CN111520351B

CN111520351B - Air outlet form distribution method and system of air outlet section and computer readable storage medium

Info

Publication number: CN111520351B
Application number: CN202010245154.2A
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: 2022-07-08
Anticipated expiration: 2040-03-31
Also published as: CN111520351A

Abstract

The invention discloses an air outlet form distribution method and system of an air outlet section and a computer readable storage medium, which are applied to intelligent air outlet equipment, wherein the intelligent air outlet equipment is provided with a plurality of movable air outlet grid plates, the plurality of air outlet grid plates are divided into a plurality of air outlet sections, and the air outlet form distribution method comprises the following steps: acquiring object information in a wind supply area; and acquiring matching information of the air outlet forms of each object and each air outlet section according to the object information, and combining and arranging the air outlet grid plates contained in the matched air outlet sections into the matched target air outlet form according to the matching information. Air-out grating through with intelligent air-out equipment falls into a plurality of sections air-out sections to according to the air-out form of each air-out section of object information distribution, thereby satisfy the air supply demand of each object, improve user and use experience. And then provide an air-out form distribution system of air-out section, its intelligent degree is high, can be according to the air-out form of object information distribution air-out section to overcome the not enough among the prior art.

Description

Air outlet form distribution method and system of air outlet section and computer readable storage medium

Technical Field

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

Background

In hot summer, people can generally cool through a fan or an air conditioner, so that people can obtain a cool air in summer, along with the development of the society, because the floor area of the tower fan is smaller, the traditional floor fan is gradually replaced by the tower fan, most of the conventional tower fans in the current market are single-direction air outlet, the air supply range is smaller, even if the tower fan can automatically shake the head left and right, the air supply range of the tower fan is enlarged, and the air supply angle is changed, but because the tower fan is of an integrated structure, the air supply direction is relatively fixed, the air outlet form is also fixed during air supply, the air blowing requirements of each user are different, therefore, the air supply mode of the tower fan is limited, and the traditional tower fan cannot meet the air blowing requirements of the users easily.

Disclosure of Invention

The invention aims to provide an air outlet form distribution method of an air outlet section.

Another objective of the present invention is to provide an air outlet shape distribution system for an air outlet section, which has a high intelligence level and can distribute the air outlet shape of the air outlet section according to object information, so as to overcome the disadvantages in the prior art.

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

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

the utility model provides an air-out form distribution method of air-out section, is applied to intelligent air-out equipment, intelligent air-out equipment has a plurality of mobilizable air-out grid plates, and a plurality of air-out grid plates divide into a plurality of sections the air-out section, air-out form distribution method includes the following step:

acquiring object information in a wind supply area;

and acquiring matching information of the air outlet forms of each object and each air outlet section according to the object information, and combining and arranging the air outlet grid plates contained in the matched air outlet sections into the matched target air outlet form according to the matching information.

Preferably, one or more air outlet forms are stored in advance;

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

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

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

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the distance information, and combining and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the matching information.

Preferably, a mapping relation between the age of the user and the air outlet form of the air outlet section is stored in advance;

the object information is age information of the user;

according to the age information of the user, matching information of the object and the air outlet form of the corresponding air outlet section is obtained, and the air outlet grid plates contained in the air outlet section are combined and arranged into the target air outlet form according to the matching information.

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

the object information is state information of a user;

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the state information of the user, and combining and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the matching information.

Preferably, a mapping relation between the surface temperature of the object and the air outlet form of the air outlet section is stored in advance;

the object information is surface temperature information of an object;

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the surface temperature information of the object, and combining and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the matching information.

Preferably, a mapping relation between physiological characteristic parameters of the user and the air outlet form of the air outlet section is stored in advance;

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

and acquiring matching information of the air outlet forms of the user and the corresponding air outlet section according to the physiological characteristic parameter information of the user, and combining and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the matching information.

Preferably, identity information of the object is stored;

collecting and storing the use habit data corresponding to the identity information;

the object information is the identity information of the user;

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the identity information of the user, and combining and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the matching information.

Preferably, the air outlet grid plates contained in the air outlet section are combined and arranged into a target air outlet form according to the custom matching signal and the custom matching signal.

Preferably, the object information in the wind delivery area is periodically acquired:

if the newly acquired object information is the same as the object information acquired last time, the air outlet form of the air outlet section is kept unchanged;

and if the newly acquired object information is different from the previously acquired object information, acquiring matching information of the object and the air outlet form of the corresponding air outlet section again according to the newly acquired object information, and combining and arranging the air outlet grid plates contained in the air outlet section into a new air outlet form.

