CN202734147U - Air outlet opening and closing control system of air conditioner - Google Patents

Abstract

The utility model provides a control system that air conditioner air outlet opened and shut, wherein, this system includes: the air outlets are respectively connected with the actuator; the controller is used for sending out a control signal for controlling the opening and closing of the air outlet according to the air supply control condition; the detector is connected with the controller and used for acquiring air supply control conditions and sending the air supply control conditions to the controller; and the actuator is connected with the controller and used for opening or closing the corresponding air outlet according to the control signal. Through the utility model discloses a control system that air conditioner air outlet opened and shut will generate the control signal that the control air outlet opened and shut according to the air supply control condition to open or closed corresponding air outlet according to control signal, adopt opening and shutting of the different air outlets of air supply control condition dynamic control, solved among the prior art because the air conditioner air outlet folk prescription leads to the problem that air supply range is little to the air supply mode, realized the dynamic air supply of air conditioner air outlet.

Description

The control system of air conditioner air outlet folding

Technical field

The utility model relates to control field, in particular to a kind of control system of air conditioner air outlet folding.

Background technology

Existing indoor apparatus of air conditioner generally all is one direction air-supply, and air-supply has the dead angle, and the air outlet of indoor set all is provided in a side of the front lower place of casing, this one direction air-supply, and blowing range is little, so that the wind of air conditioner directly blows to human body, causes human body sensory uncomfortable.The wind deflector of this air outlet setting is generally by the transmission mechanism transmission, and motor speed was realized in main dependence was regulated, and air-conditioning internal machine can only be blown by single direction like this, so that the blowing range of air-conditioning internal machine is less.

For in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, effective solution is not yet proposed at present.

The utility model content

For correlation technique owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, effective solution is not yet proposed at present, for this reason, main purpose of the present utility model is to provide a kind of control system of air conditioner air outlet folding, to address the above problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind of control system of air conditioner air outlet folding, this system comprises: a plurality of air outlets are connected with actuator respectively; Controller is used for sending for the control signal of controlling the air outlet folding according to air-supply controlled condition; Detector is connected with controller, be used for obtaining air-supply controlled condition, and the controlled condition of will blowing sends to controller; Actuator is connected with controller, is used for opening or close corresponding air outlet according to control signal.

Further, detector comprises: timer, be connected with controller, and be used for the running time of record air conditioner.

Further, controller comprises: first processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening any one or a plurality of air outlets.

Further, first processor comprises: the first sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one air outlet; Or second sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any two air outlets; Or the 3rd sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any three air outlets; Or the 4th sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one or a plurality of air outlets.

Further, detector also comprises: temperature sensor/humidity sensor, be connected with controller, and be used for gathering current environmental temperature/humidity.

Further, temperature sensor comprises the first temperature sensor and the second temperature sensor, air conditioner comprises first air outlet adjacent with the first temperature sensor and second air outlet adjacent with the second temperature sensor, controller also comprises: the first calculator, be connected between the first temperature sensor and the 3rd calculator, be used for to each temperature that the first temperature sensor in the section at any time collects calculating of averaging, to obtain the first temperature T 1; The second calculator is connected between the second temperature sensor and the 3rd calculator, is used for to each temperature that the second temperature sensor in the section at any time collects calculating of averaging, to obtain the second temperature T 2; The 3rd calculator is used in the situation that air conditioner is in heating mode, asks difference to calculate △ T to the first temperature T 1 and the second temperature T 2, wherein, and △ T=T1-T2; The second processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in heating mode and △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; The 3rd processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in heating mode and △ T＜0, sends for opening the first air outlet, closes the control signal of the second air outlet; Four-processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in refrigeration mode and △ T〉0, send for opening the first air outlet, close the control signal of the second air outlet; The 5th processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in refrigeration mode and △ T＜0, sends for opening the second air outlet, closes the control signal of the first air outlet.

Further, humidity sensor comprises the first humidity sensor and the second humidity sensor, air conditioner comprises three air outlet adjacent with the first humidity sensor and four air outlet adjacent with the second humidity sensor, controller comprises: the 4th calculator, be connected between the first humidity sensor and the 6th calculator, be used for to each humidity that the first humidity sensor in the section at any time collects calculating of averaging, to obtain the first humidity H1; The 5th calculator is connected between the first humidity sensor and the 6th calculator, is used for to each humidity that the second humidity sensor in the section at any time collects calculating of averaging, to obtain the second humidity H2; The 6th calculator is used for the first humidity H1 and the second humidity H2 are asked poor calculating, obtains △ H, wherein, and △ H=H1-H2; The 6th processor is connected between the 6th calculator and the actuator, be used in the situation that air conditioner is in humidification mode and at △ H 0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet; The 7th processor is connected between the 6th calculator and the actuator, is used for closing the control signal of the 4th air outlet in the situation that air conditioner is in humidification mode and in △ H＜0, send for opening the 3rd air outlet; Eight processor is connected between the 6th calculator and the actuator, be used in the situation that air conditioner is in dehumidification mode and at △ H 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet; The 9th processor is connected between the 6th calculator and the actuator, is used for closing the control signal of the 3rd air outlet in the situation that air conditioner is in humidification mode and in △ H＜0, send for opening the 4th air outlet.

