CN104456825A

CN104456825A - Air supply control method and device for air conditioning area

Info

Publication number: CN104456825A
Application number: CN201310430992.7A
Authority: CN
Inventors: 梁俊杰; 陈波; 庄嵘; 魏晓磊; 尹东; 朱守朝
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2013-09-18
Filing date: 2013-09-18
Publication date: 2015-03-25
Anticipated expiration: 2033-09-18
Also published as: CN104456825B

Abstract

The invention discloses an air-conditioning regional air supply control method and device, wherein the air-conditioning regional air supply control method comprises the following steps: acquiring air supply area position information, wherein the air supply area position information is used for representing the position of an air supply area; calculating the angle range of an air deflector of the air conditioner corresponding to the air supply area according to the position information of the air supply area; and controlling the air deflector to supply air according to the angle range. By the method, the air supply operation of the air conditioning area can be simple.

Description

Air conditioning area air blowing control method and apparatus

Technical field

The present invention relates to field of air conditioning, in particular to a kind of air conditioning area air blowing control method and apparatus.

Background technology

For traditional air conditioner, if will realize, to specific region air-supply, needing remote manual control to regulate upper and lower wind deflector and wind deflector position, left and right.But remote manual control regulates inaccurate, sometimes also needs repeatedly to regulate back and forth and just can reach more satisfactory effect, operates more loaded down with trivial details.

For the problem that air conditioning area pushing wind manipulation in prior art is more loaded down with trivial details, at present effective solution is not yet proposed.

Summary of the invention

Main purpose of the present invention is to provide a kind of air conditioning area air blowing control method, to solve the more loaded down with trivial details problem of air conditioning area pushing wind manipulation.

To achieve these goals, according to an aspect of the present invention, a kind of air conditioning area air blowing control method is provided.Air conditioning area air blowing control method according to the present invention comprises: obtain blow zones location information domain, and wherein, blow zones location information domain is the information for characterizing air-supply regional location; The angular range of wind deflector corresponding to air-supply region of air-conditioning is calculated according to blow zones location information domain; And control wind deflector is blown according to angular range.

Further, obtain blow zones location information domain to comprise: the blow zones location information domain obtaining user's input; Obtain the installation site information of air-conditioning and the dimension information in room, air-conditioning place, wherein, the installation site information of air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, air-conditioning place is the information of the size for characterizing room, air-conditioning place; And determine actual blow zones location information domain according to the blow zones location information domain of the dimension information in the installation site information of air-conditioning, room, air-conditioning place, Human Height information and user's input.

Further, obtain blow zones location information domain to comprise: obtain the installation site information of air-conditioning and the dimension information in room, air-conditioning place, the installation site information of air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, air-conditioning place is the information for characterizing air-conditioning place room-sized; And determine blow zones location information domain by the installation site information of air-conditioning and both dimension informations in room, air-conditioning place.

Further, obtain blow zones location information domain to comprise: obtain physical activity positional information, physical activity positional information is the information for characterizing physical activity position; And determine blow zones location information domain according to physical activity positional information.

Further, obtain physical activity positional information to comprise: obtain human body horizontal anomalous movement positional information and Human Height information; Determine that blow zones location information domain comprises according to physical activity positional information: determine that left and right wind deflector corresponds to the range of operation of air-supply regional location according to human body horizontal anomalous movement positional information, determine that upper and lower wind deflector corresponds to the range of operation of air-supply regional location according to Human Height information.

Further, the angular range corresponding to air-supply region according to the wind deflector of blow zones location information domain calculating air-conditioning comprises: the distance x=(j-0.5 obtaining X-direction between human body and air-conditioning) * L/m, wherein, L is air-conditioning place wall and the distance to sidewalls, room is divided into m region, human body is in the jth region in m region; Obtain Human Height c; And the wind direction scope a=arctan [x/ (y-c)] of upper and lower wind deflector is obtained according to distance x and Human Height c, y is the vertical height on air-conditioning and ground.

Further, the angular range of upper and lower wind deflector comprises and blows wind deflector angular range A1 to people and forbid blowing people's wind deflector angle A 2, A1 ∈ (a-b, a+d), A2 ∈ (0, a-b) U (a+d, 90); Wherein a, d are correction value.

Further, the method also comprises: the wall at air-conditioning place is divided into n region; Obtain the installation region i of air-conditioning, wherein, air-conditioning is in i-th region in n region; If n is odd number, then obtaining H is if n is even number, then obtaining H is if air-conditioning is arranged on center-left position, calculate left and right wind deflector angle e=[1+ (i-1)/H] * 90 according to installation region i and H of air-conditioning; Then left and right wind deflector angular range be E ∈ (0, e); If air-conditioning is arranged on center-right position, calculate left and right wind deflector angle e=[1-(n-i)/H] * 90 according to the installation site area information n of air-conditioning, the installation site information i of air-conditioning and H; Then left and right wind deflector angular range be E ∈ (0, e); If air-conditioning is arranged on centre position, then wind deflector angular range in left and right is E ∈ (0,180).