Preferably, a blowing time length threshold value is preset;

calculating the blowing time length of the object;

judging whether the blowing time of the object exceeds the blowing time threshold value:

if so, the air outlet grid plates contained in the air outlet section are combined and arranged into a new air outlet form, and the air blowing time of the new air outlet form is calculated;

if not, the air outlet shape of the air outlet section is kept unchanged.

An air outlet form distribution system of an air outlet section comprises intelligent air outlet equipment, an object information acquisition module and a processing module;

the object information acquisition module is used for acquiring object information in the air supply area;

the processing module is used for identifying object information in the air supply area, acquiring matching information of each object and the air outlet form of each air outlet section according to the object information, and sending the matching information;

the intelligent air outlet equipment is provided with a plurality of movable air outlet grid plates, the air outlet grid plates are divided into a plurality of air outlet sections, and the air outlet grid plates contained in the matched air outlet sections are combined and arranged into a matched target air outlet form according to matching information.

Preferably, the air conditioner further comprises a storage module, wherein the storage module is used for storing control information of one or more air outlet forms in advance, storing a mapping relation between object information and the air outlet form of the air outlet section, and/or storing identity information and use habit data of an object.

Preferably, the object information acquiring module is configured to periodically acquire object information in the air supply region and send the object information to the processing module, and the processing module is configured to periodically identify the object information in the air supply region, re-acquire matching information between the object and an air outlet shape of the corresponding air outlet section, and combine and arrange air outlet louvers included in the air outlet section into a new air outlet shape.

Preferably, the device further comprises a receiving module;

the receiving module is used for receiving a custom matching signal and sending the custom matching signal to the processing module;

the processing module is further used for acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the self-defined matching signal, and sending the matching information to the intelligent air outlet equipment.

Preferably, the storage module is further configured to store a blowing time threshold, and the air outlet form distribution system further includes:

the timing module is used for calculating the blowing time of each object in the blowing area;

the judging module is used for judging whether the blowing time length exceeds the blowing time length threshold value;

if so, acquiring the matching information of the air outlet form of the air outlet section corresponding to the object again, and sending the matching information to the intelligent air outlet equipment.

The computer-readable storage medium stores an air outlet form distribution program of an air outlet section of an intelligent air outlet device, and the air outlet form distribution program of the air outlet section of the intelligent air outlet device is executed by a processor to realize the steps of the air outlet form distribution method of the air outlet section.

The air outlet form distribution method of the air outlet sections has the advantages that the air outlet grid plate of the intelligent air outlet device is divided into the air outlet sections, and the air outlet forms of the air outlet sections are distributed according to the object information, so that the air supply requirements of all objects are met, and the use experience of users is improved. And then provide an air-out form distribution system of air-out section, its intelligent degree is high, can be according to the air-out form of object information distribution air-out section to overcome the not enough among the prior art.

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 schematic flow chart of an air outlet form distribution method of an air outlet section according to the present invention;

fig. 2 is a schematic structural diagram of an intelligent air outlet device in an implementation of the air outlet form distribution method of the air outlet section according to the present invention;

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

In the drawings: 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 outlet form distribution method of the air outlet section in this embodiment is applied to an intelligent air outlet device, the intelligent air outlet device is provided with a plurality of movable air outlet grid plates 310, the plurality of air outlet grid plates 310 are divided into a plurality of air outlet sections, as shown in fig. 1, the air outlet form distribution method includes the following steps:

acquiring object information in a wind supply area;

and acquiring matching information of the air outlet forms of each object and each air outlet section according to the object information, and combining and arranging the air outlet grating plates 310 contained in the matched air outlet sections into a matched target air outlet form according to the matching information.

The technical scheme provides an air outlet form distribution method of an air outlet section, which is suitable for intelligent air outlet equipment provided with a plurality of movable air outlet grid plates 310, such as a tower fan/cylindrical floor fan and the like which are provided with a plurality of air outlet grid plates 310 which are independently movable and the air supply parameters of the air outlet grid plates 310 are independently set, a tower fan/cylindrical floor fan and the like which are provided with a plurality of groups of air outlet grid plates 310 which are independently movable and the air supply parameters of the air outlet grid plates 310 are independently set, wherein the air outlet grid plates 310 which are independently movable are specifically the same group provided with a plurality of air outlet grid plates 310 with consistent activities, and the air outlet grid plates 310 of different groups can be consistent or inconsistent in activity. Preferably, the intelligent air outlet device is provided with a plurality of air outlet grids 310 which are independent from each other, that is, each air outlet grid 310 is provided with a unit driving device, so that each air outlet grid can rotate around the rotating shaft of the intelligent air outlet device independently from each other. But may be applied to a cylindrical type of a floor air conditioner.