The control system of the air conditioner air outlet folding by the application, to generate the control signal of control air outlet folding according to air-supply controlled condition, and according to the corresponding air outlet of control signal closure or openness, adopt air-supply controlled condition dynamically to control the folding of different air outlets, solved in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, realized the dynamic air supply of air conditioner air outlet, and then enlarged the blowing range of air conditioner room unit, promoted the comfortableness of air-conditioning internal machine blowing feeling.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation according to the control system of the air conditioner air outlet folding of the utility model embodiment;

Fig. 2 is the structural representation according to the air outlet of embodiment shown in Figure 1;

Fig. 3 is the detailed structure schematic diagram according to the air outlet of embodiment shown in Figure 2;

Fig. 4 is the flow chart according to the control method of the air conditioner air outlet folding of the utility model embodiment;

Fig. 5 is the flow chart detailed according to the utility model embodiment shown in Figure 4; And

Fig. 6 is the structural representation according to the control device of the air conditioner air outlet folding of the utility model embodiment.

The specific embodiment

Need to prove, in the situation that do not conflict, embodiment and the feature among the embodiment among the application can make up mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

Fig. 1 is the structural representation according to the control system of the air conditioner air outlet folding of the utility model embodiment.Fig. 2 is the structural representation according to the air outlet of embodiment shown in Figure 1.Fig. 3 is the detailed structure schematic diagram according to the air outlet of embodiment shown in Figure 2.

Such as Fig. 1, Fig. 2 and shown in Figure 3, this system comprises: a plurality of air outlets are connected with actuator respectively; Controller is used for sending for the control signal of controlling the air outlet folding according to air-supply controlled condition; Detector is connected with controller, be used for obtaining air-supply controlled condition, and the controlled condition of will blowing sends to controller; Actuator is connected with controller, is used for opening or close corresponding air outlet according to control signal.

Adopt the control system of air conditioner air outlet folding of the present utility model, by detector is connected with controller, controller sends for the actuator that controls signal to of controlling the air outlet folding according to the air-supply controlled condition of detector acquisition, wherein, air-supply controlled condition can be the running time of air conditioner, the environment temperature of air conditioner or the ambient humidity of air conditioner, and then corresponding air outlet is opened or closed to actuator according to control signal.The control system of the air conditioner air outlet folding by the application, controller is sent to actuator according to the control signal that air-supply controlled condition will generate the folding of control air outlet, actuator is carried out the corresponding air outlet of these control signal closure or openness, adopt air-supply controlled condition dynamically to control the folding of different air outlets, solved in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, realized the dynamic air supply of air conditioner air outlet, and then enlarged the blowing range of air conditioner room unit, promoted the comfortableness of air-conditioning internal machine blowing feeling.

In above-described embodiment of the application, detector can comprise: timer, be connected with controller, and be used for the running time of record air conditioner.Particularly, be in the situation of running time of air conditioner in air-supply controlled condition, open the running time of timer record air conditioner, then be sent to controller this running time.

Above-described embodiment according to the application, controller can comprise: first processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening any one or a plurality of air outlets.Particularly, the first processor of controller is connected between timer and the actuator, first processor obtains the running time of the air conditioner of timer record, generate the control signal of opening one or more air conditioner air outlets according to this running time, then this signal is sent to actuator, actuator is according to this unblanking or close corresponding air outlet, realizing the dynamic control to the folding of the air outlet of air conditioner, thereby dynamically controls the air-out of air outlet.

Wherein, as shown in Figure 3, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid.