Further, the method also comprises: receive and adopt wifi mode region air blowing function start signal, and after reception start signal, opens region air blowing function; And receive employing wifi mode region air blowing function shutdown signal, and after reception shutdown signal, close closed region air blowing function.

To achieve these goals, according to a further aspect in the invention, a kind of air conditioning area controller for blasting is provided.

Air conditioning area controller for blasting according to the present invention comprises: acquiring unit, and for obtaining blow zones location information domain, wherein, blow zones location information domain is the information for characterizing air-supply regional location; Computing unit, the wind deflector for calculating air-conditioning according to blow zones location information domain corresponds to the angular range in air-supply region; And control unit, blow according to angular range for controlling wind deflector.

Further, acquiring unit comprises: the first acquisition module, for obtaining the blow zones location information domain of user's input; Second acquisition module, for the dimension information of the installation site information and room, air-conditioning place that obtain air-conditioning, wherein, the installation site information of air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, air-conditioning place is the information of the size for characterizing room, air-conditioning place; And first determination module, the blow zones location information domain for the dimension information in the installation site information according to air-conditioning, room, air-conditioning place, Human Height information and user's input determines actual blow zones location information domain.

Further, acquiring unit comprises: the second acquisition module, for the dimension information of the installation site information and room, air-conditioning place that obtain air-conditioning, the installation site information of air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, air-conditioning place is the information for characterizing air-conditioning place room-sized; And second determination module, for determining blow zones location information domain by the installation site information of air-conditioning and both dimension informations in room, air-conditioning place.

Further, acquiring unit comprises: the 3rd acquisition module, and for obtaining physical activity positional information, wherein, physical activity positional information is the information for characterizing physical activity position; And the 3rd determination module, for determining blow zones location information domain according to physical activity positional information.

Further, the 3rd acquisition module obtains human body horizontal anomalous movement positional information and Human Height information; According to human body horizontal anomalous movement positional information, 3rd determination module determines that left and right wind deflector corresponds to the range of operation of air-supply regional location, determine that upper and lower wind deflector corresponds to the range of operation of air-supply regional location according to Human Height information.

Further, wind deflector comprises upper and lower wind deflector, computing unit obtains the angular range of upper and lower wind deflector in the following manner: the distance x=(j-0.5 obtaining X-direction between human body and air-conditioning) * L/m, wherein, L is air-conditioning place wall and the distance to sidewalls, room is divided into m region, human body is in the jth region in m region; Obtain Human Height c; And the wind direction scope a=arctan [x/ (y-c)] of upper and lower wind deflector is obtained according to distance x and Human Height c, y is the vertical height on air-conditioning and ground.

Further, wind deflector comprises left and right wind deflector, and computing unit obtains the angular range of left and right wind deflector in the following manner: the wall at air-conditioning place is divided into n region; Obtain the installation region i of air-conditioning, wherein, air-conditioning is in i-th region in n region; If n is odd number, then obtaining H is if n is even number, then obtaining H is if air-conditioning is arranged on center-left position, calculate left and right wind deflector angle e=[1+ (i-1)/H] * 90 according to installation region i and H of air-conditioning; Then left and right wind deflector angular range be E ∈ (0, e); If air-conditioning is arranged on center-right position; left and right wind deflector angle e=[1-(n-i)/H] * 90 is calculated according to the installation site area information n of air-conditioning, the installation site information i of air-conditioning and H; then left and right wind deflector angular range be E ∈ (0, e); If air-conditioning is arranged on centre position, then wind deflector angular range in left and right is E ∈ (0,180).

Further, this device also comprises: open unit, for adopting wifi mode receiving area air blowing function start signal, and after reception start signal, opens region air blowing function; And closing unit, for adopting wifi mode receiving area air blowing function shutdown signal, and after reception shutdown signal, close closed region air blowing function.

By the present invention, adopt and automatically regulate air conditioner air deflector, solve the problem that air conditioning area pushing wind manipulation is more loaded down with trivial details, and then reach the simple effect of air conditioning area pushing wind manipulation.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of air conditioning area controller for blasting according to a first embodiment of the present invention;

Fig. 2 is the schematic diagram of air conditioning area controller for blasting according to a second embodiment of the present invention;

Fig. 3 is the physical activity areal map according to the embodiment of the present invention;

Fig. 4 is the schematic diagram of air conditioning area controller for blasting according to a third embodiment of the present invention;

Fig. 5 is the schematic diagram of air conditioning area controller for blasting according to a fourth embodiment of the present invention;

Fig. 6 is air-conditioning according to the embodiment of the present invention and human body relative position schematic diagram;

Fig. 7 is air-conditioning installation site i according to the embodiment of the present invention and left and right wind deflector angle schematic diagram;

Fig. 8 is the schematic diagram of air conditioning area controller for blasting according to a fifth embodiment of the present invention;

Fig. 9 is the flow chart of air conditioning area air blowing control method according to a first embodiment of the present invention;

Figure 10 is the flow chart of air conditioning area air blowing control method according to a second embodiment of the present invention;

Figure 11 is the flow chart of air conditioning area air blowing control method according to a third embodiment of the present invention; And

Figure 12 is the flow chart of air conditioning area air blowing control method according to a fourth embodiment of the present invention.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

It should be noted that, term " first ", " second " etc. in description of the present invention and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged in the appropriate case, so as embodiments of the invention described herein such as can with except here diagram or describe those except order implement.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

Fig. 1 is the schematic diagram of air conditioning area controller for blasting according to a first embodiment of the present invention.As shown in Figure 1, this air conditioning area controller for blasting comprises: acquiring unit 10, computing unit 20 and control unit 30.