The multiple air outlet grid plates 310 which are independently movable or the multiple groups of air outlet grid plates 310 which are independently movable are divided into a plurality of air outlet sections, and the air outlet sections combine and arrange the air outlet grid plates 310 into a target air outlet form according to corresponding object information; the air outlet form means that the air outlet grid plates 310 contained in the air outlet section are statically or dynamically combined and arranged, so that the air outlet of the air outlet section forms a corresponding air blowing effect under the guidance of the combined and arranged air outlet grid plates 310; the static combined arrangement means that the plurality of outlet grids 310 included in the outlet section are arranged according to a certain rule, and the plurality of outlet grids 310 are kept relatively static, for example, the outlet directions of the plurality of outlet grids 310 included in the outlet section are arranged according to a spiral rule, and the plurality of outlet grids 310 included in the outlet section are relatively fixed; the dynamic combination arrangement refers to that part or all of the air outlet grids 310 included in the air outlet section regularly move relatively, for example, the air outlet grids 310 included in the air outlet section are divided into a plurality of air outlet parts, and the air outlet grids 310 included in each air outlet part are relatively fixed; the air outlet parts reciprocate in the air supply range in a staggered mode and exhaust air to the air supply area; of course, the air outlet form may be a combination arrangement manner of the air outlet grid plates 310 set by the intelligent air outlet device when the intelligent air outlet device leaves the factory, or may be a combination arrangement manner of the air outlet grid plates 310 set by the user after purchase. The target air outlet form refers to an air outlet form allocated to the air outlet section corresponding to the object according to the object information.

The air outlet form distribution method of the air outlet section comprises the following steps: the method comprises the steps of obtaining object information in an air supply area, wherein the object information comprises but is not limited to distance information of an object, age information of the object, state information of the object, surface temperature information of the object, physiological characteristic parameter information of the object and/or identity information of the object, and obtaining matching information of air outlet forms of each object and each air outlet section according to the object information, wherein the matching information of the air outlet forms of each object and each air outlet section specifically refers to matching the air outlet forms of the air outlet sections capable of supplying air according to the object information, the capable of supplying air refers to air supply requirements of the object meeting the object information, and the air supply requirements comprise but not limited to air outlet amount and/or air supply range. The logic matched with the intelligent air outlet device can be a logic set by the intelligent air outlet device when the intelligent air outlet device leaves a factory, or can be a matching logic set by a user after the intelligent air outlet device is purchased.

After the intelligent air outlet equipment is started, object information in an air supply area is obtained, wherein the objects comprise users, pets, heating electric appliances, humidifying equipment and the like; the mode that the intelligent air-out equipment acquires the object information in the air supply area can be image recognition, infrared detection recognition and combination thereof, besides the above described modes, the intelligent air-out equipment can also be acquired by connecting a mobile terminal of a user with the intelligent air-out equipment, specifically, the user records own object information in the mobile terminal in advance, and when the mobile terminal enters the air supply area of the intelligent air-out equipment, the intelligent air-out equipment is in communication connection with the mobile terminal, and then the corresponding object information can be acquired.

It should be noted that, in the present technical solution, the air outlet form distribution method of the air outlet section can 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, as shown in fig. 2 and 3, includes: the wind wheel driving device comprises a wind wheel 100, a wind wheel driving device 130, a wind guide structure and a 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 is 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, after obtaining matching information between a certain object and an air outlet shape of a corresponding air outlet section, the specific steps of combining and arranging the air outlet grid plates 310 included in the air outlet section into a target air outlet shape are as follows: after the intelligent air outlet device acquires the matching information, the unit driving device 400 of the intelligent air outlet device drives the air duct layer structure at the corresponding position to horizontally rotate relative to the air guide structure, so that the air outlet grid plates 310 are combined and arranged under the driving of the unit driving device 400, and a target air outlet form is formed. The air outlet grid plates 310 contained in the air outlet section can be combined and arranged into different air outlet forms, so that different blowing feelings are provided for users, and the blowing requirements of the users can be better met.

