CN111425973A - Air supply section distribution method, system and computer readable storage medium - Google Patents

Abstract

The invention discloses an air supply section distribution method which comprises an intelligent terminal and intelligent air outlet equipment, wherein the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which independently move, the air outlet grid plates which independently move acquire user information in an air supply area through the intelligent terminal, and the air outlet grid plates are combined and distributed according to the mapping relation between the pre-stored user information and air supply section parameters. According to the air supply section distribution method provided by the technical scheme, the air supply sections of the intelligent air outlet equipment are distributed, and the air supply requirements of multiple persons are met, so that the defects in the prior art are overcome. And the system using the air supply section distribution method is simple in control method and high in intelligent degree. In addition, a computer-readable storage medium is provided, which stores an intelligent air-out device air supply segment control program, so that the terminal device can execute the air supply segment allocation method of the present invention.

Description

Air supply section distribution method, system and computer readable storage medium

Technical Field

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

Background

At present, conventional tower fan is the air-out of single direction more on the market, the air supply scope is less, even the tower fan can shake the head about automatically, increase the air supply scope of tower fan and change air supply angle, but because the tower fan is a body structure, consequently, the air supply direction is relatively fixed, and then just can not cut apart the air supply direction of tower fan as required, thereby adjust the air supply direction of tower fan, for example when indoor coexistence exists two people that are located different positions need blow, the tower fan can only blow or blow to two people crisscross to alone, and can not blow to two people different wind directions or wind speed simultaneously. Therefore, the air supply mode of the tower fan is limited, and the air supply requirement of multiple persons cannot be met simultaneously.

Disclosure of Invention

The invention aims to provide an air supply section distribution method, which is used for distributing an air supply section of intelligent air outlet equipment and meeting the air supply requirement of multiple persons so as to overcome the defects in the prior art.

The invention also aims to provide a system using the air supply section distribution method, which has simple control method and high intelligent degree.

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

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

an air supply section distribution method comprises an intelligent terminal and intelligent air outlet equipment, wherein the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are independent from each other and can move, and the air supply section distribution method comprises the following steps:

and acquiring user information in the air supply area through the intelligent terminal, and performing combined arrangement of a plurality of air outlet grid plates according to the mapping relation between the pre-stored user information and the air supply section parameters.

Preferably, the combined arrangement of the plurality of air outlet grid plates includes distributing the number of the air supply sections, determining the number of the users through the acquired user information, and distributing the number of the corresponding air supply sections.

Preferably, the combined arrangement of the plurality of air outlet grid plates includes the allocation of the length of the air supply section, and specifically includes the following steps:

the mapping relation between the distance from the position of a user to the intelligent air outlet equipment and the length of the air supply section is stored in advance;

the intelligent terminal collects user positioning data, and the intelligent air outlet equipment receives the user positioning data of the intelligent terminal;

acquiring the distance from the position of the user to the intelligent air outlet equipment according to the user positioning data;

and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet equipment and the length of the air supply section.

Preferably, the combined arrangement of the plurality of air outlet grids comprises the distribution of the sequence of the air supply sections, and specifically comprises the following steps:

acquiring height data of a user according to the user information;

calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user;

and sequencing the relative heights of the users from high to low, and determining the sequence of the air supply sections according to the sequencing of the relative heights of the users.

Preferably, the method also comprises a monitoring step, wherein when the user information of the user changes, whether the staying time after the user information stops changing exceeds a set time range is judged, and when the staying time is less than the set time range, the originally distributed air supply section parameters are reserved; and when the stay time is larger than the set time range, the distribution is carried out again.

Preferably, the step of reallocating specifically comprises:

sequentially comparing the number of users in the air supply area with the number of original users, the positioning data of the users with the positioning data of the original users, and the relative height of the users with the relative height of the original users;

when the number of users in the air supply area changes, the number, the length and the sequence of the air supply sections are redistributed;

when the positioning data of the users in the air supply area are changed, the length and/or the sequence of the air supply section are redistributed;

the order of the supply segments is redistributed as the relative heights of the users within the supply area change.

Preferably, the step of redistributing the number of the air supply sections specifically comprises:

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is larger than the number of the original users, extracting and distributing an air supply section of an old user which is adjacent to the newly added user in distance and has the longest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is less than the original number of the users, combining and distributing the air supply section of the old user which is adjacent to the reduced user distance and has the shortest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variation amount of the number of users in the blowing area is larger than 1, the number, length and sequence of all blowing sections are redistributed.

