CN111425433B

CN111425433B - Air supply mode operation method, system and computer readable storage medium

Info

Publication number: CN111425433B
Application number: CN202010245496.4A
Authority: CN
Inventors: 陈小平; 唐清生; 林勇进
Original assignee: Foshan Viomi Electrical Technology Co Ltd
Current assignee: Foshan Viomi Electrical Technology Co Ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2022-04-22
Anticipated expiration: 2040-03-31
Also published as: CN111425433A

Abstract

The invention discloses an air supply mode operation method, wherein intelligent air outlet equipment is provided with a plurality of air outlet grid plates which are independently movable, and the air supply mode operation method comprises the following steps: acquiring physiological characteristic parameters of a user detected by intelligent wearable equipment in real time; judging whether the physiological characteristic parameters of the user reach a use threshold value; and determining the air supply mode of the intelligent air outlet equipment according to the physiological characteristic information of the user of which the physiological characteristic parameter reaches the use threshold. According to the air supply mode operation method provided by the technical scheme, the aim of accurately supplying air for the air supply target in the air supply area can be achieved, and the use experience of a user is improved. The air supply mode operation system 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 section control program, so that the terminal device can execute an air supply mode operation method of the present invention.

Description

Air supply mode operation 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 mode operation method, an air supply mode operation system and a computer readable storage medium.

Background

At present, conventional tower fans in the market mostly have air outlet in a single direction, the air supply range is small, even the tower fans can automatically swing left and right, the air supply range of the tower fans is enlarged, and the air supply angle is changed, but the tower fans are of an integrated structure, so that the air supply direction is relatively fixed, and further the air supply direction of the tower fans cannot be cut as required, and therefore the air supply direction of the tower fans is adjusted. Therefore, the air supply mode of the tower fan is limited, and the air supply requirement of multiple persons cannot be met simultaneously.

Further, the tower fan in the prior art cannot operate different air supply modes according to the actual needs of users, for example, in a direct blowing mode, strong air flow can bring uncomfortable feeling to user groups with weak environmental adaptability, such as old people or children, so that the old people or children do not want to directly face the air outlet of the tower fan to themselves when using the tower fan; in the swing mode, the air flow of the tower fan is relatively dispersed, and a user fixed at a certain air supply position can enjoy the instant blowing feeling after waiting for the tower fan to enter the next swing period. Therefore, the conventional air blowing method cannot be satisfied by the user.

Disclosure of Invention

The invention aims to provide an air supply mode operation method, which can achieve the aim of accurately supplying air aiming at an air supply target in an air supply area and improve the use experience of a user.

The invention also aims to provide an air supply mode operation system which is simple in control method and high in 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 section control program, so that a terminal device can execute an air-supply mode operation method of the present invention.

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

an air supply mode operation method is deployed in an air supply mode operation system, the air supply mode operation system comprises intelligent wearable equipment and intelligent air outlet equipment, the intelligent wearable equipment is connected with the intelligent air outlet equipment through a communication network and transmits information to the intelligent air outlet equipment, the intelligent air outlet equipment is provided with a plurality of air outlet grid plates which move independently, and the air supply mode operation method comprises the following steps:

acquiring physiological characteristic parameters of a user detected by intelligent wearable equipment in real time;

judging whether the physiological characteristic parameters of the user reach a use threshold value;

and determining the air supply mode of the intelligent air outlet equipment according to the physiological characteristic information of the user of which the physiological characteristic parameter reaches the use threshold.

Preferably, the generation of the usage threshold comprises the steps of:

acquiring and recording identity information of a user through intelligent wearable equipment;

storing the identity information of the user as an identity information template;

under the identity information template, the physiological characteristic parameters of the users under the identity information template are collected and stored in advance to serve as training samples, the physiological characteristic parameters of different identity information templates are trained by utilizing a neural network, and use threshold values of different users when the different users use the intelligent air outlet equipment are generated.

Preferably, the method comprises the air supply mode judging step:

acquiring the number of users and the distribution angles thereof, of which the physiological characteristic parameters reach the use threshold value, in an air supply area through intelligent wearable equipment;

judging whether the number of users in the air supply area reaches a segmentation threshold value or not to obtain a segmentation result;

judging whether the distribution angle in the air supply area reaches a grouping threshold value or not to obtain a grouping result;

and determining the air supply mode of the intelligent air outlet equipment according to the matching relationship between the segmentation result and the grouping result.

Preferably, when the number of users in the air supply area is greater than the segmentation threshold value and the distribution angles in the air supply area are both greater than or equal to the grouping threshold value, the intelligent air outlet device operates in a fixed mode.

Preferably, when the number of users in the air supply area is greater than the segmentation threshold and at least one distribution angle in the air supply area is smaller than the grouping threshold, the users in the air supply area are allocated in groups, and the intelligent air outlet device operates in a grouping allocation mode.