Particularly, in above-described embodiment of the present utility model, after being located at the air-conditioning start, air conditioner enters air supply pattern, open timer, the running time of record air conditioner, the moment that air conditioner enters air supply pattern be t1 constantly, after this first processor every predetermined time frequency send a control any one or a plurality of air outlet and open the control signal that other air outlets are closed.For example, it is the t2 moment after 1 △ t time interval, be the t3 moment again after 1 △ t time interval, be the t4 moment again after 1 △ t time interval, again after 1 △ t time interval (in the situation that air outlet is four, per 4 △ t are a cycle period), then, timer is got back to again t1 constantly, and is that the temporal frequency of △ t is sent control signal according to the time interval, and so circulation is gone down.Wherein, △ t can decide according to type and the environment for use of different air conditioners (can draft in the present embodiment temporal frequency and be that 10s～20s), each sends the control signal of control air outlet folding constantly.

In above-described embodiment of the application, first processor can comprise: the first sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one air outlet; Or second sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any two air outlets; Or the 3rd sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any three air outlets; Or the 4th sub-processor, be connected between timer and the actuator, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one or a plurality of air outlets.

Particularly, in the process of carrying out the first sub-processor, t1, t2, t3 and t4 constantly the first sub-processor send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 1:

Table 1

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Close	Open	Close	Close
					t3	Close	Close	Open	Close
t4	Close	Close	Close	Open

As shown in table 1, the first sub-processor can be according to upper → lower → left → right order, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: on → right → lower → left, lower → on → left → right, right → lower → left → first-class.

Particularly, in the process of carrying out the second sub-processor, t1, t2, t3 and t4 constantly the second sub-processor send successively respectively be used to the control signal of opening any two air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 2:

Table 2

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Close	Close
t2	Close	Open	Open	Close
					t3	Close	Close	Open	Open
t4	Open	Close	Close	Open

As shown in table 2, the second sub-processor can be according to the circular order of table 2, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: up and down → about, the sequential combination of upper right → bottom right → bottom left → any two air outlet foldings such as upper left.

Similarly, in the process of carrying out the 3rd sub-processor, t1, t2, t3 and t4 constantly the 3rd sub-processor send successively respectively be used to the control signal of opening any three air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 3:

Table 3

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Close
t2	Close	Open	Open	Open
					t3	Open	Close	Open	Open
t4	Open	Open	Close	Open

As shown in table 3, the second sub-processor can be according to the circular order of table 3, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: the sequential combination of any three air door foldings such as upper lower-left → lower upper right, the upper left right side → bottom right is left.

According to above-described embodiment, first processor also can send the control signal of opening four air outlets according to air-supply controlled condition.

Similarly, in the process of carrying out the 4th sub-processor, t1, t2, t3 and t4 constantly the 4th sub-processor send successively respectively for the control signal of opening any one or a plurality of air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 4, table 5 and table 6:

Table 4

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close

t2	Open	Open	Close	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Open	Close
					t5	Close	Close	Open	Close
t6	Close	Close	Open	Open
					t7	Close	Open	Open	Open
t8	Open	Open	Open	Close
					t9	Open	Open	Open	Open

Table 5

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Open	Close	Open	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Close	Open
					t5	Close	Open	Open	Open
t6	Open	Open	Open	Close
					t7	Open	Open	Open	Open

Table 6

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Open
t2	Open	Open	Open	Close
					t3	Open	Open	Close	Close
t4	Open	Close	Close	Close
					t5	Open	Open	Open	Open
t6	Open	Open	Close	Close
					t7	Open	Open	Open	Close

t8

Open

Open

Open

Open

Shown in table 4, table 5 and table 6, the 4th sub-processor can according to any one circular order in three tables, send the control signal of opening air outlet successively.

In above-described embodiment of the application, detector can also comprise: temperature sensor/humidity sensor, be connected with controller, and be used for gathering current environmental temperature/humidity.Be in the situation of environment temperature/humidity of air conditioner in air-supply controlled condition, when air conditioner is in air supply pattern, open the temperature sensor/humidity sensor of air conditioner, to gather the environment temperature/humidity of air conditioner.

Above-described embodiment according to the application, temperature sensor comprises the first temperature sensor and the second temperature sensor, air conditioner comprises first air outlet adjacent with the first temperature sensor and second air outlet adjacent with the second temperature sensor, controller also comprises: the first calculator, be connected between the first temperature sensor and the 3rd calculator, be used for to each temperature that the first temperature sensor in the section at any time collects calculating of averaging, to obtain the first temperature T 1; The second calculator is connected between the second temperature sensor and the 3rd calculator, is used for to each temperature that the second temperature sensor in the section at any time collects calculating of averaging, to obtain the second temperature T 2; The 3rd calculator is used in the situation that air conditioner is in heating mode, asks difference to calculate △ T to the first temperature T 1 and the second temperature T 2, wherein, and △ T=T1-T2; The second processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in heating mode and △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; The 3rd processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in heating mode and △ T＜0, sends for opening the first air outlet, closes the control signal of the second air outlet; Four-processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in refrigeration mode and △ T〉0, send for opening the first air outlet, close the control signal of the second air outlet; The 5th processor is connected between the 3rd calculator and the actuator, is used in the situation that air conditioner is in refrigeration mode and △ T＜0, sends for opening the second air outlet, closes the control signal of the first air outlet.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first temperature sensor can be arranged on the upper left corner of air-conditioning internal machine, the second temperature sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second temperature sensor has right air outlet and lower air outlet.