An air supply section distribution system comprises an intelligent terminal and intelligent air outlet equipment, wherein the intelligent terminal and the intelligent air outlet equipment are connected, and the intelligent terminal is connected with the intelligent air outlet equipment through a communication network;

the intelligent terminal is used for storing user information of each user;

the intelligent air outlet equipment comprises an identity acquisition module, a storage module, a data processing module and an execution module;

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

the storage module is used for storing the mapping relation between the user information and the air supply section parameters;

the data processing module is used for acquiring user information of users in the air supply area, performing combined arrangement of a plurality of air outlet grid plates according to a mapping relation between the pre-stored user information and air supply section parameters, and sending distribution information of the combined arrangement to the execution module;

the execution module is characterized in that the intelligent air outlet device is provided with a plurality of air outlet grid plates which are independent from each other and move, and the plurality of air outlet grid plates form a plurality of air supply sections according to distribution information and are used for executing respective air supply modes of the air supply sections.

Preferably, the data processing module comprises a first processing unit, a second processing unit and a third processing unit,

the first processing unit is used for determining the number of users in the air supply area according to user information in the air supply area, wherein the user information comprises the number of a smart phone device carried by the user, the bracelet number of a smart bracelet worn by the user and height data of the user;

the second processing unit is used for acquiring the distance from the position of the user to the intelligent air outlet device according to the user positioning data, and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet device and the length of the air supply section;

the third processing unit is used for calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user, sequencing the relative heights of the user from high to low, and determining the sequence of the air supply section according to the sequencing of the relative heights of the user;

preferably, the data processing module further comprises a monitoring module:

the storage module is also used for storing the time range of the stay time;

the monitoring module is used for judging whether the staying time after the user information stops changing exceeds a set time range or not when the user information of the user changes, and reserving the originally distributed air supply section parameters when the staying time is smaller than the set time range; and when the stay time is larger than the set time range, the distribution is carried out again.

A computer-readable storage medium, on which an intelligent air-out device air supply section control program is stored, and when being executed by a processor, the intelligent air-out device air supply section control program implements the steps of the air supply section allocation method.

The invention has the beneficial effects that: according to the air supply section distribution method provided by the technical scheme, the air supply sections of the intelligent air outlet equipment are distributed, and the air supply requirements of multiple persons are met, so that the defects in the prior art are overcome. And the system using the air supply section distribution method is simple in control method and high in intelligent degree. In addition, a computer-readable storage medium is provided, which stores an intelligent air-out device air supply segment control program, so that the terminal device can execute the air supply segment allocation method of the present invention.

Drawings

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

FIG. 1 is a flow chart of one embodiment of a method for distributing air supply segments in accordance with the present invention.

FIG. 2 is a system communication connection diagram illustrating an exemplary method for distributing air supply segments according to the present invention.

Fig. 3 is a system communication connection diagram of another embodiment of a method for distributing blowing segments according to the present invention.

Fig. 4 is a system diagram illustrating an embodiment of a method for distributing air supply sections according to the present invention.

Detailed Description

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

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 above technical problem, the present technical solution provides an air supply section allocation method, as shown in fig. 1-2, the allocation method is suitable for an intelligent air outlet device with a plurality of independent air outlet grid plates, for example, an electric fan such as a tower fan/column-shaped floor fan, etc. having a plurality of independent movable air outlet grid plates and independently setting air supply parameters of each air outlet grid plate, and the air supply section allocation method simultaneously meets the air supply requirements of multiple users by segmenting the plurality of air outlet grid plates of the intelligent air outlet device. Particularly, this intelligence air-out equipment is equipped with a plurality of air-out grid plates of mutual independence, and every air-out grid plate all is equipped with unit drive arrangement promptly, makes every air-out grid can realize mutual independence rotation around the pivot of intelligence air-out equipment.

According to the air supply section distribution method provided by the technical scheme, information interconnection is established between the intelligent terminal and the intelligent air outlet equipment, the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are independent from each other and move, and the air supply section distribution method comprises the following steps: and acquiring user information in the air supply area through the intelligent terminal, and performing combined arrangement of a plurality of air outlet grid plates according to the mapping relation between the pre-stored user information and the air supply section parameters. Specifically, the smart terminal may be a smart phone of a user, a wearable smart band, a smart wearable device, or a smart home device.