Acquiring unit 10 is for obtaining blow zones location information domain, and wherein, blow zones location information domain is the information for characterizing air-supply regional location.

The information of air-supply regional location can be the information of the regional location of physical activity, also can the information of regional location beyond physical activity region.When the blow zones location information domain got is the information of the regional location of physical activity, blow in the region of air-conditioning to physical activity, and namely air-conditioning is facing to human body blowing, meanwhile, also can control air-conditioning and not blow people.

Computing unit 20 corresponds to the angular range in air-supply region for the wind deflector calculating air-conditioning according to blow zones location information domain.

The wind deflector of air-conditioning comprises upper and lower wind deflector and left and right wind deflector, and upper and lower wind deflector is for regulating air-conditioning wind direction in vertical direction, and its angular range, for being greater than 0 degree, is less than 180 degree.Left and right wind deflector is for regulating air-conditioning wind direction in the horizontal direction, and its angular range, for being greater than 0 degree, is less than 180 degree.

After the location information domain of acquisition blow zones, calculate the wind direction scope of air conditioner air deflector according to the blow zones location information domain got.

Control unit 30 is blown according to angular range for controlling wind deflector.After the wind direction scope calculating wind deflector, control unit 30 controls wind deflector according to the wind direction scope calculated to the air-supply of air-supply region.Control unit 30 can control upper and lower wind deflector, can also control left and right wind deflector.By control left and right wind deflector and upper and lower wind deflector, blown in air-supply region.

Fig. 2 is the schematic diagram of air conditioning area controller for blasting according to a second embodiment of the present invention.The controller for blasting of air conditioning area shown in Fig. 2 can as a kind of preferred embodiment of the air conditioning area controller for blasting shown in Fig. 1.As shown in Figure 2, this air conditioning area controller for blasting comprises: acquiring unit 10, computing unit 20 and control unit 30, and wherein, acquiring unit 10 comprises the first acquisition module 101, second acquisition module 102 and the first determination module 103.

First acquisition module 101 is for obtaining the blow zones location information domain of user's input.Blow zones location information domain can be obtained by user's input.The room at air-conditioning place can be divided into m region, each region after division can as physical activity scope, as shown in Figure 3.The scope of activities of human body can be A1 to Am.Such as, the zone of action of human body is Aj, then Aj is inputed to air-conditioning, and air-conditioning is blown to physical activity region Aj, or blows to the region beyond the Aj of physical activity region.The mode in input air-supply region can be arranged by air-conditioning remote control, also can be arranged by the mobile terminal such as mobile phone, flat board, air-conditioning remote control can by wireless or to be infraredly connected with air-conditioning, and the mobile terminal such as mobile phone, flat board can be connected with air-conditioning by wifi.

Second acquisition module 102 is for the dimension information of the installation site information and room, air-conditioning place that obtain air-conditioning, wherein, the installation site information of air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, air-conditioning place is the information of the size for characterizing room, air-conditioning place.

The installation site information of the air-conditioning that the second acquisition module 102 obtains can be air-conditioning vertical height overhead, also can be the horizontal position information of air-conditioning, wherein, the horizontal position information of air-conditioning is for representing the side to the left, centre position of air-conditioning place wall or side to the right, the wall that air-conditioning is installed can be divided into n region, in the horizontal direction according to the horizontal level of n region decision air-conditioning.The dimension information in room, air-conditioning place can be the height in the length in room, the width in room and room.Can also be

First determination module 103 determines actual blow zones location information domain for the dimension information in the installation site information according to air-conditioning, room, air-conditioning place and the blow zones location information domain of user's input.

After the blow zones location information domain that the acquisition installation site information of air-conditioning, the dimension information in room, air-conditioning place and user input, determining that the zone position information of actual air-supply can be the zone position information determining to blow to physical activity region, also can be the zone position information of blowing to non-human zone of action.

Such as: the air-supply region behaviour body moving position Aj=A3 of user's input, assuming that house is along air-conditioning frontal overall length L=4m, assuming that air-conditioning setting height(from bottom) y=2.5m, by whole room demarcation interval Am=A5, after the air-supply region behaviour body moving position Aj=A3 of user's input, calculate air-conditioning from people's horizontal X direction distance x=(j-0.5) * L/m=2.5*4/5=2m.According to the information in air-conditioning setting height(from bottom), physical activity region and the information along air-conditioning frontal overall length in room, air-conditioning place, the positional information in air-conditioning actual air-supply region can be obtained.