Particularly, in the situation that air-conditioner is in heating mode, in in very, be higher than in the first temperature T 1 that the first calculator calculates in the situation of the second temperature T 2 that the second calculator calculates, the second processor sends opens right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, be lower than in the first temperature T 1 that the first calculator calculates in the situation of the second temperature T 2 that the second calculator calculates, the 3rd processor sends opens left air outlet and upper air outlet, closes the control signal of right air outlet and lower air outlet.In the situation that air-conditioner is in refrigeration mode, be higher than in the first temperature T 1 that the first calculator calculates in the situation of the second temperature T 2 that the second calculator calculates, four-processor is sent and is opened left air outlet and upper air outlet, close the control signal of right air outlet and lower air outlet, be lower than in the first temperature T 1 that the first calculator calculates in the situation of the second temperature T 2 that the second calculator calculates, the 5th processor sends opens right air outlet and lower air outlet, closes the control signal of left air outlet and upper air outlet.

In above-described embodiment of the application, humidity sensor comprises the first humidity sensor and the second humidity sensor, air conditioner comprises three air outlet adjacent with the first humidity sensor and four air outlet adjacent with the second humidity sensor, controller comprises: the 4th calculator, be connected between the first humidity sensor and the 6th calculator, be used for to each humidity that the first humidity sensor in the section at any time collects calculating of averaging, to obtain the first humidity H1; The 5th calculator is connected between the first humidity sensor and the 6th calculator, is used for to each humidity that the second humidity sensor in the section at any time collects calculating of averaging, to obtain the second humidity H2; The 6th calculator is used for the first humidity H1 and the second humidity H2 are asked poor calculating, obtains △ H, wherein, and △ H=H1-H2; The 6th processor is connected between the 6th calculator and the actuator, be used in the situation that air conditioner is in humidification mode and at △ H 0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet; The 7th processor is connected between the 6th calculator and the actuator, is used for closing the control signal of the 4th air outlet in the situation that air conditioner is in humidification mode and in △ H＜0, send for opening the 3rd air outlet; Eight processor is connected between the 6th calculator and the actuator, be used in the situation that air conditioner is in dehumidification mode and at △ H 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet; The 9th processor is connected between the 6th calculator and the actuator, is used in the situation that air conditioner is in humidification mode in △ H＜0, sends for opening the 4th air outlet, closes the control signal of the 3rd air outlet.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first humidity sensor can be arranged on the upper left corner of air-conditioning internal machine, the second humidity sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.

Particularly, under air-conditioner is in humidification mode, in the situation of the second humidity H2 that the first humidity H1 that the 4th calculator calculates calculates greater than the 5th calculator, the 6th processor sends opens right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, in the situation of the second humidity H2 that the first humidity H1 that the 4th calculator calculates calculates less than the 5th calculator, the 7th processor sends opens left air outlet and upper air outlet, closes the control signal of right air outlet and lower air outlet.

In the above-described embodiments, under air-conditioner is in dehumidification mode, under air-conditioner is in humidification mode, in the situation of the second humidity H2 that the first humidity H1 that the 4th calculator calculates calculates greater than the 5th calculator, eight processor sends closes right air outlet and lower air outlet, open the control signal of left air outlet and upper air outlet, in the situation of the second humidity H2 that the first humidity H1 that the 4th calculator calculates calculates less than the 5th calculator, the 9th processor sends closes left air outlet and upper air outlet, the control signal of opening right air outlet and lower air outlet.

Fig. 4 is the flow chart according to the control method of the air conditioner air outlet folding of the utility model embodiment.As shown in Figure 4, the method comprises the steps:

Step S102 obtains air-supply controlled condition, and air-supply controlled condition comprises: the ambient humidity of the running time of air conditioner, the environment temperature of air conditioner, air conditioner.

Step S104 sends for the control signal of controlling the air outlet folding according to air-supply controlled condition.

Step S106 opens or closes corresponding air outlet according to control signal.