Specifically, when the intelligent terminal is a mobile terminal such as a smart phone, the intelligent air-out device firstly sends out a search signal to search the mobile terminal in the air supply area, and when the mobile terminal exists in the air supply area, the mobile terminal feeds back the search signal, establishes communication with the intelligent air-out device, and sends user information to the intelligent air-out device. That is, when the intelligent air outlet device receives the user information from the mobile terminal in the air supply area, it indicates that the user is in the air supply area of the intelligent air outlet device.

When the intelligent terminal is the intelligent home equipment, the intelligent home equipment can store the identity information of the user in advance, and the intelligent home equipment can call the identity information of the user after detecting and identifying the identity of the user in the air supply area according to the detection device arranged by the intelligent home equipment. Specifically, the user information may be a number of a smartphone device carried by the user, a bracelet number of a smart bracelet carried by the user, or the like.

Then, the intelligent air outlet equipment performs combined arrangement of a plurality of air outlet grid plates according to the user information in the air supply area and the mapping relation between the pre-stored user information and the air supply section parameters; the number, the length or the sequence of the air supply sections are arranged in the parameter array of the air supply sections, and the combined arrangement of the plurality of air outlet grid plates refers to the combination of any one or more distribution modes in the number, the length or the sequence of the air supply sections.

Furthermore, the technical scheme prestores the mapping relation between the user information of each user and the parameters of the air supply section; the parameters of the air supply section can be effectively distributed and arranged according to the acquired user information, and the user satisfaction is improved. It should be noted that the mapping relationship between the user information and the air supply section parameter may be set during production and development of the intelligent air outlet device, or may be set for the user according to the needs of the user.

Further, the combined arrangement of the plurality of outlet grid plates includes allocating the number of the air supply sections, determining the number of the users according to the acquired user information, and allocating the number of the corresponding air supply sections.

The distribution of air supply section can refer to the quantity to the air supply section, and the quantity of air supply section refers to and divides into a plurality of air supply section with a plurality of mutually independent air-out grid plate, and each air supply section contains the air-out grid plate of arbitrary number, for example, intelligent air-out equipment has 26 air-out grid plates in total, if divide into two air supply sections with its average as required, then each air supply section has 13 air-out grid plates. The distribution of the air supply section can lead the air supply direction of the intelligent air-out equipment to flexibly air out according to the number of users, breaks the limit that the air supply mode in the existing intelligent air-out equipment is relatively fixed, and can simultaneously meet the air supply requirements of a plurality of people.

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

The utility model provides an intelligence air-out equipment, 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.

In an embodiment of the present technical solution, the air outlet grid plate is divided into an air supply section one, an air supply section two and an air supply section three, and the specific steps of the air outlet grid plate for realizing the segmentation are as follows: the intelligent air outlet device obtains human body infrared information in the air supply region from the infrared detection module, identifies three users in the air supply region according to the human body infrared information, and then segments the air outlet grid plates 310 according to the number of the users to generate segmented information for dividing the air outlet grid plates 310 into three segments. After the unit driving device 400 of the intelligent air outlet device acquires the segmentation information, the air duct layer structure at the corresponding position is driven to horizontally rotate relative to the air guide structure, so that the air outlet grid plate 310 is divided into three air supply sections under the driving of the unit driving device 400. The segmentation setting of air-out grid tray 310 makes this technical scheme distribute through the air supply section to intelligent air-out equipment, and air supply section one, air supply section two and air supply section three can rotate to different or the same turned angle alone, makes the realization that satisfies many people's air supply demand simultaneously possible.

Preferably, the combined arrangement of the plurality of air outlet grid plates includes the allocation of the length of the air supply section, and specifically includes the following steps:

the mapping relation between the distance from the position of a user to the intelligent air outlet equipment and the length of the air supply section is stored in advance;

the intelligent terminal collects user positioning data, and the intelligent air outlet equipment receives the user positioning data of the intelligent terminal;

acquiring the distance from the position of the user to the intelligent air outlet equipment according to the user positioning data;

and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet equipment and the length of the air supply section.

The technical scheme can also store the mapping relation between the distance from the position of the user to the intelligent air outlet equipment and the length of the air supply section in advance. 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.