Further, one or more air outlet forms are stored in advance;

In one embodiment, the spiral air outlet form means that the air outlet directions of the plurality of air outlet grids 310 included in the air outlet section are arranged in a spiral shape, the plurality of air outlet grids 310 included in the air outlet section are relatively fixed, and when air is blown, the air outlet grids 310 included in the air outlet section can integrally rotate or do spiral reciprocating motion within a certain angle range; the spiral air-out form has the advantage that the air-out scope dispersion area is big, and at the in-process of blowing, the air-out is spiral circulation, and the wind sense is soft comfortable.

The staggered air outlet form means that the air outlet grating plate 310 contained in the air outlet section is divided into a plurality of air outlet parts, and the air outlet grating plate 310 contained in each air outlet part is relatively fixed; the air outlet parts alternately discharge air to the air supply area, and form surrounding airflow around the object; the staggered air outlet means that a plurality of air outlet parts perform air supply operation to the air supply area in a non-synchronous mode, for example, two air outlet parts rotate at the same speed and in opposite directions within a certain angle range.

The air outlet shape of the direct blowing type means that the air outlet directions of the plurality of air outlet grid plates 310 included in the air outlet section are the same, and the air outlet section is relatively fixed or reciprocates within a certain angle range. The wind power can be gathered by the air outlet form of the direct blowing type, so that the wind power is stronger.

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

1. the intelligent air outlet equipment can comprise any one of a spiral type, a staggered type and a direct blowing type, for example, the intelligent air outlet equipment comprises a spiral type;

2. the intelligent air outlet equipment can comprise any of a spiral type, an interlaced type and a direct blowing type, for example, the intelligent air outlet equipment can comprise a spiral type, an interlaced type and a direct blowing type;

3. the intelligent air outlet equipment can comprise any combination of a spiral type, an interlaced type and a direct blowing type, for example, the intelligent air outlet equipment comprises a combination of a spiral type and an interlaced type, a combination of a spiral type and a direct blowing type and a combination of an interlaced type and a direct blowing type; the multiple combinations specifically mean that more than two air outlet forms are combined and operate on the same air outlet section, for example, a certain air outlet section is divided into two secondary air outlet sections, one of the secondary air outlet sections is a spiral air outlet form, and the other secondary air outlet section is a direct blowing air outlet form.

4. The intelligent air outlet device may include one or a combination of a spiral type, an interlaced type and a direct blowing type, for example, the intelligent air outlet device includes a spiral type, a combination of a spiral type and an interlaced type, a combination of a spiral type and a direct blowing type, and a combination of an interlaced type and a direct blowing type.

5. The intelligent air outlet device may include a plurality of types and a combination of the plurality of types, for example, the intelligent air outlet device includes a spiral type, an interlaced type, a direct blowing type, a combination of the spiral type and the interlaced type, a combination of the spiral type and the direct blowing type, and a combination of the interlaced type and the direct blowing type. Of course, the air outlet form may be preset when the intelligent air outlet device leaves the factory, or may be set by the user according to the user's own needs.

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

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the distance information, and combining and arranging the air outlet grating plates 310 contained in the air outlet section into a target air outlet form according to the matching information.

As one example of the technical solution, the distance information of the object refers to a distance between the object and the intelligent air outlet device, and because the air outlet forms formed by the combined arrangement of the air outlet grid plates 310 included in the air outlet section are different, the sizes of the wind forces are also different, and the distance that can be reached by the wind forces are different, a mapping relationship between the distance between the object and the intelligent air outlet device and the air outlet form of the air outlet section can be stored in advance, specifically, a plurality of distance sections are stored in advance, each distance section corresponds to a different air outlet form, for example, three distance sections of long distance, middle distance and short distance are stored in advance, the matching logic can be that the middle distance corresponds to a spiral air outlet form, the middle distance corresponds to a staggered air outlet form, and the long distance corresponds to a direct-blowing air outlet form; when the distance information of the object falls into any distance interval, matching the air outlet form corresponding to the distance interval with the object information to obtain matching information, and then arranging the air outlet grating plates 310 included in the air outlet section corresponding to the object into a target air outlet form, for example:

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

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

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

Further, a mapping relation between the age of the user and the air outlet form of the air outlet section is stored in advance;

the object information is age information of the user;

according to the age information of the user, matching information of the object and the air outlet shape of the corresponding air outlet section is obtained, and the air outlet grating plates 310 contained in the air outlet section are combined and arranged into the target air outlet shape according to the matching information.