Fig. 4 is the schematic diagram of air conditioning area controller for blasting according to a third embodiment of the present invention.The controller for blasting of air conditioning area shown in Fig. 4 can as a kind of preferred embodiment of the air conditioning area controller for blasting shown in Fig. 1.As shown in Figure 4, this air conditioning area controller for blasting comprises acquiring unit 10, computing unit 20 and control unit 30, and wherein, acquisition module comprises the second acquisition module 102 and the second determination module 104.

Second acquisition module 102 is for the dimension information of the installation site information and room, air-conditioning place that obtain air-conditioning, the installation site information of air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, air-conditioning place is the information for characterizing air-conditioning place room-sized.

The installation site information of air-conditioning can be the vertical range on air-conditioning distance ground, also can be the horizontal range of air-conditioning distance body of wall.The dimension information in room, air-conditioning place can be that room is along air-conditioning frontal overall length.

Second determination module 104 is for determining blow zones location information domain by the installation site information of air-conditioning and both dimension informations in room, air-conditioning place.

Second determination module 104 can determine blow zones location information domain according to the dimension information in the installation site information of air-conditioning and room, air-conditioning place.The blow zones location information domain determined can be that upper and lower wind deflector is being greater than 0 degree, and being less than the positional information in the interior corresponding region of scope of 180 degree, can also be that left and right wind deflector is being greater than 0 degree, is less than the positional information in the interior corresponding region of scope of 180 degree.

Fig. 5 is the schematic diagram of air conditioning area controller for blasting according to a fourth embodiment of the present invention.The controller for blasting of air conditioning area shown in Fig. 5 can as a kind of preferred embodiment of the air conditioning area controller for blasting shown in Fig. 1.As shown in Figure 5, this air conditioning area controller for blasting comprises: acquiring unit 10, computing unit 20 and control unit 30, and wherein, acquiring unit 10 comprises: the 3rd acquisition module 105 and the 3rd determination module 106.

3rd acquisition module 105 is for obtaining physical activity positional information, and this physical activity positional information is the information for characterizing physical activity position.3rd acquisition module 105 obtains human body horizontal anomalous movement positional information and Human Height information.3rd acquisition module 105 can obtain the horizontal range information of human body distance air-conditioning, and can obtain the scope of the horizontal range of physical activity, wherein, the scope of horizontal range can be the distance range of any direction activity on horizontal plane.3rd acquisition module 105 can also obtain Human Height information, and wherein, the scope of Human Height is between 0cm to 180cm.

3rd determination module 106 is for determining blow zones location information domain according to physical activity positional information.According to the installation site information of air-conditioning, 3rd determination module 106 determines that left and right wind deflector corresponds to the range of operation of air-supply regional location, determine that upper and lower wind deflector corresponds to the range of operation of air-supply regional location according to Human Height information.When air-conditioning blows people, the 3rd determination module 106 determines the range of operation of the air-supply regional location that left and right wind deflector is corresponding according to human body horizontal anomalous movement positional information, and this range of operation can be the scope of human body horizontal anomalous movement; When air-conditioning does not blow people, the 3rd determination module 106 determines the range of operation of the air-supply regional location that left and right wind deflector is corresponding according to human body horizontal anomalous movement positional information, and this range of operation can be the scope beyond human body horizontal anomalous movement.Upper and lower wind deflector is determined according to Human Height information, can be determine according to Human Height information the air-supply regional location that upper and lower wind deflector is corresponding, the scope that the air-supply regional location that this upper and lower wind deflector is corresponding is corresponding is the scope of physical activity, also can be non-physical activity scope, can also be blow to head zone, also can be blow to foot areas.

According to Human Height information, 3rd determination module 106 determines that upper and lower wind deflector comprises corresponding to the range of operation of air-supply regional location: when air-conditioning heating, and upper and lower wind deflector corresponds to the range of operation of air-supply regional location for being greater than 0 degree, is less than 45 degree; When air conditioner refrigerating, upper and lower wind deflector corresponds to the range of operation of air-supply regional location for being greater than 45 degree, is less than 90 degree.

Because hot-air upwards flows, therefore when air-conditioning heating, the position, air-supply region that upper and lower wind deflector is corresponding is near the region on ground in room, and the range of operation of upper and lower wind deflector is less than 45 degree being greater than 0 degree; Because cold air sinks, therefore when air conditioner refrigerating, the position, air-supply region that upper and lower wind deflector is corresponding to be in the region on close ground in the room in, and the range of operation of upper and lower wind deflector is less than 90 degree being greater than 45 degree.By to the regulation and control of air conditioner refrigerating with the wind direction heated, can the effect well freezed or heat reached, and economize energy.

Fig. 6 is air-conditioning according to the embodiment of the present invention and human body relative position schematic diagram.