In this technical scheme, establish information interconnection through intelligent air-out equipment and intelligent terminal, in an implementation of this technical scheme, intelligent terminal can be intelligent home equipment, as shown in fig. 3, and intelligent home equipment can be intelligent household electrical appliances, intelligent lighting apparatus, intelligent lock etc.. Specifically, smart home devices all are provided with user positioning device, and user positioning device can be infrared sensor, laser sensor and pyroelectric sensor etc. through the communication interconnection between a plurality of smart home devices, can establish corresponding sensor array in the air supply region and go the position of user and fix a position, for example infrared array, laser array and pyroelectric array etc. and the establishment of location array is more convenient to the determination of user's position in the air supply region. In another implementation of the technical scheme, the intelligent terminal can be a mobile terminal such as a smart phone, and a positioning module arranged in the smart phone can position the position of the user. And then, the intelligent air outlet equipment receives the user positioning data, and the distance from the position of the user to the intelligent air outlet equipment is obtained, so that the air supply section length of each user is distributed.

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, the farther the distance from the position of the user to the intelligent air outlet device is, the longer the length of the air supply section required by the user is, the larger the range of the wind that the user can feel, the larger the air supply amount is; when the distance from the position of the user to the intelligent air outlet device is shorter, the length of the air supply section required by the user is shorter, and the smaller the range of the wind which can be sensed by the user is, the smaller the air supply quantity is. The requirement of different users on intelligent air-out equipment is more favorably met.

Preferably, the combined arrangement of the plurality of air outlet grids comprises the distribution of the sequence of the air supply sections, and specifically comprises the following steps:

acquiring height data of a user according to the user information;

calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user;

and sequencing the relative heights of the users from high to low, and determining the sequence of the air supply sections according to the sequencing of the relative heights of the users.

Furthermore, the technical scheme also determines the sequence of the air supply sections according to the relative height sequence of the user. The sequence of the air supply sections can indicate the relative position of each distributed air supply section in the whole intelligent air outlet device, 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, and the first air supply section and the second air supply section are sequentially arranged from top to bottom in one embodiment of the invention, the first air supply section is located at the upper part of the intelligent air outlet device, and the second air supply section is located at the lower part of the intelligent air outlet device.

Specifically, the height of each user may have an individual difference, and in an embodiment of the present technical solution, since the standing height of each user is different when using the intelligent air outlet device, the present technical solution uses the relative height of the user as the reference of the sequence of the air supply section.

In an embodiment of the technical solution, height data of a user can be obtained according to user information, and the intelligent air outlet device can pre-store the height data of each user, and can obtain the height data of the user when the intelligent air outlet device identifies the user in an air supply area.

In another embodiment of the technical scheme, the intelligent terminal can be an intelligent household device, the intelligent household devices are all provided with user positioning devices, the user positioning devices can be infrared sensors, laser sensors, pyroelectric sensors and the like, and through communication interconnection among the intelligent household devices, corresponding sensor arrays can be built in an air supply area to position the position of a user, for example, the infrared arrays, the laser arrays, the pyroelectric arrays and the like, and the position of the user in the air supply area can be determined more conveniently through the building of the positioning arrays. Then, the intelligent air outlet equipment receives the user positioning data of all the user positioning devices, and the height distance of the position where the user is located is obtained, so that the sequence of the air supply section of each user is determined. It should be noted that, since the user may be in a standing state or a sitting state, or the height of the user in the sitting state is different, the height distance of the user is different.

The height data of the position of the user and the distance between the position of the user and the intelligent air outlet device can affect the relative height, so that the relative height of the user is calculated according to the proportional relation between the distance between the position of the user and the intelligent air outlet device and the height data of the position of the user, for example, when the height data of the position of the user is c, the distance between the user and the intelligent air outlet device is b, and the relative height of the user is β, the relative height of the user is calculated according to the tan β which is c/b, then the relative heights of the users are sorted from high to low, and the sequence of the air supply sections is determined according to the sorting of the relative heights of the users.

Preferably, the method also comprises a monitoring step, wherein when the user information of the user changes, whether the staying time after the user information stops changing exceeds a set time range is judged, and when the staying time is less than the set time range, the originally distributed air supply section parameters are reserved; and when the stay time is larger than the set time range, the distribution is carried out again.