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

Therefore, the mapping relationship between the age of the object and the air outlet form of the air outlet section can be stored in advance, specifically, a plurality of age sections are stored in advance, each age section corresponds to a different air outlet form, for example, three age sections of children, young people and old people are stored in advance, the matching logic can be that middle children correspond to the staggered air outlet form, young people correspond to the direct-blowing air outlet form, and old people correspond to the spiral air outlet form; when the age information of the object falls into any one age interval, matching the air outlet form corresponding to the age interval with the object information to obtain matching information, and then arranging the air outlet grating plates 310 included in the air outlet section corresponding to the object into a target air outlet form, for example:

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

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

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

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

the object information is state information of a user;

according to the state information of the user, matching information of the object and the air outlet form corresponding to the air outlet section is obtained, and the air outlet grid plates 310 contained in the air outlet section are combined and arranged into the target air outlet form according to the matching information.

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

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

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

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

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

Further, a mapping relation between the surface temperature of the object and the air outlet form of the air outlet section is stored in advance;

the object information is surface temperature information of an object;

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the surface temperature information of the object, and combining and arranging the air outlet grid plates 310 contained in the air outlet section into a target air outlet form according to the matching information.

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

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

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

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

Further, a mapping relation between physiological characteristic parameters of the user and the air outlet form of the air outlet section is stored in advance;

according to the physiological characteristic parameter information of the user, matching information of the air outlet forms of the user and the corresponding air outlet section is obtained, and the air outlet grid plates 310 contained in the air outlet section are combined and arranged into a target air outlet form according to the matching information.

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. And user's physiological state can judge through the physiological characteristic parameter that intelligent wearing equipment acquireed, for example, be in the user of calm state, its heart rate is pulsating with normal rate, breathes relatively steadily, and body surface temperature is close with normal body surface temperature etc. and just change into the user of calm state from the motion state, and its heart rate is pulsating with the rate that is faster than normal rate, breathes relatively precipitously, and normal body surface temperature is higher slightly than to body surface temperature etc..

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

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

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

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

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

Further, storing the identity information of the object;

the object information is the identity information of the user;

according to the identity information of the user, matching information of the object and the air outlet form corresponding to the air outlet section is obtained, and the air outlet grid plates 310 contained in the air outlet section are combined and arranged into the target air outlet form according to the matching information.

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

Further, a custom matching signal is received, and according to the custom matching signal, the air outlet grid plates 310 contained in the air outlet section are combined and arranged into a target air outlet form according to the custom matching signal.

As another embodiment of the present technical solution, the customized matching signal may be specific matching information of the air outlet forms of the air outlet sections of each user in the current air supply area, that is, the air outlet form of the air outlet section corresponding to the matched user a is spiral, the air outlet form of the air outlet section corresponding to the matched user B is staggered, and the air outlet form of the air outlet section corresponding to the matched user C is spiral. The user can directly input the custom matching signal into the intelligent air outlet equipment, or the user inputs the custom matching signal into the mobile equipment, and then the mobile equipment sends the custom matching signal to the intelligent air outlet equipment through a network; after the intelligent air outlet device receives the custom matching signal, the air outlet grid plates 310 contained in each air outlet section are combined and arranged into a target air outlet form according to the custom matching signal. Through the air-out form of each section air-out section of user-defined intelligent air-out equipment, each air-out section of intelligent air-out equipment moves respective air-out form respectively, can laminate user's demand more like this. In-service use, every user's physique and state are different, consequently, each user's in the air supply region demand of blowing also differs, through the user-defined signal that matches, can make each section air-out section operate respective air-out form respectively according to the demand of each object to correspond more complicated use scene, can further promote user's use and experience like this.

Further, object information in the wind delivery area is periodically acquired:

and if the newly acquired object information is different from the previously acquired object information, re-acquiring the matching information of the object and the air outlet form of the corresponding air outlet section according to the newly acquired object information, and combining and arranging the air outlet grating plates 310 contained in the air outlet section into a new air outlet form.

In the air supply process, the object information in the air supply area cannot be kept unchanged all the time, because objects such as users and pets can move, the air volume requirement of the users can be changed due to movement, the heating electric appliance can be cooled down, and the humidifying equipment can be shut down, so that when the object information changes, the intelligent air outlet equipment can better adapt to the current use requirement by timely performing corresponding adjustment as shown in fig. 1; therefore, the air outlet shape of each air outlet section can be updated by regularly acquiring the object information in the air supply area, namely when the object information in the air supply area is not changed, the intelligent air outlet equipment keeps the original air outlet section operation state; when the object information in the air supply area changes, the intelligent air outlet equipment updates the air outlet form of each air outlet section to be matched with the object information in the current air supply area, so that the air supply requirements of each object in the air supply area are met, and the user experience is better. The regular period may be a set time interval carried by the intelligent air outlet device when the intelligent air outlet device leaves a factory, or the time interval may be set by the user when the intelligent air outlet device is initially set.