Preferably, when the number of users in the air supply area is less than or equal to the segmentation threshold, the intelligent air outlet device operates the personal distribution mode.

Preferably, the operating step of the packet allocation mode includes:

and according to the mapping relation between the pre-stored grouping information and the parameters of the air supply section, carrying out combined arrangement on a plurality of air outlet grid plates to form the air supply section.

Preferably, the operation of the personal assignment mode comprises:

and according to the mapping relation between the pre-stored physiological characteristic information and the parameters of the air supply section, carrying out combined arrangement on a plurality of air outlet grid plates to form the air supply section.

Preferably, the combined arrangement of the plurality of air outlet grid plates comprises the step of distributing the air outlet forms of the air supply section, the current somatosensory comfort level of the user is obtained through the intelligent wearing equipment, and the air outlet forms of the air supply section are distributed according to the somatosensory comfort level of the user; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

Preferably, the method further comprises the step of matching the somatosensory comfort level:

training physiological characteristic parameters of different users by using a neural network, and receiving the feedback condition of the somatosensory comfort level of the users in real time;

according to the somatosensory comfort feedback conditions under different identity templates, storing and acquiring the somatosensory comfort feedback result of each user;

and dividing the somatosensory comfort level of the user according to the somatosensory comfort feedback result of the user.

Preferably, in the set collection period, the somatosensory comfort level of the user is acquired through the intelligent wearable device, and the air outlet form of the air supply section in the collection period is distributed according to the somatosensory comfort level of the user.

Preferably, the method further comprises the following steps of:

acquiring physiological characteristic parameters of a user in an acquisition period;

comparing the physiological characteristic parameters acquired in the current acquisition period with the physiological characteristic parameters acquired in the previous acquisition period, and judging whether the difference value of the physiological characteristic parameters acquired in the two acquisition periods is within a preset mutation range;

if the difference value of the physiological characteristic parameters acquired in the two acquisition periods is not in the preset mutation range, the air supply section maintains the current air outlet form; and if the difference value of the physiological characteristic parameters acquired in the two acquisition periods is within a preset mutation range, adjusting the somatosensory comfort level of the user according to the physiological characteristic parameters acquired in the current acquisition period, and operating the corresponding air outlet form by the air supply section according to the current somatosensory comfort level.

Preferably, the air outlet form of the air supply section comprises any one or a combination of a spiral type, a staggered type, a direct blowing type and a mixed type.

Preferably, the combined arrangement of the plurality of air outlet grid plates comprises the steps of distributing the air outlet range of the air supply section, extracting the posture characteristic information of the user according to the physiological characteristic information, acquiring the position information of the user through the intelligent wearable device, acquiring the distribution range of an air supply target according to the posture characteristic information and the position information of the user, and distributing the air outlet range of the air supply section according to the distribution range of the air supply target; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

An air supply mode operation system comprises intelligent wearable equipment, intelligent air outlet equipment, a physiological characteristic information receiving module and an operation module, wherein the intelligent wearable equipment is in communication connection with the intelligent air outlet equipment;

the intelligent wearable device is used for acquiring physiological characteristic parameters of the user and acquiring physiological characteristic information of the user, wherein the physiological characteristic parameters of the user reach a use threshold;

the physiological characteristic information receiving module is used for receiving the physiological characteristic information of the user of which the physiological characteristic parameter reaches a use threshold value;

the operation module is used for determining an air supply mode of the intelligent air outlet equipment according to the physiological characteristic information, forming operation information and sending the operation information;

the intelligent air outlet device comprises a plurality of air outlet grid plates which are independent from each other and move, and the intelligent air outlet device is used for operating a corresponding air supply mode according to the operation information.

Preferably, the air supply mode judging module is included:

the air supply mode judging module is used for acquiring the number and distribution angles of users in an air supply area according to the user identity information;

Preferably, the air supply mode matching module is included:

when the number of users in the air supply area is larger than the segmentation threshold value and the distribution angles in the air supply area are both larger than or equal to the grouping threshold value, the intelligent air outlet equipment operates in a fixed mode;

when the number of users in the air supply area is larger than the segmentation threshold value and at least one distribution angle in the air supply area is smaller than the grouping threshold value, performing group distribution on the users in the air supply area, and operating the intelligent air outlet equipment in a grouping distribution mode;

and when the number of users in the air supply area is less than or equal to the segmentation threshold value, the intelligent air outlet equipment operates a personal distribution mode.