Adopt the control method of air conditioner air outlet folding of the present utility model, be sent to controller by the air-supply control that will get access to, then send for the control signal of controlling the air outlet folding according to this air-supply controlled condition, wherein, air-supply controlled condition can be the running time of air conditioner, the environment temperature of air conditioner or the ambient humidity of air conditioner, opens or close corresponding air outlet according to control signal at last.The control method of the air conditioner air outlet folding by the application, to generate the control signal of control air outlet folding according to air-supply controlled condition, and according to the corresponding air outlet of control signal closure or openness, adopt air-supply controlled condition dynamically to control the folding of different air outlets, solved in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, realized the dynamic air supply of air conditioner air outlet, and then enlarged the blowing range of air conditioner room unit, promoted the comfortableness of air-conditioning internal machine blowing feeling.

According to above-described embodiment of the application, when air-supply controlled condition was the running time of air conditioner, before obtaining air-supply controlled condition, method also comprised: when air conditioner enters air supply pattern, open timer; Read the running time of the air conditioner of timer record.Particularly, be in the situation of running time of air conditioner in air-supply controlled condition, open the running time of timer record air conditioner, then be sent to controller this running time.

In above-described embodiment of the application, air conditioner comprises a plurality of air outlets, wherein, the step of sending for the control signal of control air outlet folding according to air-supply controlled condition comprises: according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening any one or a plurality of air outlets.

Particularly, after the running time of the air conditioner that gets access to timer record, controller generates the control signal of opening one or more air conditioner air outlets according to this running time, then according to this unblanking or close corresponding air outlet, realizing the dynamic control to the folding of the air outlet of air conditioner, thereby dynamically control the air-out of air outlet.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, in the face of the front panel of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid.

Particularly, in above-described embodiment of the present utility model, after being located at the air-conditioning start, air conditioner enters air supply pattern, open timer, the running time of record air conditioner, the moment that air conditioner enters air supply pattern be t1 constantly, after this every predetermined time frequency send a control any one or a plurality of air outlet and open the control signal that other air outlets are closed.For example, it is the t2 moment after 1 △ t time interval, be the t3 moment again after 1 △ t time interval, be the t4 moment again after 1 △ t time interval, again after 1 △ t time interval (in the situation that air outlet is four, per 4 △ t are a cycle period), then, timer is got back to again t1 constantly, and is that the temporal frequency of △ t is sent control signal according to the time interval, and so circulation is gone down.Wherein, △ t can decide according to type and the environment for use of different air conditioners (can draft in the present embodiment temporal frequency and be that 10s～20s), each sends the control signal of control air outlet folding constantly.

Above-described embodiment according to the application, according to the running time that gets access to, according to predetermined time the step sent for the control signal of opening any one or a plurality of air outlets of frequency comprise: according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one air outlet; Or according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any two air outlets; Or according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any three air outlets; Or according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one or a plurality of air outlets.

Particularly, according to the running time that gets access to, according to predetermined time the step sent for the control signal of opening successively any one air outlet of frequency can comprise: t1, t2, t3 and t4 constantly controller send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 7:

Table 7

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Close	Open	Close	Close
					t3	Close	Close	Open	Close
t4	Close	Close	Close	Open

As shown in table 7, can be according to upper → lower → left → right order, carry out the step of sending successively the control signal of opening any one air outlet, similarly, also can adopt circular order to send successively control signal: on → right → lower → left, lower → on → left → right, right → lower → left → first-class.

Particularly, according to the running time that gets access to, according to predetermined time the step sent for the control signal of opening successively any two each and every one air outlets of frequency can comprise: t1, t2, t3 and t4 constantly controller send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 8:

Table 8

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Close	Close
t2	Close	Open	Open	Close
					t3	Close	Close	Open	Open
t4	Open	Close	Close	Open

Particularly, can be according to the circular order of table 8, carry out the step of sending successively the control signal of opening any two air outlets, similarly, also can adopt circular order to send successively control signal: up and down → about, the sequential combination of upper right → bottom right → bottom left → any two air outlet foldings such as upper left.

Similarly, according to the running time that gets access to, according to predetermined time the step sent for the control signal of opening successively any three air outlets of frequency can comprise: t1, t2, t3 and t4 constantly controller send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 9:

Table 9

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Close
t2	Close	Open	Open	Open

t3	Open	Close	Open	Open
					t4	Open	Open	Close	Open

Particularly, can be according to the circular order of table 9, carry out the step of sending successively the control signal of opening any three air outlets, similarly, also can adopt circular order to send successively control signal: the sequential combination of any three air door foldings such as upper lower-left → lower upper right, the upper left right side → bottom right is left.