Further, presetting a blowing time length threshold;

calculating the blowing time length of the object;

if so, combining and arranging the air outlet grid plates 310 contained in the air outlet section into a new air outlet form, and calculating the air blowing time of the new air outlet form;

if not, the air outlet shape of the air outlet section is kept unchanged.

Generally, a user may feel uncomfortable when blowing with a fixed air-out form for a long time, and therefore, after blowing for a period of time, the air-out form of the air-out section is changed to make the air-out experience of the user more comfortable. Therefore, when the air blowing time of the object reaches a certain duration, the air outlet form of the air outlet section corresponding to the user is changed; as one embodiment of the present technical solution, only one duration threshold may be set, and the duration may be calculated in a zero clearing manner. For example, the time length threshold is 30 minutes, the current running air outlet form of the air outlet section corresponding to the user is a direct blowing type, the air blowing time length is calculated when the user starts blowing, when the air blowing time length of the user exceeds 30 minutes, the air outlet form of the air outlet section corresponding to the user is changed into a staggered or spiral air outlet form, at this time, the air blowing time length of the user is cleared, and then the air blowing time length of the user is recalculated; and when the blowing time of the user exceeds 30 minutes again, changing the air outlet form of the user again.

As another embodiment of the technical scheme, a plurality of time length thresholds can be set, and the blowing time length of the user is calculated in an accumulative manner, wherein the accumulative manner specifically means that the blowing time length of the user is not cleared when the blowing time length of the user exceeds a certain time length threshold; when the blowing time of the user exceeds a certain time threshold, the air outlet form of the air outlet section corresponding to the user is changed, and the changing mode is the same as that of the previous embodiment. For example, the time length threshold includes 30 minutes, 60 minutes and 90 minutes, the current running air outlet form of the air outlet section corresponding to the user is a direct blowing type, the air blowing time length is calculated when the user starts blowing, when the air blowing time length of the user exceeds 30 minutes, the air outlet form of the air outlet section corresponding to the user is changed into a staggered type or spiral type air outlet form, at this time, the air outlet time length is not cleared, and the air blowing time length of the user is continuously calculated; when the blowing time of the user exceeds 60 minutes, the air outlet form of the user is changed again, the blowing time of the user is continuously calculated, and the like.

As another embodiment of the present technical solution, a plurality of time length thresholds may be set, the blowing time length of the user is calculated in an accumulative manner, each time length threshold forms a mapping relationship with one air outlet form, and when the blowing time length of the user exceeds a certain time length threshold, the air outlet form of the air outlet section corresponding to the user is changed according to the mapping relationship between the time length threshold and the air outlet form. For example, the time length threshold includes 30 minutes, 60 minutes and 90 minutes, wherein the time length threshold of 30 minutes corresponds to the direct blowing type air outlet form, 60 minutes corresponds to the staggered type air outlet form, and 90 minutes corresponds to the spiral type air outlet form; the current running air outlet form of the air outlet section corresponding to the user is in a staggered form, the air blowing time is calculated when the user starts blowing air, when the air blowing time of the user exceeds 30 minutes, the air outlet form of the air outlet section corresponding to the user is changed into a direct blowing air outlet form, at the moment, the air outlet time is not reset, and the air blowing time of the user is continuously calculated; when the blowing time of the user exceeds 60 minutes, changing the air outlet form of the air outlet section corresponding to the user into a staggered air outlet form; when the blowing time of the user exceeds 90 minutes, the air outlet form of the air outlet section corresponding to the user is changed into a spiral air outlet form, and the like.

the processing module is used for identifying object information in the air supply area, acquiring matching information of air outlet forms of each object and each air outlet section according to the object information, and sending the matching information;

the intelligent air outlet device is provided with a plurality of movable air outlet grid plates 310, the air outlet grid plates 310 are divided into a plurality of air outlet sections, and the intelligent air outlet device combines and arranges the air outlet grid plates 310 contained in the matched air outlet sections into a matched target air outlet form according to matching information.

According to the air outlet form distribution system of the air outlet section, as one embodiment, the object information acquisition module and the processing module are arranged on the intelligent air outlet device.