As shown in Figure 6, in figure, 1 is the position at human body place, 2 positions of installing for air-conditioning in figure, according to human body horizontal anomalous movement positional information and air-conditioning installation site information, can obtain and upper and lower wind deflector operation angle a reference value a=arctan [x/ (y-c)]=arctan2/ (2.5-0.8)=arctan1.18 ≈ 50 ° is blown to people, wherein, x is the horizontal range in X-direction between human body and air-conditioning, y is the height that air-conditioning is installed, c is the height of human body, and a is the operation angle a reference value to the wind deflector up and down that head part blows.Can x=(j-0.5 be expressed as in the horizontal range of X-direction between human body and air-conditioning) * L/m, wherein, L is described air-conditioning place wall and the distance to sidewalls, room is divided into m region, and human body is in the jth region in m region, as shown in Figure 3.After obtaining upper and lower wind deflector operation angle a reference value, can revise upper and lower wind deflector operation angle a reference value.Assuming that getting correction value is b=15 degree, d=10 degree, wherein, correction value b can be the wind direction of the upper and lower wind deflector of the corresponding air-conditioning of human height, it can be the region air-supply from human foot to head, correction value d can be the wind direction of the upper and lower wind deflector of the corresponding air-conditioning of human height, and its air-supply can be blown from human body head region upwards.According to foregoing, blowing wind deflector angle to people is A1 ∈ (a-b, a+d), namely A1 ∈ (35,60); Forbid that blowing people's wind deflector angle is A2 ∈ (0, a-b) U (a+d, 90), namely A2 ∈ (0,35) U(60,90).Preferably, in the present invention, the span of b can be the span of 0<b<45, d can be 0<d<45.

What can know from this embodiment is, air-conditioning is when blowing people, upper and lower wind deflector operation angle a reference value is 50 degree, the region that air-conditioning is directly dried is human body head zone, after revising, the angle of blowing people can be 35 degree to 60 degree, can be 0 degree to 35 degree and 60 degree to 90 degree to the wind direction of non-human zone of action.By above-mentioned correction and adjustment, air-supply region can be made more accurate, the more healthy and hommization of air supply mode.

Fig. 7 is air-conditioning installation site i according to the embodiment of the present invention and left and right wind deflector angle schematic diagram.

As shown in the figure, the wall installed an air-conditioner is divided into n region, when n is odd number, (wherein, bracket [] representative rounds); When n is even number, wherein, H can be used for representing the region of centre in n the region divided.Such as: when n is odd number, get n=7, then (rounding numerical digit).If air-conditioning is arranged on the center-left position i in n region of division, i=2, calculate left and right wind deflector angle e=[1+ (i-1)/H] * 90=120 °, then left and right wind deflector wind direction scope is E ∈ (0, e) → E ∈ (0,120); If air-conditioning is arranged on the center-right position in n region of division, get i=6, left and right wind deflector angle e=[1-(n-i)/H] * 90=240 °, then wind deflector angular range in left and right is E ∈ (0, e) → E ∈ (0,240).

When n is even number, get n=6, then if air-conditioning is arranged on the center-left position in n region of division, i=2, left and right wind deflector angle e=[1+ (i-1)/H] * 90=135 °, then wind deflector angular range in left and right is E ∈ (0, e) → E ∈ (0,135).If air-conditioning is arranged on the center-right position in n region of division, i=5, left and right wind deflector angle e=[1-(n-i)/H] * 90=45 °, then wind deflector angular range in left and right is E ∈ (0, e) → E ∈ (0,45).

By the adjustment to left and right wind deflector angle, air-conditioning region can not only be made more accurate, and energy waste air-conditioning can avoided to blow wall and cause.

Fig. 8 is the schematic diagram of air conditioning area controller for blasting according to a fifth embodiment of the present invention.The controller for blasting of air conditioning area shown in Fig. 8 can as a kind of preferred embodiment of the air conditioning area controller for blasting shown in Fig. 1.As shown in Figure 8, this air conditioning area controller for blasting comprises: acquiring unit 10, computing unit 20, control unit 30, unlatching unit 40 and closing unit 50.

Open unit 40 for adopting wifi mode receiving area air blowing function start signal, and after the air blowing function start signal of receiving area, open region air blowing function., presumptive area is blown.Predetermined air-supply region can be the region of people's activity, also can be non-physical activity region.

Closing unit 50 for adopting wifi mode receiving area air blowing function shutdown signal, and after the air blowing function shutdown signal of receiving area, closes closed region air blowing function.

The embodiment of the present invention additionally provides a kind of air conditioning area air blowing control method.This air conditioning area air blowing control method may operate on air-conditioning.It should be noted that, the air conditioning area controller for blasting that the air conditioning area air blowing control method of the embodiment of the present invention can be provided by the embodiment of the present invention performs, and the air conditioning area controller for blasting of the embodiment of the present invention also may be used for performing the air conditioning area air blowing control method that the embodiment of the present invention provides.

Fig. 9 is the flow chart of air conditioning area air blowing control method according to a first embodiment of the present invention.As shown in the figure, the method comprises the steps:

Step S101, obtains blow zones location information domain, and wherein, blow zones location information domain is the information for characterizing air-supply regional location.

The information of air-supply regional location can be the information of the regional location of physical activity, also can the information of regional location beyond physical activity region.When the blow zones location information domain got is the information of the regional location of physical activity, blow in the region of air-conditioning to physical activity, namely facing to human body blowing; When the blow zones location information domain got is the information of the regional location beyond physical activity region, air-conditioning is blown to the region beyond the region of physical activity, namely not facing human body blowing.