According to above-described embodiment, also can send the control signal of opening four air outlets according to air-supply controlled condition.

Similarly, according to the running time that gets access to, according to predetermined time the step sent for the control signal of opening successively any one or a plurality of air outlets of frequency can comprise: t1, t2, t3 and t4 constantly controller send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 10, table 11 and table 12:

Table 10

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Open	Open	Close	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Open	Close
					t5	Close	Close	Open	Close
t6	Close	Close	Open	Open
					t7	Close	Open	Open	Open
t8	Open	Open	Open	Close
					t9	Open	Open	Open	Open

Table 11

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Open	Close	Open	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Close	Open
					t5	Close	Open	Open	Open

t6	Open	Open	Open	Close
					t7	Open	Open	Open	Open

Table 12

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Open
t2	Open	Open	Open	Close
					t3	Open	Open	Close	Close
t4	Open	Close	Close	Close
					t5	Open	Open	Open	Open
t6	Open	Open	Close	Close
					t7	Open	Open	Open	Close
t8	Open	Open	Open	Open

Particularly, can be according to any one circular order in three tables, carry out and send successively the control signal of opening any one or a plurality of air outlets.

In above-described embodiment of the application, when air-supply controlled condition was the environment temperature of air conditioner, before obtaining air-supply controlled condition, method can also comprise the steps: when air-conditioner enters air supply pattern, start-up temperature sensor/humidity sensor; Current environmental temperature/humidity that reading temperature sensor collects.Particularly, be in the situation of environment temperature/humidity of air conditioner in air-supply controlled condition, when air conditioner is in air supply pattern, open the temperature sensor/humidity sensor of air conditioner, to gather the environment temperature/humidity of air conditioner.

Above-described embodiment according to the application, temperature sensor comprises the first temperature sensor and the second temperature sensor, air conditioner comprises first air outlet adjacent with the first temperature sensor and second air outlet adjacent with the second temperature sensor, wherein, the step that generates the control signal of control air outlet folding according to air-supply controlled condition comprises: each temperature that the first temperature sensor in the section is at any time collected calculating of averaging, to obtain the first temperature T 1; To the calculating of averaging of each temperature of collecting of the second temperature sensor in the section at any time, to obtain the second temperature T 2; The first temperature T 1 and the second temperature T 2 are asked poor calculating, obtain △ T, wherein, △ T=T1-T2; In the situation that air conditioner is in heating mode and △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; In the situation that air conditioner is in heating mode and △ T＜0, send for opening the first air outlet, close the control signal of the second air outlet; In the situation that air conditioner is in refrigeration mode and △ T〉0, send for opening the first air outlet, close the control signal of the second air outlet; In the situation that air conditioner is in refrigeration mode and △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; In the situation that △ T=0 continues the folding of the air outlet of maintenance air-conditioner.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first temperature sensor can be arranged on the upper left corner of air-conditioning internal machine, the second temperature sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second temperature sensor has right air outlet and lower air outlet.

Fig. 5 is the flow chart detailed according to the utility model embodiment shown in Figure 4.As shown in Figure 5, in the situation that air-conditioner is in heating mode, the method embodiment can realize as follows:

Step S101 carries out the calculating of △ T=T1-T2.Particularly, the environment temperature of the air conditioner that the first temperature sensor was collected in ten minutes is averaged, and obtains the first temperature T 1; The environment temperature of the air conditioner that the first temperature sensor was collected in ten minutes is averaged, and obtains the first temperature T 1; Then calculate △ T=T1-T2.

Step S103 judges that whether △ T is greater than 0.Particularly, in the situation that △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; In the situation that send for opening the first air outlet △ T＜0, close the control signal of the second air outlet.Particularly, in the situation that the first temperature T 1 is higher than the second temperature T 2, send and open right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, in the situation that the first temperature T 1 is lower than the second temperature T 2, the 3rd processor sends opens left air outlet and upper air outlet, closes the control signal of right air outlet and lower air outlet.

In the above-described embodiments, in the situation that air-conditioner is in refrigeration mode, in the situation that the first temperature T 1 is higher than the second temperature T 2, send and open left air outlet and upper air outlet, close the control signal of right air outlet and lower air outlet, send the right air outlet of unlatching and lower air outlet in the situation that the first temperature T 1 is lower than the second temperature T 2, the five processors, close the control signal of left air outlet and upper air outlet.