As another embodiment, the object information obtaining module and the processing module are respectively and independently disposed outside the intelligent air outlet device, and the object information obtaining module and the processing module can communicate with the intelligent air outlet device.

The object information acquisition module acquires object information in the air supply area, and specifically, the object acquisition module may be a camera, an infrared detection device, or the like. The method comprises the steps that a subject acquisition module acquires subject information in a blowing area, wherein the subject information comprises but is not limited to distance information of a subject, age information of the subject, state information of the subject, surface temperature information of the subject, physiological characteristic parameter information of the subject and/or identity information of the subject; then the processing module identifies object information in the air supply area, wherein the identification of the object information comprises but is not limited to the distance between the identification object and the air supply area, the age of the identification object, the motion state and the emotion state of the identification object, the surface temperature of the identification object, the physiological state of the identification object, the identity of the identification object and the like; then, the processing module obtains matching information of the object and the air outlet shape of each air outlet section, sends the matching information to the intelligent air outlet device, and finally controls the air outlet grid plates 310 contained in each air outlet section to be combined and arranged into respective target air outlet shapes by the intelligent air outlet device.

The storage module is used for storing control information of one or more air outlet forms in advance, storing the mapping relation between object information and the air outlet form of the air outlet section, and/or storing identity information and use habit data of the object.

When the object information acquisition module acquires the object information of the object in the air supply area, the matching information can be directly acquired according to the mapping relation between the object information stored in the storage module and the air outlet form of the air outlet section or according to the corresponding relation between the identity information of the object stored in the storage module and the use habit data, so that the data processing pressure of the processing module can be reduced, the operation speed is higher, and the matching information of each air outlet section can be quickly acquired; then according to the matching information, the control information of the air outlet form corresponding to the air outlet section is called from the storage module, the intelligent air outlet equipment can combine and arrange the air outlet grating plates 310 contained in the air outlet section into the target air outlet form by using the control information of the air outlet form, therefore, the time required for obtaining the target air outlet form by combining and arranging the air outlet section into the target air outlet form from the object is shorter, the response speed is faster, and the use experience of a user is better. The control information of the air outlet form can be preset when the intelligent air outlet device leaves a factory, or can be set by a user according to the requirement of the user.

Further, the object information obtaining module is configured to periodically obtain object information in the air supply region, and send the object information to the processing module, and the processing module is configured to periodically identify the object information in the air supply region, re-obtain matching information between the object and the air outlet shape of the corresponding air outlet section, and combine and arrange the air outlet grating plates 310 included in the air outlet section into a new air outlet shape.

In the air outlet process, because the user in the air supply area can walk, the heating electric appliance can be cooled, and the humidifying equipment can be shut down, the object information in the air supply area can be changed. The object information in the air supply area is regularly acquired, and the matching information of the air outlet shapes of the object and the air outlet section can be adjusted according to the current latest object information, so that the intelligent air outlet equipment can adapt to the current air blowing requirement of each object.

Further, the device also comprises a receiving module;

As one implementation mode, the receiving module is a remote control receiver, the remote control receiver receives a user-defined matching signal input by a user through a remote controller, and then the remote control receiver sends the user-defined matching signal to the processing module;

as another embodiment, the receiving module is a network connection device, and the network connection device is connected with a mobile terminal (including a mobile phone, an intelligent bracelet, a tablet computer, and the like) through a network; a user inputs a custom matching signal to the mobile terminal, the mobile terminal sends the custom matching signal to the network connecting device through the network, and then the network connecting device sends the custom matching signal to the processing module;

as another embodiment, the receiving module is a touch screen, and a user directly inputs a custom matching signal on the touch screen, and then the touch screen sends the custom matching signal to the processing module;

and after receiving the custom matching signal, the processing module distributes the air outlet sections according to the custom matching signal. Through the air-out form of the air-out section of user-defined intelligent air-out equipment, each air-out section of intelligent air-out equipment moves respective air-out form respectively, can laminate user's demand more like this. In actual use, every user's physique and state are different, consequently, each user's in the air supply region demand of blowing also differs, and through the user-defined signal of matching, can make each section air-out section operate respective air-out form respectively according to the demand of each object to correspond more complicated use scene, can further promote user's use and experience like this.