Preferably, the air conditioner further comprises a distribution module, wherein the distribution module comprises an air outlet form distribution unit and an air outlet range distribution unit;

the air outlet form distribution unit is used for acquiring the current somatosensory comfort level of the user through the intelligent wearable equipment and distributing the air outlet form of the air supply section according to the somatosensory comfort level of the user;

the air outlet range distribution unit is used for extracting the body state characteristic information of the user according to the physiological characteristic information, acquiring the position information of the user through the intelligent wearable device, acquiring the distribution range of an air supply target according to the body state characteristic information and the position information of the user, and distributing the air outlet range of the air supply section according to the distribution range of the air supply target;

wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

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

The invention has the beneficial effects that: according to the air supply mode operation method provided by the technical scheme, the aim of accurately supplying air for the air supply target in the air supply area can be achieved, and the use experience of a user is improved. The air supply mode operation system 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 section control program, so that the terminal device can execute an air supply mode operation 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 an air supply operation method according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent air outlet device in an embodiment of an air supply mode operation method according to the present invention.

Fig. 3 is a vertical sectional view of the intelligent air outlet device in fig. 2.

Fig. 4 is a communication connection diagram of an air blowing mode operation system 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.

The air supply mode operation method provided by the technical scheme is suitable for intelligent air outlet equipment as shown in fig. 1, and particularly, the intelligent air outlet equipment is provided with a plurality of mutually independent air outlet grid plates, namely, each air outlet grid plate is provided with a rotating mechanism, so that each air outlet grid can rotate around a rotating shaft of the intelligent air outlet equipment in a mutually independent mode.

Because users in different physiological states have different air supply requirements, in an air supply area in the same environment, the users in a calm state may not need to supply air, and the users who just change from a sport state to the calm state may need to supply air due to excessive sport consumption and excessive sweating.

In order to enable the intelligent air outlet device to flexibly respond to air supply requirements of different users, the technical scheme provides an air supply mode operation method, and as physiological characteristic parameters of users in different physiological states are different, for example, the heart rate of the user in a calm state beats at a normal rate, the breathing is relatively stable, the body surface temperature is close to the normal body surface temperature, and the like, while the heart rate of the user just changing from a motion state to the calm state beats at a rate faster than the normal rate, the breathing is relatively rapid, the body surface temperature is slightly higher than the normal body surface temperature, and the like. Therefore, in order to accurately acquire the current physiological state of the user in the air supply area, the technical scheme includes that the physiological characteristic parameters of the user are detected through the intelligent wearable device, and when the physiological characteristic parameters of the user reach the use threshold value, the air supply mode of the intelligent air outlet device is determined according to the physiological characteristic information of the user, of which the physiological characteristic parameters reach the use threshold value.

Specifically, the physiological characteristic parameters in the technical scheme include, but are not limited to, any one or combination of multiple of body surface temperature, heart rate, respiratory rate, emotion, brain wave, fingertip pulse, electrocardio and body state, and the detected physiological characteristic parameters are analyzed and judged, so that the physiological state of the user can be judged more conveniently and accurately, and the requirement of the user on air supply can be predicted better; the usage threshold in the technical scheme refers to a numerical value at which a certain physiological characteristic parameter reaches a usage range, for example, the usage threshold of the heart rate is set at 90 times/minute, and if the intelligent wearable device detects that the heart rate of the user is 70 times/minute, it indicates that the user may be in a calm state at this time and may not need to supply air; if the smart wearable device detects that the heart rate of the user is 130 times/minute, it indicates that the user may just transit from the exercise state to the calm state at this time, and the user may need to supply air at this time. After the physiological characteristic information of the user with the physiological characteristic parameter reaching the use threshold is obtained, the posture characteristic information and the like of the user in the air supply area can be extracted from the physiological characteristic information and used for determining an air supply mode, wherein the air supply mode refers to that the intelligent air outlet equipment determines a fixed operation mode, a grouping distribution mode or a personal distribution mode according to the physiological characteristic information.

It should be noted that the extraction of the user posture feature information in the air blowing region from the physiological feature information in the air blowing region can be performed by a conventional extraction technique. The specific structure is combined to explain, the air supply mode operation method in the technical scheme can be realized by the following intelligent air outlet equipment, but is not limited to the structure of the intelligent air outlet equipment.

The utility model provides an intelligence air-out equipment, as shown in fig. 2-3, 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.

More specifically, the generation of the usage threshold includes the steps of:

The physiological characteristic parameters of each user are different, for example, the heart rate of an adult is about 60-80 times/minute when the adult is in a calm state, the heart rate of a child is about 80-90 times/minute when the child is in a calm state, the respiratory rate of the adult is about 12-20 times/minute when the child is in a calm state, the respiratory rate of the child is about 20-30 times/minute when the child is in a calm state, and the like.