In above-described embodiment of the application, humidity sensor comprises the first humidity sensor and the second humidity sensor, air conditioner comprises three air outlet adjacent with the first humidity sensor and four air outlet adjacent with the second humidity sensor, wherein, the step that generates the control signal of control air outlet folding according to air-supply controlled condition comprises: each humidity that the first humidity sensor in the section is at any time collected calculating of averaging, to obtain the first humidity H1; To the calculating of averaging of each humidity of collecting of the second humidity sensor in the section at any time, to obtain the second humidity H2; The first humidity H1 and the second humidity H2 are asked poor calculating, obtain △ H, wherein, △ H=H1-H2; In the situation that △ H〉0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet; In the situation that send for opening the 3rd air outlet △ H＜0, close the control signal of the 4th air outlet; In the situation that △ H=0 continues the folding of the air outlet of maintenance air-conditioner.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first humidity sensor can be arranged on the upper left corner of air-conditioning internal machine, the second humidity sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.

Particularly, this embodiment can realize as follows: under air-conditioner is in humidification mode, in the situation that the first humidity H1 is greater than the second humidity H2, send and open right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, open left air outlet and upper air outlet in the situation that the first humidity H1 less than the second humidity H2, sends, close the control signal of right air outlet and lower air outlet;

In above-described embodiment of the present utility model, under air-conditioner is in dehumidification mode, under air-conditioner is in humidification mode, in the situation that the first humidity H1 is greater than the second humidity H2, send and close right air outlet and lower air outlet, the control signal of opening left air outlet and upper air outlet is in the situation that the first humidity H1 is less than the second humidity H2, send and close left air outlet and upper air outlet, the control signal of opening right air outlet and lower air outlet.

Need to prove, can in the computer system such as one group of computer executable instructions, carry out in the step shown in the flow chart of accompanying drawing, and, although there is shown logical order in flow process, but in some cases, can carry out step shown or that describe with the order that is different from herein.

Fig. 6 is the flow chart according to the control device of the air conditioner air outlet folding of the utility model embodiment.As shown in Figure 6, this device comprises: the first acquisition module 10, be used for obtaining air-supply controlled condition, and air-supply controlled condition comprises: the ambient humidity of the running time of air conditioner, the environment temperature of air conditioner, air conditioner; The first control module 30 is used for sending for the control signal of controlling the air outlet folding according to air-supply controlled condition; Executive Module 50 is used for opening or close corresponding air outlet according to control signal.

Adopt the control device of air conditioner air outlet folding of the present utility model, send for the control signal of controlling the air outlet folding by the air-supply controlled condition that the first control module gets access to according to the first acquisition module, wherein, air-supply controlled condition can be the running time of air conditioner, the environment temperature of air conditioner or the ambient humidity of air conditioner, and then corresponding air outlet is opened or closed to Executive Module according to control signal.The control device of the air conditioner air outlet folding by the application, to generate the control signal of control air outlet folding according to air-supply controlled condition, and according to the corresponding air outlet of control signal closure or openness, adopt air-supply controlled condition dynamically to control the folding of different air outlets, solved in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, realized the dynamic air supply of air conditioner air outlet, and then enlarged the blowing range of air conditioner room unit, promoted the comfortableness of air-conditioning internal machine blowing feeling.

According to above-described embodiment of the application, when air-supply controlled condition was the running time of air conditioner, before carrying out the first acquisition module 10, device also comprised: the first opening module is used for opening timer when air conditioner enters air supply pattern; The first read module is for the running time of the air conditioner that reads timer record.

In above-described embodiment of the application, air conditioner comprises a plurality of air outlets, and wherein, the first control module 30 comprises: the first sub-control module, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening any one or a plurality of air outlets.Particularly, the running time of the air conditioner that the first sub-control module reads according to the first read module, control signal according to the one or more air conditioner air outlets of predetermined time frequency generation unlatching, then this signal is sent to Executive Module 50, Executive Module 50 is according to this unblanking or close corresponding air outlet, realizing the dynamic control to the folding of the air outlet of air conditioner, thereby dynamically control the air-out of air outlet.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, in the face of the front panel of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid.

Particularly, in above-described embodiment of the present utility model, after being located at the air-conditioning start, air conditioner enters air supply pattern, the first opening module is opened timer, the first read module reads the running time of timer record air conditioner, the moment that air conditioner enters air supply pattern be t1 constantly, after this first sub-control module every predetermined time frequency send a control any one or a plurality of air outlet and open the control signal that other air outlets are closed.For example, it is the t2 moment after 1 △ t time interval, be the t3 moment again after 1 △ t time interval, be the t4 moment again after 1 △ t time interval, again after 1 △ t time interval (in the situation that air outlet is four, per 4 △ t are a cycle period), then, timer is got back to again t1 constantly, and is that the temporal frequency of △ t is sent control signal according to the time interval, and so circulation is gone down.Wherein, △ t can decide according to type and the environment for use of different air conditioners (can draft in the present embodiment temporal frequency and be that 10s～20s), each sends the control signal of control air outlet folding constantly.