Further, the storage module is also used for storing a blowing time threshold, and the air-out form distribution system further comprises:

Generally, a user may feel uncomfortable when blowing with a fixed air-out form for a long time, and therefore, after blowing for a period of time, the air-out form of the air-out section is changed to make the air-out experience of the user more comfortable. Therefore, when the air blowing time of the object reaches a certain duration, the air outlet form of the air outlet section corresponding to the user is changed; the timing module can respectively calculate the blowing time of each object in the air supply area, then judge whether the blowing time of each object exceeds the time threshold, if the blowing time of a certain object exceeds the blowing time threshold, obtain the matching information of the air outlet form of the air outlet section corresponding to the object again, the intelligent air outlet device recombines and arranges the air outlet grating plates 310 contained in the air outlet section into the target air outlet form according to the matching information, wherein the mode of obtaining the matching information again can be random obtaining, or can store the mapping relation between the time threshold and the air outlet form in advance, and then obtain the air outlet form of the air outlet section corresponding to the object according to the mapping relation between the time threshold and the air outlet form.

The computer readable storage medium stores an intelligent air outlet device air outlet section control program, and when the intelligent air outlet device air outlet section air outlet form distribution program is executed by a processor, the steps of the air outlet form distribution method of the air outlet section 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 taken in any way as limiting the scope of the invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty based on the explanations herein, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides an air-out form distribution method of air-out section, is applied to intelligent air-out equipment, its characterized in that: the intelligent air outlet equipment is provided with a plurality of movable air outlet grid plates, the plurality of air outlet grid plates are overlapped up and down to form a layered structure, the plurality of air outlet grid plates are divided into a plurality of air outlet sections through horizontal rotation, and the air outlet form distribution method comprises the following steps:

acquiring object information in a wind supply area;

acquiring matching information of the air outlet forms of each object and each air outlet section according to the object information, and combining and arranging air outlet grid plates contained in the matched air outlet sections into matched target air outlet forms according to the matching information;

one or more air outlet forms are stored in advance;

2. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

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

3. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

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

the object information is age information of the user;

4. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

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

the object information is state information of a user;

5. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

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

the object information is surface temperature information of an object;

6. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

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

7. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

storing identity information of the object;

the object information is identity information of a user;

and acquiring matching information of the object and the air outlet form corresponding to the air outlet section according to the identity information of the user, and arranging the air outlet grating plate combination contained in the air outlet section into a target air outlet form according to the matching information.

8. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that: and receiving a custom matching signal, and arranging the air outlet grid plates contained in the air outlet section into a target air outlet form according to the custom matching signal and the custom matching signal.

9. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

periodically acquiring object information in a blowing area:

10. The air outlet form distribution method of the air outlet section according to claim 1, characterized in that:

presetting a blowing time length threshold;

calculating the blowing time length of the object;

if not, the air outlet shape of the air outlet section is kept unchanged.

11. The utility model provides an air-out form distribution system of air-out section which characterized in that: the intelligent air outlet device comprises an intelligent air outlet device, an object information acquisition module, a processing module and a storage module;

the storage module is used for storing control information of one or more air outlet forms in advance;

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

the intelligent air outlet equipment is provided with a plurality of movable air outlet grid plates, the plurality of air outlet grid plates are overlapped up and down to form a layered structure, the plurality of air outlet grid plates are divided into a plurality of air outlet sections through horizontal rotation, and the intelligent air outlet equipment combines and arranges the air outlet grid plates contained in the matched air outlet sections into a matched target air outlet form according to matching information.

12. The air outlet form distribution system of the air outlet section according to claim 11, characterized in that: the storage module is further used for storing the mapping relation between the object information and the air outlet form of the air outlet section, and/or the identity information and the use habit data of the object.

13. The air outlet form distribution system of the air outlet section according to claim 11 or 12, characterized in that: the object information acquisition module is used for periodically acquiring object information in the air supply area and sending the object information to the processing module, the processing module is used for periodically identifying the object information in the air supply area, acquiring matching information of the object and the air outlet form of the corresponding air outlet section again, and combining and arranging air outlet grid plates contained in the air outlet section into a new air outlet form.

14. The air outlet form distribution system of the air outlet section according to claim 11 or 12, characterized in that: the device also comprises a receiving module;

15. The air outlet form distribution system of the air outlet section according to claim 12, characterized in that: the storage module is also used for storing a long time threshold value of blowing, the air-out form distribution system further comprises:

16. A computer-readable storage medium characterized by: the computer readable storage medium stores an intelligent air outlet device air outlet section control program, and the intelligent air outlet device air outlet section control program, when executed by the processor, implements the steps of the air outlet form distribution method of the air outlet section according to any one of claims 1 to 10.