In order to more accurately judge the physiological state of the user in the air supply area, when judging whether the physiological characteristic parameter of the user reaches the use threshold, the determination of the use threshold should also reflect individual difference. Therefore, in an embodiment of the present technical solution, the identity information of the user is collected and recorded and stored as different identity information templates, so as to identify the user with different identities when comparing the physiological characteristic parameter with the usage threshold, where the identity information may be information that can be used for identity identification, such as voice or fingerprint of different users. And then under the identity information template of the user, the physiological characteristic parameters are collected and stored in advance to be used as training samples, and the neural network is used for training the physiological characteristic parameters collected in advance to form use thresholds when different users use the intelligent air outlet equipment.

Further, the method includes the step of determining the air supply method:

Further, when the number of users in the air supply area is greater than the segmentation threshold value and the distribution angles in the air supply area are both greater than or equal to the grouping threshold value, the intelligent air outlet equipment operates in a fixed mode;

further, when the number of users in the air supply area is greater than the segmentation threshold and at least one distribution angle in the air supply area is smaller than the grouping threshold, performing group distribution on the users in the air supply area, and operating the intelligent air outlet equipment in a grouping distribution mode;

to be further described, when the number of users in the air supply area is less than or equal to the segment threshold, the intelligent air outlet device operates the personal distribution mode.

In the technical scheme, the air supply mode is determined by combining two consideration factors of the number of users and the distribution angle, of which the physiological characteristic parameters reach the use threshold value, in the air supply area, wherein the distribution angle refers to an included angle formed by two adjacent users and the intelligent air outlet equipment in the air supply area, for example, an included angle formed by connecting lines of the first user, the intelligent air outlet equipment and the second user is a distribution angle in the air supply area when the first user serves as a starting point and the second user serves as an end point and is formed by two adjacent users in the air supply area sequentially.

It should be noted that, according to the technical scheme, the intelligent wearable device worn by the user reaching the use threshold in the air supply area can be searched and acquired, the signal intensity after the communication interconnection between the intelligent air outlet device and the intelligent wearable device is established is detected, the distance between the intelligent wearable device and the intelligent air outlet device is acquired according to the strength of the detected signal intensity, and the distance from the user to the intelligent air outlet device is determined, so that the distribution angle in the air supply area is obtained. The distribution angle does not include the included angle formed by the first user and the last user in the air supply area and the intelligent air outlet equipment. The first user and the last user in the air supply area refer to the first user and the last user which are identified and acquired by the intelligent air outlet equipment in the air supply area.

In one embodiment of the present disclosure, the air supply manner matching step includes the following limitations: when the number of users in the air supply area is larger than the segmentation threshold value and at least one distribution angle in the air supply area is smaller than the grouping threshold value, performing group distribution on the users in the air supply area, and operating the intelligent air outlet equipment in a grouping distribution mode; if the distribution angle includes an included angle formed by the first user and the last user in the air supply area and the intelligent air outlet device in the judgment condition of the air supply mode, two mutually contradictory matching results may occur simultaneously when the matching is performed according to the matching steps, so that the intelligent air outlet device cannot normally execute the corresponding air supply mode according to the matching results.

For example, a first user, a second user and a third user are arranged in the air supply area, the first user is adjacent to the second user, the second user is adjacent to the third user, distribution angles between the first user and the second user and between the second user and the third user are smaller than a grouping threshold, and the distribution angle between the third user and the first user is larger than the grouping threshold. If the distribution angle includes an included angle formed by the first user and the last user in the air supply area and the intelligent air outlet device in the judgment condition of the air supply mode, when the matching is performed according to the matching steps, two matching results, namely, the first user and the third user are in the same group, and the first user and the third user are not in the same group, may occur simultaneously, and obviously, the two matching results are contradictory to each other. Therefore, in order to avoid that the intelligent air outlet device cannot normally execute a corresponding air supply mode according to a matching result, the technical scheme further limits that the distribution angle does not include an included angle formed by the first user and the last user in the air supply area and the intelligent air outlet device, so that the feasibility of the operation method is ensured.

Firstly, a segmentation threshold value is set in the technical scheme, and the segmentation threshold value refers to the minimum value of the number of users of the intelligent air outlet equipment capable of realizing a fixed mode. The setting of the segmentation threshold value in the technical scheme mainly considers that when a family user purchases the intelligent air outlet device, the number of family members is generally considered to purchase the intelligent air outlet device with the corresponding specification.