Step S102, calculates the angular range of wind deflector corresponding to air-supply region of air-conditioning according to blow zones location information domain.

Step S103, controls wind deflector and blows according to angular range.After the wind direction scope calculating wind deflector, control wind deflector according to the wind direction scope calculated to the air-supply of air-supply region.Controlling wind deflector can be control upper and lower wind deflector, can also be control left and right wind deflector.By control left and right wind deflector and upper and lower wind deflector, blown in air-supply region.

Figure 10 is the flow chart of air conditioning area air blowing control method according to a second embodiment of the present invention.Air conditioning area air blowing control method shown in Figure 10 can as the preferred embodiment of the air conditioning area air blowing control method shown in Fig. 9.As shown in the figure, the method comprises the steps:

Step S201, obtains the blow zones location information domain of user's input.

Blow zones location information domain can be inputted by user.The room at air-conditioning place can be divided into m region, shown in the administrative division map 3 after division.The scope of activities of human body can be A1 to Am.Such as, the zone of action of human body is Aj, then Aj is inputed to air-conditioning, and air-conditioning is blown to physical activity region Aj, or blows to the region beyond the Aj of physical activity region.The mode in input air-supply region can be arranged by air-conditioning remote control, also can be arranged by the mobile terminal such as mobile phone, flat board, air-conditioning remote control can by wireless or to be infraredly connected with air-conditioning, and the mobile terminal such as mobile phone, flat board can be connected with air-conditioning by wifi.

Step S202, obtain the installation site information of air-conditioning and the dimension information in room, air-conditioning place, wherein, the installation site information of air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, air-conditioning place is the information of the size for characterizing room, air-conditioning place.

The installation site information of the air-conditioning obtained can be air-conditioning vertical height overhead, and also can be the horizontal position information of air-conditioning, wherein, the horizontal position information of air-conditioning can be the horizontal range of air-conditioning installation site from wall.The dimension information in room, air-conditioning place can be the height in the length in room, the width in room and room.

Step S203, determines actual blow zones location information domain according to the blow zones location information domain that the installation site information of air-conditioning, the dimension information in room, air-conditioning place and user input.

Step S204, calculates the angular range of wind deflector corresponding to air-supply region of air-conditioning according to blow zones location information domain.

The wind deflector of air-conditioning comprises upper and lower wind deflector and left and right wind deflector, and upper and lower wind deflector is for regulating air-conditioning wind direction in vertical direction, and its angular range, for being greater than 0 degree, is less than 90 degree.Left and right wind deflector is for regulating air-conditioning wind direction in the horizontal direction, and its angular range, for being greater than 0 degree, is less than 180 degree.

Step S205, controls wind deflector and blows according to angular range.After the wind direction scope calculating wind deflector, control wind deflector according to the wind direction scope calculated to the air-supply of air-supply region.Controlling wind deflector can be control upper and lower wind deflector, can also be control left and right wind deflector.By control left and right wind deflector and upper and lower wind deflector, blown in air-supply region.

Figure 11 is the flow chart of air conditioning area air blowing control method according to a third embodiment of the present invention.Air conditioning area air blowing control method shown in Figure 11 can as the preferred embodiment of the air conditioning area air blowing control method shown in Fig. 9.As shown in the figure, the method comprises the steps:

Step S301, obtain the installation site information of air-conditioning and the dimension information in room, air-conditioning place, the installation site information of air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, air-conditioning place is the information for characterizing air-conditioning place room-sized.

Step S302, determines blow zones location information domain by the installation site information of air-conditioning and both dimension informations in room, air-conditioning place.

Blow zones location information domain can be determined according to the dimension information in the installation site information of air-conditioning and room, air-conditioning place.The blow zones location information domain determined can be that upper and lower wind deflector is being greater than 0 degree, and being less than the positional information in the interior corresponding region of scope of 180 degree, can also be that left and right wind deflector is being greater than 0 degree, is less than the positional information in the interior corresponding region of scope of 180 degree.

Step S303, calculates the angular range of wind deflector corresponding to air-supply region of air-conditioning according to blow zones location information domain.

Step S304, controls wind deflector and blows according to angular range.After the wind direction scope calculating wind deflector, control wind deflector according to the wind direction scope calculated to the air-supply of air-supply region.Controlling wind deflector can be control upper and lower wind deflector, can also be control left and right wind deflector.By control left and right wind deflector and upper and lower wind deflector, blown in air-supply region.

Figure 12 is the flow chart of air conditioning area air blowing control method according to a fourth embodiment of the present invention.Air conditioning area air blowing control method shown in Figure 12 can as the preferred embodiment of the air conditioning area air blowing control method shown in Fig. 9.As shown in the figure, the method comprises the steps:

Step S401, obtains physical activity positional information, for characterizing the information of physical activity position.Obtain physical activity positional information to comprise: obtain human body horizontal anomalous movement positional information and Human Height information, the horizontal range information of human body distance air-conditioning can be obtained, the scope of the horizontal range of physical activity can be obtained, wherein, the scope of horizontal range can be the distance range of any direction activity on horizontal plane.Obtain in Human Height information, the scope of Human Height is between 0cm to 180cm.