The user in the air supply area cannot stand still, and image information of the user may change after a certain time point after the initial distribution is finished, for example, the user is increased or decreased, the user is far away from or close to the intelligent air outlet device, the user changes from an original standing state to a sitting state, and the like, so that human body infrared information of the user changes. In order to avoid the influence on the normal use of other users due to accidental and transient changes, a time range for judging whether the changes in the air supply area are accidental and transient changes is set in the step, for example, the time range can be set to be 20 seconds, when the stay time is less than 20 seconds after a certain change condition stops occurring, the condition is indicated as the condition which is possibly happened accidentally, and the parameters of the air supply section which is originally distributed are reserved; when the stay time is more than 20 after a certain change condition stops occurring, which indicates that the condition may be a behavior-determined condition, the blowing section should be reassigned according to the image information in the current blowing region.

Preferably, the step of reallocating specifically comprises:

sequentially comparing the number of users in the air supply area with the number of original users, the positioning data of the users with the positioning data of the original users, and the relative height of the users with the relative height of the original users;

when the number of users in the air supply area changes, the number, the length and the sequence of the air supply sections are redistributed;

when the positioning data of the users in the air supply area are changed, the length and/or the sequence of the air supply section are redistributed;

the order of the supply segments is redistributed as the relative heights of the users within the supply area change.

In the technical scheme of the invention, the parameters of the air supply section are determined to have different triggering conditions and have a sequence, so that the specific steps of redistribution are provided in order to further simplify the control program, improve the control efficiency and avoid the phenomenon that all the parameters of the air supply section are redistributed under a certain triggering condition.

Specifically, when the number of users in the air supply area changes, the number, the length and the sequence of the air supply sections are redistributed; because the most basic parameter in the air supply section parameters is the number of the air supply sections, when the number of the air supply sections needs to be changed, the length and the sequence of the air supply sections need to be matched with the number to be changed, and therefore, when the number of users in an air supply area changes, other parameters of the air supply sections also need to be changed correspondingly.

When the number of users in the blowing area does not change, i.e. the number of blowing segments does not change, it is considered which trigger condition changes. Because the positioning data of the users have influence on the length and the sequence of the air supply section, when the positioning data of the users in the air supply area are changed, the length and/or the sequence of the air supply section are redistributed; the relative height of the user has a mapping relation with the sequence of the air supply sections, and when the relative height of the user changes, the sequence of the air supply sections is redistributed.

Preferably, the step of redistributing the number of the air supply sections specifically comprises:

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is larger than the number of the original users, extracting and distributing an air supply section of an old user which is adjacent to the newly added user in distance and has the longest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is less than the original number of the users, combining and distributing the air supply section of the old user which is adjacent to the reduced user distance and has the shortest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variation amount of the number of users in the blowing area is larger than 1, the number, length and sequence of all blowing sections are redistributed.

In order to further optimize the control logic of the distribution method, the technical scheme further defines the redistribution method when the number of users changes, because when the variation of the number of users is too small, if all air supply sections of the intelligent air-out equipment are redistributed, a certain operation amount is needed, in order to avoid that the intelligent air-out equipment consumes the operation amount when the variation of the number of users is too small, and simultaneously ensure that the use of other users cannot be affected, the technical scheme divides the total logic of redistributing the number of air supply sections into two types, namely the situations that the variation of the number of users is equal to 1 and the variation of the number of users is greater than 1, and specifically as follows:

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is larger than the number of the original users, extracting and distributing an air supply section of an old user which is adjacent to the newly added user in distance and has the longest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged; specifically, the newly added users are respectively adjacent to the first original user and the second original user, and the length of the first air supply section allocated to the first original user is the longest in the first original user and the second original user, then a part of the first air supply section is extracted from the first air supply section to allocate the newly added users, that is, the first air supply section is split into the second air supply section and the third air supply section, it should be noted that the lengths and the sequence of the second air supply section and the third air supply section are allocated according to the normal allocation logic of the allocation method. Because the new user and the original user are adjacent in the direction information judgment, even if the new user and the original user are split into two air supply sections in the original air supply section I, the two air supply sections have certain influence on the air outlet feeling of the two users, and therefore the split air supply sections have little influence on the air outlet feeling of the original user I, and the requirement of air outlet of all users can be met.