For example, the number of common family members is generally 3 to 4, and when the intelligent air outlet device is segmented, each person is equally divided into 10 air outlet grid plates to meet the air supply requirement, so that the common family members may purchase about 30 to 40 intelligent air outlet devices with the specifications of the air outlet grid plates to possibly meet the daily air supply requirement of the family. When the household uses the intelligent air outlet device for one time, if the number of the users is 10, if the air outlet grid plates are still distributed according to the number of the users in the air supply area, each user can be distributed to 3 to 4 air outlet grid plates, which is obviously unreasonable, the air supply performance which can be achieved by the 3 to 4 air outlet grid plates can obviously not meet the requirement of each user, specifically, in the practical situation, the segmentation threshold value can be set to be 4, when the number of the users in the air supply area is more than 4, the intelligent air outlet device executes a fixed mode in the air supply area, or a plurality of air outlet grid plates are combined and arranged according to the number of groups into which the users in the air supply area are divided to form an air supply section and are distributed to each group, so as to meet the air supply requirements of each user in the air supply area as much as possible; and when the number of users in the air supply area is less than or equal to 4, the plurality of air outlet grid plates can be combined and arranged according to the number of the users to form air supply sections, and each air supply section is distributed to the user.

Secondly, a grouping threshold value is set in the technical scheme, and the grouping threshold value refers to the maximum value of the distribution angle of the intelligent air outlet equipment capable of realizing a grouping distribution mode. The distribution angle obtained in the technical scheme reflects the distribution condition of the users in the air supply area, and the users in the air supply area can be distributed dispersedly or intensively by comparing the distribution angle with the grouping threshold value. For example, the grouping threshold is set to 20 °, when the distribution angle between two adjacent users is smaller than 20 °, it is described that the distribution positions of the two users are relatively close to each other, and the intelligent air outlet device can determine that the air supply area is in a concentrated distribution state at this time; when the distribution angles in the air supply area are all larger than 20 degrees, the distribution of users in the air supply area is dispersed, and the intelligent air outlet equipment can judge the condition that the air supply area is dispersedly distributed.

It should be noted that the segmentation threshold and the grouping threshold may be developed and set by a developer of the intelligent air outlet device, or may be set by a user according to a self-help situation.

According to the technical scheme, the air supply mode is determined, and the comprehensive consideration is carried out by combining two consideration factors of the number and the distribution condition of users in the air supply area, so that the requirements of the users on intelligent air outlet equipment are favorably met, and the satisfaction of the users is favorably improved.

More specifically, the operating step of the packet distribution mode includes:

More specifically, the operation of the personal assignment mode includes:

When the number of users in the air supply area is larger than the segmentation threshold value and the distribution angles in the air supply area are larger than or equal to the grouping threshold value, the number of users in the air supply area is more, the distribution is more dispersed, and the intelligent air outlet equipment runs in a fixed mode.

When the number of users in the air supply area is greater than the segmentation threshold and at least one distribution angle in the air supply area is smaller than the grouping threshold, it is described that although there are many users in the air supply area at this time, there is a concentrated distribution among the users, and it is possible to perform grouping processing on the users in the air supply area and operate the grouping distribution mode. The intelligent air-out equipment carries out grouping processing on users in the air supply area, and the grouping processing can be carried out group allocation according to the mapping relation between the distribution angle in the air supply area and the grouping threshold value, for example, a first user and a second user which are adjacent to each other are arranged in the air supply area, and the included angle formed by the connecting lines of the first user, the intelligent air-out equipment and the second user is smaller than the grouping threshold value, namely, the first user and the second user can form a group; the grouping processing can also carry out the group distribution according to the grouping rules pre-stored in the intelligent air outlet equipment.

When the number of the users in the air supply area is smaller than or equal to the segmentation threshold value, the users in the air supply area are fewer at the moment, and the intelligent air outlet equipment can meet the air supply requirement of each user in the air supply area by operating the personal distribution mode.

In conclusion, according to the air supply mode operation method in the technical scheme, accurate air supply can be performed according to the number of users in the air supply area and the distribution condition of the users, and the use experience of the users is improved.

Further, the fixed mode in the present technical solution refers to that the intelligent air-out device executes fixed air supply parameters, and the air supply parameters may refer to one or more of air supply volume, wind strength, air-out form, air-out range, and the like of the intelligent air-out device. It should be noted that the fixed air supply parameters may be developed and set by a developer of the intelligent air outlet device, or may be set by a user according to the user's own needs.

The grouping distribution mode in the technical scheme refers to that users in an air supply area are grouped according to the distribution condition of the users of which the acquired physiological characteristic parameters in the air supply area reach a use threshold value, then the combined arrangement of a plurality of air outlet grid plates is carried out according to the mapping relation between pre-stored grouping information and air supply section parameters to form air supply sections, each air supply section is configured to a group formed by each user in the air supply area, and the air supply section parameters of the air supply section are determined according to the grouping information of the corresponding group, so that the determination of the air supply section parameters can be realized according to the actual requirements of different groups. Specifically, the combined arrangement of the multiple air outlet grid plates refers to a combination of any one or more distribution modes of the number, length or sequence of the air supply sections, for example, the number of the air supply sections can be determined according to the grouping number in the air supply area, the length of the air supply sections can be determined according to the average distance from each user in each group to the intelligent air outlet device, or the sequence of the air supply sections can be determined according to the average height of each user in each group in the air supply area; the grouping information at least comprises the number of users in the group and physiological characteristic information of each user with physiological characteristic parameters reaching the use threshold, and the air supply section parameters can refer to one or more of air supply amount, wind power intensity, air outlet form or air outlet range of the air supply section. It should be noted that the mapping relationship between the grouping information and the air supply section parameter may be developed and set by a developer of the intelligent air outlet device, or may be set by a user according to the needs of the user.

