this control instruction is according to self-defined matching signal, distributes the position order of a plurality of sections air-out sections, and self-defined matching signal can be to the concrete matching information of each user's air-out section position in the current air supply region, can use the air-out section that is located the high district in order to match user A, and user B uses the air-out section that is located the middle district, and user C uses the air-out section that is located the lower district. Through the user-defined matching signal, each air outlet section can be respectively distributed to the corresponding object according to the requirement of each object so as to correspond to a more complex use scene, and thus the use experience of the user can be further improved.

Preferably, the automatic acquisition submodule is a sensor.

In the present invention, the automatic acquisition sub-module includes, but is not limited to, an infrared sensor, a voice acquisition sensor, a thermal imaging sensor, an image acquisition sensor, and the like.

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

the recognition submodule is used for obtaining object information from environment information recognition, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

after the intelligent air outlet equipment is started, object information in an air supply area is obtained, wherein the objects comprise people, pets, heating electric appliances, humidifiers and the like; the mode of acquiring the object information in the wind sending area by the acquisition module can be image recognition, infrared detection recognition or a combination thereof.

The first 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;

and analyzing and acquiring matching information of the positions of the object and each air outlet section according to the object information, wherein the matching information of the positions of the object and the air outlet sections specifically refers to matching the positions of the air outlet sections capable of supplying air according to the object information, the air supply refers to meeting the air supply requirements of the object information, and the air supply requirements include but are 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 intelligent air outlet device when the intelligent air outlet device leaves the factory, or a matching logic set by the user according to the parameter information of the intelligent air outlet device after the user purchases the intelligent air outlet device. For example, it is known that a plurality of air outlet grid plates in an intelligent air outlet device are longitudinally arranged, and an air outlet section formed by the air outlet grid plates is located at a higher position and has a longer air supply distance, so that the air outlet sections with height positions from high to low are sequentially allocated from far to near according to the distance information of the current object from the intelligent air outlet device when the intelligent air outlet device leaves a factory, that is, the air outlet sections are sorted from far to near according to the distance information of the current objects from the intelligent air outlet device, and the positions of the air outlet sections are matched and allocated from high to low after the sorting, specifically, when the object information acquired by the intelligent air outlet 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 air outlet grating plates of the intelligent air outlet device are at least divided into 3 air outlet sections, corresponding matching information is obtained by sequencing B, A and C from far to near according to known distance information, namely the air outlet section or the air outlet section group with the highest position is allocated to B, the air outlet section group with the lowest position is allocated to A, the control instruction of the air outlet section group with the lowest position allocated to C is sent to the intelligent air outlet device, and the intelligent air outlet device executes corresponding combination and allocation after receiving the control instruction.

For the matching of the object information and the air outlet section sequence, 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 intelligent air outlet equipment acquires the distance sequence of the objects in the air supply area relative to the intelligent air outlet equipment, distributing each air outlet section to each object according to the distance of the objects and the height corresponding relation of the air outlet sections, sending a control instruction with position distribution information, and receiving and executing the control instruction by the control execution module.

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 left and right positions of the objects in the air supply area relative to the intelligent air outlet equipment are obtained, each air outlet section is distributed 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, 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; and after the intelligent air outlet equipment acquires the time information of the object entering the air supply area, distributing each air outlet section to each object according to the corresponding relation between the sequence of the object entering the air supply area and the height of the air outlet section.

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 intelligent air outlet equipment acquires the age information of the user, each air outlet section is allocated to each user according to the corresponding relation between the age sequence of the user and the height of the air outlet section. 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 is preset in an information processing module of the intelligent air outlet device, wherein the age threshold can be obtained by counting the air blowing requirements of users of all ages before the intelligent air outlet device leaves a factory, is preset in the 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, 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 a control instruction with position information, and is received and executed by the control execution module.

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 intelligent air outlet equipment 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 control execution module.

Example five: 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 a user A is used to use a section of 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 section of 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 intelligent air outlet equipment, when the user A is shown in an air supply area and the intelligent air outlet equipment acquires the identity information of the user A, the highest section of air outlet section is allocated to the user A, when the user B is shown in the air supply area and the intelligent air outlet equipment acquires the identity information of the user B, the air outlet section with the middle height is allocated to the user B, and so on.

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.

And the second matching submodule is used for acquiring matching information of the length of the object and each air outlet section according to the object information and generating length control instructions of a plurality of air outlet sections according to the matching information.

The combination and arrangement of the plurality of air outlet grid plates comprises the step of distributing the length of the air supply section, wherein the length of the air supply section refers to the number of the air outlet grid plates contained in one air supply section, and if the first air supply section has 10 air outlet grid plates and the second air supply section has 16 air outlet grid plates 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 distance from a user to the intelligent air outlet equipment is different, and the required air supply amount is different; the current postures of the users are different, the required air supply amount is also different, if the users sit quietly, the required air supply amount is smaller, and if the users are in an active state, the required air supply amount is larger; further, there are individual differences in body temperature of each user, and the amount of air supply required by users with different body temperatures is also different.