When the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is less than the original number of the users, combining and distributing the air supply section of the old user which is adjacent to the reduced user distance and has the shortest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged; specifically, the air supply sections of the users are reduced to be adjacent to the first original user and the second original user respectively, and the length of the air supply section allocated to the first original user is the shortest in the first original user and the second original user, and then the first original user is allocated to the combined air supply sections of the users reduced and the first original user, that is, the two original air supply sections are combined into one air supply section, and it needs to be noted that parameters of the combined air supply sections are set according to parameters of the air supply section of the first original user. Because the direction information of the user and the original user I is reduced and the direction information is judged to be adjacent, and the length of the air supply section is shortest, the air outlet feeling of the original user I is not greatly influenced even if the two air supply sections are combined, and the air outlet requirements of all users are favorably met.

An air supply section distribution system comprises an intelligent terminal and intelligent air outlet equipment, wherein the intelligent terminal is connected with the intelligent air outlet equipment through a communication network;

the intelligent terminal is used for storing user information of each user;

the intelligent air outlet equipment comprises an identity acquisition module, a storage module, a data processing module and an execution module;

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

the storage module is used for storing the mapping relation between the user information and the air supply section parameters;

the data processing module is used for acquiring user information of users in the air supply area, performing combined arrangement of a plurality of air outlet grid plates according to a mapping relation between the pre-stored user information and air supply section parameters, and sending distribution information of the combined arrangement to the execution module;

the execution module is characterized in that the intelligent air outlet device is provided with a plurality of air outlet grid plates which are independent from each other and move, and the plurality of air outlet grid plates form a plurality of air supply sections according to distribution information and are used for executing respective air supply modes of the air supply sections.

According to the air supply section distribution system provided by the technical scheme, information interconnection is established through the intelligent terminal and the intelligent air outlet equipment, and specifically, the intelligent terminal can be a smart phone of a user, a wearable smart bracelet or smart home equipment and the like. Under the operation of a user, the storage module can call the relevant detection data records of the user identity acquisition module for the user, so that the user can correspondingly adjust the mapping relation in the distribution system according to the change of the data records and the information such as the change of the environment, and the accuracy and the pertinence of the distribution system of the air supply section of the intelligent air outlet equipment are further improved.

More specifically, intelligent household equipment can be intelligent household electrical appliances, intelligent lighting equipment, intelligent lock, and user positioning module can be infrared sensor, laser sensor and pyroelectric sensor etc. through the communication interconnection between the intelligent household equipment, can establish corresponding sensor array and fix a position user's position in the air supply region, for example infrared array, laser array and pyroelectric array etc. the establishment of location array more conveniently is to the determination of user's position in the air supply region.

Preferably, the data processing module comprises a first processing unit, a second processing unit and a third processing unit,

the first processing unit is used for determining the number of users in the air supply area according to user information in the air supply area, wherein the user information comprises the number of a smart phone device carried by the user, the bracelet number of a smart bracelet worn by the user and height data of the user;

the second processing unit is used for acquiring the distance from the position of the user to the intelligent air outlet device according to the user positioning data, and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet device and the length of the air supply section;

and the third processing unit is used for calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user, sequencing the relative heights of the user from high to low, and determining the sequence of the air supply section according to the sequencing of the relative heights of the user.

To be further described, the data processing module further includes a monitoring module:

the storage module is also used for storing the time range of the stay time;

the monitoring module is used for judging whether the staying time after the user information stops changing exceeds a set time range or not when the user information of the user changes, and reserving the originally distributed air supply section parameters when the staying time is smaller than the set time range; and when the stay time is larger than the set time range, the distribution is carried out again.

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

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

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

Claims (11)

1. The air supply section distribution method comprises an intelligent terminal and intelligent air outlet equipment, and is characterized in that the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are independent from each other and can move, and the air supply section distribution method comprises the following steps:

acquiring user information in a wind supply area through the intelligent terminal; and carrying out combined arrangement of the plurality of air outlet grid plates according to the mapping relation between the pre-stored user information and the air supply section parameters.

2. The air supply section distribution method according to claim 1, wherein the combined arrangement of the plurality of air outlet grids includes distribution of the number of air supply sections, determination of the number of users through the acquired user information, and distribution of the number of corresponding air supply sections.

3. The air supply section distribution method according to claim 1, wherein the combined arrangement of the plurality of air outlet grids includes distribution of the length of the air supply section, and specifically includes the steps of:

the mapping relation between the distance from the position of a user to the intelligent air outlet equipment and the length of the air supply section is stored in advance;

the intelligent terminal collects user positioning data, and the intelligent air outlet equipment receives the user positioning data of the intelligent terminal;

acquiring the distance from the position of the user to the intelligent air outlet equipment according to the user positioning data;

and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet equipment and the length of the air supply section.