The personal distribution mode in the technical scheme refers to acquiring physiological characteristic information of users with physiological characteristic parameters reaching a use threshold value in an air supply area, and then performing combined arrangement of a plurality of air outlet grid plates according to a mapping relation between the pre-stored physiological characteristic information and air supply section parameters to form an air supply section, wherein each air supply section is configured for each user in the air supply area, and each air supply section determines the air supply section parameters of the air supply section according to the physiological characteristic information of the corresponding user, so that the determination of the air supply section parameters can be realized according to actual requirements of different users. Specifically, the combined arrangement of the plurality of air outlet grid plates refers to the combination of any one or more distribution modes of the number, length or sequence of the air supply sections, for example, the number of the air supply sections can be determined according to the number of users in the air supply area, the length of the air supply sections can be determined according to the distance from the users to the intelligent air outlet device, or the sequence of the air supply sections can be determined according to the relative height of the users in the air supply area; the air supply section parameters can refer to one or more of air supply quantity, wind strength, air outlet form or air outlet range of the air supply section. It should be noted that the mapping relationship between the physiological characteristic information and the air supply section parameter may be developed and set by a developer of the intelligent air outlet device, or may be set by a user according to the needs of the user.

In an embodiment of the present technical solution, the combined arrangement of the plurality of air outlet grid plates includes distributing the number of the air supply sections, the air outlet grid plates may be divided into an air supply section one, an air supply section two and an air supply section three, and the specific steps of implementing the segmentation are as follows: the intelligent air outlet device can recognize that three users in the air supply area need to use the intelligent air outlet device according to the physiological characteristic parameters, and then the intelligent air outlet device 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 quantity 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.

Further, the combined arrangement of the plurality of air outlet grid plates comprises the step of distributing the air outlet forms of the air supply section, the current somatosensory comfort level of the user is obtained through the intelligent wearable device, and the air outlet forms of the air supply section are distributed according to the somatosensory comfort level of the user; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

The somatosensory comfort level of the user specifically refers to the feedback condition of the user on the comfort level of the current environment, and the current environment mainly refers to various environmental factors such as the current temperature, the current humidity, the current air flow rate and the current illumination intensity. When the user uses intelligent air-out equipment, the air-out form of intelligent air-out equipment is suitably adjusted according to the comfort level is felt to the body of user, more is favorable to satisfying user's air supply demand, improves the user and experiences intelligent air-out equipment's use.

When the air supply target is a group, the intelligent air-out equipment can pre-store the priority sequence when each user uses the intelligent air-out equipment in the air supply area, and the air supply target is an air supply section of the group, and the air supply section air-out forms corresponding to the air supply section can be distributed according to the somatosensory comfort level grade of the user with the highest priority.

When the air supply target is an individual, the intelligent air-out device can pre-store the mapping relation between the user body feeling comfort level and the air supply section air-out form, and carry out distribution of the air supply section air-out form according to the mapping relation between the user body feeling comfort level and the air supply section air-out form.

Further, the method also comprises a step of matching the somatosensory comfort level:

Because every user is different to the comfortable degree feedback of environment, consequently, in order to judge the body of the regional interior user of air supply more accurately and feel the comfort level, when utilizing neural network to train different users 'physiological characteristic parameter earlier, receive user's body and feel the comfort level feedback condition in real time, according to the body and feel the comfort level feedback condition under the different identity templates again, the storage is obtained every user's body and is felt comfort level feedback result, divides user's body and feels the comfort level grade.

Furthermore, in a set collection period, the somatosensory comfort level of the user is obtained through the intelligent wearable device, and the air outlet form of the air supply section in the collection period is distributed according to the somatosensory comfort level of the user.

Further, the method also comprises the following steps of:

Because the physiological characteristic parameter is the data that the user detected when wearing intelligent wearing equipment, there may be the circumstances such as detection device's aversion, detection device's interference, user's physiological state is influenced by external world suddenly during actual detection, all can influence accuracy and validity when the physiological characteristic parameter detects.