In an embodiment of the technical solution, the distance, posture and temperature detection value of the user can be obtained according to a mapping relation between the predicted body temperature of the user and the length of the air supply section, which is pre-stored in the device, to judge the predicted body temperature of the user, and the length of the air supply section can be determined according to the predicted body temperature of the user.

It should be noted that, the length of the air supply section in the present technical solution refers to the number of the air outlet grid plates included in one air supply section, and under the condition that the rotation speeds of the wind wheels in the intelligent air outlet device are equal, when the predicted body temperature of the user is larger, the length of the air supply section required by the user is longer, the user can feel the larger the range of the wind, the larger the air supply amount is, which is more beneficial to meeting the requirements of different users on the intelligent air outlet device.

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

The quantity of air-out grid plate of intelligence air-out equipment is fixed, and when confirming the quantity of air-out section, according to the quantity of air-out section, carry out average distribution to the length of air-out section, for example the quantity of the air-out grid plate of intelligence air-out equipment is 12, confirms 2 air-out sections altogether, then every air-out section divides the quantity that obtains the wind grid plate to be 6, and the length of every air-out section is unanimous.

Preferably, the system 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 processing module 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 be used as adaptive adjustment information, and if not, the object information of different objects is used as new object information;

and the second matching submodule is used for acquiring matching information of the length of the object and each air outlet section according to the adaptive adjustment information and/or the new object information, and generating a length control instruction for distributing a plurality of air outlet sections according to the matching information.

As another embodiment of the present technical solution, identity information of an object is stored in the intelligent air outlet device in advance, for example, identity information of objects a and B is stored, and then usage habit data corresponding to the identity information is collected, where the usage habit data refers to frequency of segment lengths used by objects corresponding to each identity information in daily use, and if the segment length of an air outlet segment used by user a is 35% and the segment length of an air outlet segment used by user B is 10%, a mapping relationship between the identity information of user a and the segment length of the air outlet segment, and a mapping relationship between the identity information of user B and the segment length of the air outlet segment are stored in the intelligent air outlet device, when user a is present in the air supply region and the intelligent air outlet device obtains the identity information of user a, the segment length allocated to the air outlet segment of user a by the intelligent air outlet device is 35%, when user B is present in the air supply region, and when the intelligent air outlet device acquires the identity information of the user B, the length of the air outlet section allocated to the user B by the intelligent air outlet device is 10%, and so on.

Preferably, the intelligent air-out device further comprises an automatic closing module, wherein the automatic closing module is used for judging whether the currently acquired environmental information meets the air supply standard after the intelligent air-out device is opened, and automatically closing the intelligent air-out device if the environmental information does not meet the air supply standard.

In the actual use process of the intelligent air-out device, after the intelligent air-out device is started and air is supplied to an object in an air supply area for a period of time, the object in the air supply area does not accord with the air supply standard, the situation which does not accord with the air supply standard comprises but is not limited to the situation that the air supply object does not exist in the air supply area, or the situation that the object exists in the air supply area but does not meet the air supply requirement, and at the moment, the automatic closing module automatically closes the intelligent air-out device for a period of time after the situation occurs. For example, after the intelligent air outlet device is turned on, a user object exists in the air supply area but other objects such as other heating appliances do not exist, the intelligent air outlet device supplies air to a user in the air supply area, after the air is supplied for a period of time, the user leaves the air supply area, and the user does not return to the air supply area within a preset time, the intelligent air outlet device is automatically turned off, and the preset time can be factory setting of the intelligent air outlet device or manual setting of the user; for another example, when the air supply region only has other objects such as a heating electric appliance and does not have a user object, the air supply demand of the heating electric appliance is lower than the minimum air supply demand set by the intelligent air outlet device, at this time, the intelligent air outlet device does not need to provide air supply for the heating electric appliance, after the preset time, the intelligent air outlet device is automatically turned off, and the minimum air supply demand of the intelligent air outlet device can be factory set for the intelligent air outlet device or manually set by the user.

A method for controlling a change of an air outlet section, as shown in fig. 1, is deployed in the intelligent air outlet device, and the method for controlling a change of an air outlet section specifically includes the following steps:

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

identifying environmental information and parameter information and analyzing to obtain a control instruction of the wind outlet grid plate;

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

Preferably, environmental information in the wind delivery area is periodically acquired;

and acquiring the object information input by user definition.

Preferably, when the environment information and the object information input by the user are acquired within the same time, the object information input by the user is retained, and the control instructions of the plurality of air outlet grid plates of the intelligent air outlet device are obtained through analysis according to the object information input by the user and the parameter information of the intelligent air outlet device.

Preferably, a user-defined control instruction is received;

when the control instruction and the user-defined control instruction are obtained in the same time, the user-defined control instruction is reserved as an output control instruction, and a plurality of air outlet grid plates of the intelligent air outlet equipment are controlled to be combined and arranged to form a plurality of air outlet sections according to the output control instruction.