Step S402, determines blow zones location information domain according to physical activity positional information.Determine that blow zones location information domain comprises according to physical activity positional information: determine that left and right wind deflector corresponds to the range of operation of air-supply regional location according to human body horizontal anomalous movement positional information, determine that upper and lower wind deflector corresponds to the range of operation of air-supply regional location according to Human Height information.

When air-conditioning blows people, determine the range of operation of the air-supply regional location that left and right wind deflector is corresponding according to human body horizontal anomalous movement positional information, this range of operation can be the scope of human body horizontal anomalous movement; When air-conditioning does not blow people, the 3rd determination module determines the range of operation of the air-supply regional location that left and right wind deflector is corresponding according to human body horizontal anomalous movement positional information, and this range of operation can be the scope beyond human body horizontal anomalous movement.Upper and lower wind deflector is determined according to Human Height information, can be determine according to Human Height information the air-supply regional location that upper and lower wind deflector is corresponding, the scope that this air-supply regional location is corresponding is the scope of physical activity, also can be non-physical activity scope, can also be blow to head zone, also can be blow to foot areas.

Determine that blow zones location information domain comprises according to physical activity positional information: when air-conditioning heating, upper and lower wind deflector corresponds to the range of operation of air-supply regional location for being greater than 0 degree, is less than 45 degree; When air conditioner refrigerating, upper and lower wind deflector corresponds to the range of operation of air-supply regional location for being greater than 45 degree, is less than 90 degree.

S403 in step in this embodiment is identical with the method for step S103 with the step S102 in the air conditioning area air blowing control method shown in S404 and Fig. 9, does not repeat at this.

According to the embodiment of the present invention, the control method of this air conditioning area air-supply also comprises: after reception adopts wifi mode region air blowing function start signal, and region air blowing function opened by air-conditioning, blows to presumptive area.Predetermined air-supply region can be the region of physical activity, also can be non-physical activity region.After reception adopts wifi mode region air blowing function shutdown signal, air-conditioning closes closed region air blowing function.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. an air conditioning area air blowing control method, is characterized in that, comprising:

Obtain blow zones location information domain, wherein, described blow zones location information domain is the information for characterizing air-supply regional location;

The angular range of wind deflector corresponding to described air-supply region of air-conditioning is calculated according to described blow zones location information domain; And

Control described wind deflector to blow according to described angular range.

2. air conditioning area air blowing control method according to claim 1, is characterized in that, obtains blow zones location information domain and comprises:

Obtain the blow zones location information domain of user's input;

Obtain the installation site information of described air-conditioning and the dimension information in room, described air-conditioning place, wherein, the installation site information of described air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, described air-conditioning place is the information of the size for characterizing room, described air-conditioning place; And

Blow zones location information domain according to the dimension information in the installation site information of described air-conditioning, room, described air-conditioning place, Human Height information and described user input determines actual blow zones location information domain.

3. air conditioning area air blowing control method according to claim 1, is characterized in that, obtains blow zones location information domain and comprises:

Obtain the installation site information of described air-conditioning and the dimension information in room, described air-conditioning place, the installation site information of described air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, described air-conditioning place is the information for characterizing described air-conditioning place room-sized; And

Blow zones location information domain is determined by the installation site information of described air-conditioning and both dimension informations in room, described air-conditioning place.

4. air conditioning area air blowing control method according to claim 1, is characterized in that, obtains blow zones location information domain and comprises:

Obtain physical activity positional information, described physical activity positional information is the information for characterizing physical activity position; And

Blow zones location information domain is determined according to physical activity positional information.

5. air conditioning area air blowing control method according to claim 4, is characterized in that,

Obtain physical activity positional information to comprise: obtain human body horizontal anomalous movement positional information and Human Height information;

Determine that blow zones location information domain comprises according to physical activity positional information: determine that left and right wind deflector corresponds to the range of operation of described air-supply regional location according to human body horizontal anomalous movement positional information, determine that upper and lower wind deflector corresponds to the range of operation of described air-supply regional location according to Human Height information.

6. air conditioning area air blowing control method according to claim 1, it is characterized in that, the angular range in described air-supply region comprises the angular range of upper and lower wind deflector, and the angular range corresponding to described air-supply region according to the wind deflector of described blow zones location information domain calculating air-conditioning comprises:

Obtain the distance x=(j-0.5 of X-direction between human body and described air-conditioning) * L/m, wherein, L is described air-conditioning place wall and the distance to sidewalls, room is divided into m region, and described human body is in the jth region in a described m region;

Obtain Human Height c; And

Obtain the wind direction scope a=arctan [x/ (y-c)] of upper and lower wind deflector according to described distance x and described Human Height c, y is the vertical height on described air-conditioning and ground.

7. air conditioning area air blowing control method according to claim 6, it is characterized in that, the angular range of described upper and lower wind deflector comprises and blows wind deflector angular range A1 to people and forbid blowing people's wind deflector angle A 2, described A1 ∈ (a-b, a+d), A2 ∈ (0, a-b) U (a+d, 90); Wherein said a, d are correction value.