4. The air supply section distribution method according to claim 1, wherein the combined arrangement of the plurality of air outlet grids includes distribution of the order of the air supply sections, and specifically includes the steps of:

acquiring height data of a user;

calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user;

and sequencing the relative heights of the users from high to low, and determining the sequence of the air supply sections according to the sequencing of the relative heights of the users.

5. The air supply section allocation method according to any one of claims 1 to 4, characterized in that: when the user information of the user changes, judging whether the staying time after the user information stops changing exceeds a set time range, and when the staying time is less than the set time range, reserving the originally distributed air supply section parameters; and when the stay time is larger than the set time range, the distribution is carried out again.

6. The air supply section allocation method according to claim 5, wherein the step of reallocating specifically includes:

sequentially comparing the number of users in the air supply area with the number of original users, the positioning data of the users with the positioning data of the original users, and the relative height of the users with the relative height of the original users;

when the number of users in the air supply area changes, the number, the length and the sequence of the air supply sections are redistributed;

when the positioning data of the users in the air supply area are changed, the length and/or the sequence of the air supply section are redistributed;

the order of the supply segments is redistributed as the relative heights of the users within the supply area change.

7. The air supply section allocation method according to claim 6, characterized in that: the step of redistributing the number of the air supply sections specifically comprises the following steps:

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is larger than the number of the original users, extracting and distributing an air supply section of an old user which is adjacent to the newly added user in distance and has the longest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variable quantity of the number of the users in the air supply area is equal to 1 and the number of the users is less than the original number of the users, combining and distributing the air supply section of the old user which is adjacent to the reduced user distance and has the shortest air supply section length according to the azimuth information of the users, and keeping other air supply sections unchanged;

when the variation amount of the number of users in the blowing area is larger than 1, the number, length and sequence of all blowing sections are redistributed.

8. An air supply section distribution system characterized by: the intelligent air conditioner comprises an intelligent terminal and intelligent air outlet equipment, wherein the intelligent terminal is connected with the intelligent air outlet equipment through a communication network;

the intelligent terminal is used for storing user information of each user;

the intelligent air outlet equipment comprises an identity acquisition module, a storage module, a data processing module and an execution module;

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

the storage module is used for storing the mapping relation between the user information and the air supply parameters;

the data processing module is used for acquiring user information of users in the air supply area, performing combined arrangement of a plurality of air outlet grid plates according to a mapping relation between the pre-stored user information and air supply section parameters, and sending distribution information of the combined arrangement to the execution module;

the execution module is characterized in that the intelligent air outlet device is provided with a plurality of air outlet grid plates which are independent from each other and move, and the plurality of air outlet grid plates form a plurality of air supply sections according to distribution information and are used for executing respective air supply modes of the air supply sections.

9. An air supply section distribution system as recited in claim 8, further comprising: the data processing module comprises a first processing unit, a second processing unit and a third processing unit,

the first processing unit is used for determining the number of users in the air supply area according to user information in the air supply area, wherein the user information comprises the number of a smart phone device carried by the user, the bracelet number of a smart bracelet worn by the user and height data of the user;

the second processing unit is used for acquiring the distance from the position of the user to the intelligent air outlet device according to the user positioning data, and determining the length of the air supply section according to the mapping relation between the distance from the position of the user to the intelligent air outlet device and the length of the air supply section;

and the third processing unit is used for calculating the relative height of the user according to the proportional relation between the distance from the position of the user to the intelligent air outlet device and the height data of the user, sequencing the relative heights of the user from high to low, and determining the sequence of the air supply section according to the sequencing of the relative heights of the user.

10. An air supply section distribution system as recited in claim 9, further comprising: the data processing module further comprises a monitoring module:

the storage module is also used for storing the time range of the stay time;

the monitoring module is used for judging whether the staying time after the user information stops changing exceeds a set time range or not when the user information of the user changes, and reserving the originally distributed air supply section parameters when the staying time is smaller than the set time range; and when the stay time is larger than the set time range, the distribution is carried out again.

11. A computer-readable storage medium characterized by: the computer readable storage medium stores an intelligent air outlet device air supply section control program, and the intelligent air outlet device air supply section control program realizes the steps of the air supply section distribution method according to any one of claims 1 to 7 when being executed by a processor.

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