Preferably, the specific steps of analyzing and obtaining the control command are as follows:

identifying and obtaining object information from the environment information, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

according to the object information, acquiring the matching information of the position sequence of the object and each air outlet section and/or acquiring the matching information of the length of the object and each air outlet section;

and according to the matching information, generating a segment sequence control instruction for distributing a plurality of air outlet segments and/or generating a length control instruction for the plurality of air outlet segments.

Preferably, the identity information of the object and the corresponding use habit data are stored in advance;

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

acquiring matching information of the object and the segment length of each air outlet segment according to the adaptive adjustment information and/or the new object information;

and generating a length control instruction for distributing the air outlet sections of the plurality of sections according to the matching information.

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 (11)

1. The utility model provides an intelligence air-out equipment which characterized in that:

the system comprises an acquisition module, an information storage module, an information processing module, a control execution module and a plurality of air outlet grid plates which independently move;

the collection module is used for collecting environmental information in an air supply area of the intelligent air outlet equipment;

the information 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 environmental information and the parameter information to obtain control instructions of the plurality of wind outlet grid plates;

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

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

the recognition submodule is used for obtaining object information from environment information recognition, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

the first 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;

and the second matching submodule is used for acquiring matching information of the length of the object and each air outlet section according to the object information and generating length control instructions of a plurality of air outlet sections according to the matching information.

2. The intelligent air-out equipment of claim 1, characterized in that:

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

the automatic acquisition submodule is used for periodically acquiring environmental information;

the user-defined input submodule is used for user-defined input of object information;

the information processing module is used for reserving the object information input by the user in the environment information and the object information input by the user in the same time, and analyzing and obtaining the control instructions of the plurality of wind outlet grid plates according to the object information and the parameter information input by the user.

3. The intelligent air-out equipment of claim 1, characterized in that:

the device also comprises a command transceiving module;

the command transceiver module is used for receiving a user-defined control command and sending an output control command given by the information processing module;

the information processing module is used for reserving the user-defined control instruction as an output control instruction in the control instruction and the user-defined control instruction which are analyzed in the same time;

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

4. The intelligent air-out equipment of claim 2, characterized in that:

the automatic acquisition submodule is a sensor.

5. The intelligent air-out equipment of claim 1, characterized in that:

the system 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;

the information processing module 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 be used as adaptive adjustment information, and if not, the object information of different objects is used as new object information;

and the second matching submodule is used for acquiring matching information of the length of the object and each air outlet section according to the adaptive adjustment information and/or the new object information, and generating a length control instruction for distributing a plurality of air outlet sections according to the matching information.

6. The intelligent air-out equipment of claim 1, characterized in that:

the intelligent air outlet device is characterized by further comprising an automatic closing module, wherein the automatic closing module is used for judging whether the currently collected environment information meets the air supply standard after the intelligent air outlet device is opened, and automatically closing the intelligent air outlet device if the environment information does not meet the air supply standard.

7. A method for controlling the change of an air outlet section is characterized in that: the intelligent air outlet device deployed in any one of claims 1 to 6, wherein the method for controlling the change of the air outlet section comprises the following specific steps:

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

identifying environmental information and parameter information and analyzing to obtain a control instruction of the wind outlet grid plate;

controlling a plurality of air outlet grid plates to be combined and arranged according to the control instruction to form a plurality of air outlet sections;

the concrete steps of analyzing and obtaining the control instruction are as follows:

identifying and obtaining object information from the environment information, wherein the object information comprises at least one or more combinations of distribution positions of objects, heights of the objects, body temperatures of the objects and postures of the objects;

according to the object information, acquiring the matching information of the position sequence of the object and each air outlet section and/or acquiring the matching information of the length of the object and each air outlet section;

and according to the matching information, generating a segment sequence control instruction for distributing a plurality of air outlet segments and/or generating a length control instruction for the plurality of air outlet segments.

8. The method for controlling the change of the air outlet section according to claim 7, wherein:

acquiring environmental information in a wind supply area periodically;

and acquiring the object information input by user definition.

9. The method for controlling the change of the air outlet section according to claim 8, wherein:

when the environment information and the object information input by the user are acquired within the same time, the object information input by the user is reserved, and the control instructions of the plurality of air outlet grid plates of the intelligent air outlet equipment are obtained through analysis according to the object information input by the user and the parameter information of the intelligent air outlet equipment.

10. The method for controlling the change of the air outlet section according to claim 7, wherein:

receiving a user-defined control instruction;

when the control instruction and the user-defined control instruction are obtained in the same time, the user-defined control instruction is reserved as an output control instruction, and a plurality of air outlet grid plates of the intelligent air outlet equipment are controlled to be combined and arranged to form a plurality of air outlet sections according to the output control instruction.

11. The method for controlling the change of the air outlet section according to claim 7, wherein:

the method comprises the steps of pre-storing identity information of an object and corresponding use habit data;

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

acquiring matching information of the object and the segment length of each air outlet segment according to the adaptive adjustment information and/or the new object information;

and generating a length control instruction for distributing the air outlet sections of the plurality of sections according to the matching information.

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