8. air conditioning area air blowing control method according to claim 1, it is characterized in that, the angular range in described air-supply region comprises the angular range of left and right wind deflector, and the angular range corresponding to described air-supply region according to the wind deflector of described blow zones location information domain calculating air-conditioning comprises:

The wall at described air-conditioning place is divided into n region;

Obtain the installation region i of described air-conditioning, wherein, described air-conditioning is in i-th region in a described n region;

If described n is odd number, then obtain

If described n is even number, then obtain

If air-conditioning is arranged on center-left position, calculate left and right wind deflector angle e=[1+ (i-1)/H] * 90 according to the installation region i of described air-conditioning and described H; Then left and right wind deflector angular range be E ∈ (0, e);

If air-conditioning is arranged on center-right position, calculate left and right wind deflector angle e=[1-(n-i)/H] * 90 according to the installation site information i of the installation site area information n of described air-conditioning, described air-conditioning and described H; Then wind deflector angular range in left and right is E ∈ (e, 180);

If air-conditioning is arranged on centre position, then wind deflector angular range in left and right is E ∈ (0,180).

9. air conditioning area air blowing control method according to claim 1, it is characterized in that, described method also comprises:

Receive and adopt wifi mode region air blowing function start signal, and after the described start signal of reception, open region air blowing function; And

Receive and adopt wifi mode region air blowing function shutdown signal, and after the described shutdown signal of reception, close closed region air blowing function.

10. an air conditioning area controller for blasting, is characterized in that, comprising:

Acquiring unit, for obtaining blow zones location information domain, wherein, described blow zones location information domain is the information for characterizing air-supply regional location;

Computing unit, the wind deflector for calculating air-conditioning according to described blow zones location information domain corresponds to the angular range in described air-supply region; And

Control unit, blows according to described angular range for controlling described wind deflector.

11. air conditioning area controller for blasting according to claim 10, it is characterized in that, described acquiring unit comprises:

First acquisition module, for obtaining the blow zones location information domain of user's input;

Second acquisition module, for the dimension information of the installation site information and room, described air-conditioning place that obtain described air-conditioning, wherein, the installation site information of described air-conditioning is the information of the installation site for characterizing air-conditioning, and the dimension information in room, described air-conditioning place is the information of the size for characterizing room, described air-conditioning place; And

First determination module, the blow zones location information domain for the dimension information in the installation site information according to described air-conditioning, room, described air-conditioning place, Human Height information and described user input determines actual blow zones location information domain.

12. air conditioning area controller for blasting according to claim 10, it is characterized in that, described acquiring unit comprises:

Second acquisition module, for the dimension information of the installation site information and room, described air-conditioning place that obtain described air-conditioning, the installation site information of described air-conditioning is the information for characterizing air-conditioning installation site, and the dimension information in room, described air-conditioning place is the information for characterizing described air-conditioning place room-sized; And

Second determination module, for determining blow zones location information domain by the installation site information of described air-conditioning and both dimension informations in room, described air-conditioning place.

13. air conditioning area controller for blasting according to claim 10, it is characterized in that, described acquiring unit comprises:

3rd acquisition module, for obtaining physical activity positional information, wherein, described physical activity positional information is the information for characterizing physical activity position; And

3rd determination module, for determining blow zones location information domain according to physical activity positional information.

14. air conditioning area controller for blasting according to claim 13, is characterized in that,

Described 3rd acquisition module obtains human body horizontal anomalous movement positional information and Human Height information;

According to human body horizontal anomalous movement positional information, described 3rd determination module determines that left and right wind deflector corresponds to the range of operation of described air-supply regional location, determine that upper and lower wind deflector corresponds to the range of operation of described air-supply regional location according to Human Height information.

15. air conditioning area controller for blasting according to claim 10, it is characterized in that, described wind deflector comprises upper and lower wind deflector, and described computing unit obtains the angular range of described upper and lower wind deflector in the following manner:

Obtain Human Height c; And

16. air conditioning area controller for blasting according to claim 15, it is characterized in that, the angular range of described upper and lower wind deflector comprises and blows wind deflector angular range A1 to people and forbid blowing people's wind deflector angle A 2, described A1 ∈ (a-b, a+d), A2 ∈ (0, a-b) U (a+d, 90); Wherein said a, d are correction value.

17. air conditioning area controller for blasting according to claim 10, it is characterized in that, described wind deflector comprises left and right wind deflector, and described computing unit obtains the angular range of described left and right wind deflector in the following manner:

The wall at described air-conditioning place is divided into n region;

If described n is odd number, then obtain

If described n is even number, then obtain

18. air conditioning area controller for blasting according to claim 10, it is characterized in that, described device also comprises:

Opening unit, for adopting wifi mode receiving area air blowing function start signal, and after the described start signal of reception, opening region air blowing function; And

Closing unit, for adopting wifi mode receiving area air blowing function shutdown signal, and after the described shutdown signal of reception, closes closed region air blowing function.