In order to improve the accuracy and effectiveness of the physiological characteristic parameter detection result, the technical scheme of the invention is that the physiological characteristic parameter of the user is acquired in an acquisition cycle, then the physiological characteristic parameter acquired in the current acquisition cycle is compared with the physiological characteristic parameter acquired in the previous acquisition cycle, and whether the difference value of the physiological characteristic parameters acquired in the two acquisition cycles is within a preset mutation range is judged. When the difference value is not in the preset mutation range, the physiological characteristic parameters in the current acquisition period are invalid, and the user uses the detection data to change suddenly due to accidental conditions, and the air supply section of the user maintains the current air outlet form; when the difference value is within a preset mutation range, the physiological characteristic parameters in the current acquisition period are indicated to be effective, the physiological characteristic parameters are changed due to actual behaviors of the user, the intelligent air outlet device is required to respond to the physiological state change of the user, namely the somatosensory comfort level of the user is adjusted according to the physiological characteristic parameters acquired in the current acquisition period, and the air supply section operates the corresponding air outlet form according to the current somatosensory comfort level.

Furthermore, the air outlet form of the air supply section comprises any one or combination of a spiral type, a staggered type, a direct blowing type and a mixed type.

It should be noted that the air outlet is spiral, the dispersion area of the air outlet range is large, the air blowing form is spiral and circular, and the wind feeling is soft and floating; the staggered type is that air outlet barracks on the left side and the right side are formed on the air supply section, and the air of the two barracks flap the air supply area of the user back and forth to form surrounding airflow around the user; the direct blowing type is adopted, the air outlet is focused, and the wind power is strong; the hybrid type is the mutual combination of the above three air supply modes. Specifically, the operation mixed type air supply section can be split into 2 or 3 small air supply sections from the air supply section, and each small air supply section realizes an air outlet form, so that the air supply section can achieve the mutual combination of the three air supply modes.

Further, the combined arrangement of the plurality of air outlet grid plates comprises the steps of distributing the air outlet range of the air supply section, extracting the body state characteristic information of the user according to the physiological characteristic information, acquiring the position information of the user through the intelligent wearable device, acquiring the distribution range of an air supply target according to the body state characteristic information and the position information of the user, and distributing the air outlet range of the air supply section according to the distribution range of the air supply target; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

The angle range of the back-and-forth swing of the common tower fan on the market is fixed, if the position of a user is in the blowing range of the tower fan, the user cannot blow wind, and the user can blow wind only by moving the position to the blowing range of the tower fan.

Therefore, in an embodiment of the present technical solution, the combined arrangement of the plurality of outlet grids includes allocating an outlet range of the air supply section, where the outlet range refers to a target range that can be covered in a horizontal direction after the air is discharged from the air supply section, specifically, the technical solution may obtain a posture characteristic of a user through the physiological characteristic information, and obtain position information of the user in an air supply area through the intelligent wearable device, thereby determining a distribution range of an air supply target, and allocate the outlet range of the air supply section according to the distribution range of the air supply target, so as to ensure that an individual user or each user in a group who obtains a corresponding air supply section can blow air, which is more beneficial to improving satisfaction of the user on the intelligent outlet device. When the air supply target is a small group, the distribution range of the air supply target refers to the distribution range covered by all users in the small group; when the blowing target is an individual, the distribution range of the blowing target refers to a width range that is largest in the horizontal direction corresponding to the user.

More specifically, in an embodiment of the present technical solution, each air outlet grid plate in the air supply section can swing back and forth within a certain angle range to form an air outlet range corresponding to an air supply target distribution range; in another embodiment of the present disclosure, each of the air outlet grid plates in the air supply section may also be sequentially arranged in a fixed arrangement with a certain angle difference therebetween, so as to form an air outlet range corresponding to the target distribution range of the air supply.

Further, the system comprises an air supply mode judging module:

Further, the air supply mode matching module is included:

Further, the air conditioner further comprises a distribution module, wherein the distribution module comprises an air outlet form distribution unit and an air outlet range distribution unit;

According to the air supply mode operation system provided by the technical scheme, the physiological characteristic information receiving module, the operation module, the air supply mode judging module, the air supply mode matching module and the distribution module can be arranged on the intelligent air outlet device or on the communication terminal, communication connection can be achieved between the intelligent air outlet device and the communication terminal, and particularly, the communication terminal can be other household appliance devices except the intelligent air outlet device in a mobile phone or an intelligent household appliance.

Furthermore, under the operation of a user, the operation module can call the relevant acquired data records of the physiological characteristic information receiving module for the user, so that the user can correspondingly adjust the mapping relation in the operation 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 operation system of the air supply section of the intelligent air outlet equipment are further improved.

A computer readable storage medium is provided, and an intelligent air-out equipment air supply section control program is stored on the computer readable storage medium, and when the intelligent air-out equipment air supply section control program is executed by a processor, the steps of the air supply mode operation 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

1. An air supply mode operation method is deployed in an air supply mode operation system, the air supply mode operation system comprises intelligent wearable equipment and intelligent air outlet equipment, the intelligent wearable equipment is connected with the intelligent air outlet equipment through a communication network and transmits information to the intelligent air outlet equipment, the intelligent air outlet equipment is characterized by comprising a wind wheel, a wind wheel driving device, a wind guide structure and an air inlet and outlet array mechanism, and the air inlet and outlet array mechanism comprises a plurality of layers of air channel layer structures which are vertically overlapped and a driving mechanism used for driving each layer of air channel layer structure to independently and horizontally rotate; the air duct layer structure is annular and is a layered structure formed by overlapping a plurality of layers of air outlet grid plates from top to bottom;

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 mode operation method comprises the following steps:

determining an air supply mode of the intelligent air outlet equipment according to the physiological characteristic information of the user of which the physiological characteristic parameter reaches the use threshold;

the air supply mode comprises a fixed mode, a grouping distribution mode and a personal distribution mode;

the operating step of the packet distribution mode comprises: according to the mapping relation between the pre-stored grouping information and the parameters of the air supply section, a plurality of air outlet grid plates are combined and arranged to form the air supply section;

the operating step of the personal assignment mode includes: according to the mapping relation between the pre-stored physiological characteristic information and the parameters of the air supply section, a plurality of air outlet grid plates are combined and arranged to form the air supply section;

the combination of a plurality of air outlet grid plates is arranged to be the combination of any one or more distribution modes in the number, length, sequence, air outlet form or air outlet range of the air supply section.

2. An air supply mode operation method according to claim 1, characterized in that: the generation of the usage threshold comprises the steps of:

3. An air supply mode operation method according to claim 1, comprising an air supply mode determination step of:

4. The air supply mode operation method according to claim 3, wherein when the number of users in the air supply area is greater than a segmentation threshold and the distribution angles in the air supply area are both greater than or equal to a grouping threshold, the intelligent air outlet device operates in a fixed mode.

5. An air supply mode operation method according to claim 3, wherein when the number of users in the air supply area is greater than a segmentation threshold and at least one distribution angle in the air supply area is smaller than a grouping threshold, the group distribution is performed on the users in the air supply area, and the intelligent outlet device operates a grouping distribution mode.

6. An air supply mode operation method according to claim 3, wherein when the number of users in the air supply area is less than or equal to the segment threshold, the intelligent air outlet device operates the personal assignment mode.

7. The air supply mode operation method according to claim 1, wherein the combined arrangement of the plurality of air outlet grids comprises distribution of air outlet forms of the air supply section, the current somatosensory comfort level of the user is obtained through the intelligent wearable device, and the air outlet forms of the air supply section are distributed according to the somatosensory comfort level of the user; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

8. An air supply mode operation method according to claim 7, further comprising a somatosensory comfort level matching step of:

9. An air supply mode operation method according to claim 7, wherein in a set collection period, the somatosensory comfort level of the user is acquired through the intelligent wearable device, and the air outlet form of the air supply section in the collection period is distributed according to the somatosensory comfort level of the user.

10. An air supply mode operation method according to claim 9, further comprising an adaptation adjustment step of:

11. An air supply mode operation method according to claim 7, wherein the air outlet form of the air supply section includes any one or a combination of a spiral type, an interlaced type, a direct blowing type and a mixed type.

12. The operation method of the air supply mode according to claim 1, wherein the combined arrangement of the plurality of air outlet grids comprises the steps of distributing an air outlet range of the air supply section, extracting the body state feature information of the user according to the physiological feature information, acquiring the position information of the user through the intelligent wearable device, acquiring the distribution range of an air supply target according to the body state feature information and the position information of the user, and distributing the air outlet range of the air supply section according to the distribution range of the air supply target; wherein the air supply objective is a group or individual assigned to obtain an air supply segment.

13. An air supply mode operation system is characterized in that: the air supply mode operation method comprises an intelligent wearable device and an intelligent air outlet device, wherein the intelligent wearable device is in communication connection with the intelligent air outlet device, and the air supply mode operation method further comprises a physiological characteristic information receiving module and an operation module;

14. An air supply mode operation system according to claim 13, comprising an air supply mode determination module:

15. An air supply mode operating system according to claim 14, comprising an air supply mode matching module:

16. An air supply mode operation system according to claim 15, further comprising a distribution module, wherein the distribution module includes an air outlet form distribution unit and an air outlet range distribution unit;

17. A computer-readable storage medium characterized by: the computer readable storage medium stores an intelligent air-out device air supply section control program, and the intelligent air-out device air supply section control program realizes the steps of an air supply mode operation method according to any one of claims 1 to 12 when being executed by a processor.