According to above-described embodiment of the application, the first sub-control module comprises: the first sub-processing module, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one air outlet; Or the second sub-processing module, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any two air outlets; Or the 3rd sub-processing module, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any three air outlets; Or the 4th sub-processing module, be used for according to the running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one or a plurality of air outlets.

Particularly, in the process of carrying out the first sub-processing module, t1, t2, t3 and t4 constantly the first sub-processing module send successively respectively for the control signal of opening any one air outlet, difference constantly the particular content of the unlatching air outlet of control signal referring to table 13:

Table 13

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Close	Open	Close	Close
					t3	Close	Close	Open	Close
t4	Close	Close	Close	Open

As shown in table 13, the first sub-processing module can be according to upper → lower → left → right order, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: on → right → lower → left, lower → on → left → right, right → lower → left → first-class.

Particularly, in the process of carrying out the second sub-processing module, t1, t2, t3 and t4 constantly the second sub-processing module send successively respectively be used to the control signal of opening any two air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 14:

Table 14

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Close	Close
t2	Close	Open	Open	Close
					t3	Close	Close	Open	Open

t4

Open

Close

Close

Open

As shown in table 14, the second sub-processing module can be according to the circular order of table 14, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: up and down → about, the sequential combination of upper right → bottom right → bottom left → any two air outlet foldings such as upper left.

Similarly, in the process of carrying out the 3rd sub-processing module, t1, t2, t3 and t4 constantly the 3rd sub-processing module send successively respectively be used to the control signal of opening any three air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 15:

Table 15

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Close
t2	Close	Open	Open	Open
					t3	Open	Close	Open	Open
t4	Open	Open	Close	Open

As shown in Table 15, the second sub-processing module can be according to the circular order of table 15, send successively the control signal of opening air outlet, similarly, also can adopt circular order to send successively control signal: the sequential combination of any three air door foldings such as upper lower-left → lower upper right, the upper left right side → bottom right is left.

According to above-described embodiment, the first sub-control module also can be sent the control signal of opening four air outlets according to air-supply controlled condition.

Similarly, in the process of carrying out the 4th sub-processing module, t1, t2, t3 and t4 constantly the 4th sub-processing module send successively respectively for the control signal of opening any one or a plurality of air outlets, difference constantly the particular content of the unlatching air outlet of control signal referring to table 16, table 17 and table 18:

Table 16

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Open	Open	Close	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Open	Close
					t5	Close	Close	Open	Close
t6	Close	Close	Open	Open

t7	Close	Open	Open	Open
					t8	Open	Open	Open	Close
t9	Open	Open	Open	Open

Table 17

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Close	Close	Close
t2	Open	Close	Open	Close
					t3	Close	Open	Close	Close
t4	Close	Open	Close	Open
					t5	Close	Open	Open	Open
t6	Open	Open	Open	Close
					t7	Open	Open	Open	Open

Table 18

Constantly	Upper air outlet	Left air outlet	Lower air outlet	Right air outlet
					T1 (initial gear)	Open	Open	Open	Open
t2	Open	Open	Open	Close
					t3	Open	Open	Close	Close
t4	Open	Close	Close	Close
					t5	Open	Open	Open	Open
t6	Open	Open	Close	Close
					t7	Open	Open	Open	Close
t8	Open	Open	Open	Open

Shown in table 16, table 17 and table 18, the 4th sub-processing module can according to any one circular order in three tables, be sent the control signal of opening air outlet successively.

In above-described embodiment of the application, when air-supply controlled condition was the environment temperature of air conditioner, before carrying out the first acquisition module 10, device also comprised: the second opening module, be used for when air-conditioner enters air supply pattern start-up temperature sensor/humidity sensor; The second read module is used for current environmental temperature/humidity that reading temperature sensor collects.

Particularly, when air-supply controlled condition when being the environment temperature of air conditioner, the second opening module is start-up temperature sensor/humidity sensor when air-conditioner enters air supply pattern, then current environmental temperature/humidity of collecting of the second read module reading temperature sensor.

Above-described embodiment according to the application, temperature sensor comprises the first temperature sensor and the second temperature sensor, air conditioner comprises first air outlet adjacent with the first temperature sensor and second air outlet adjacent with the second temperature sensor, wherein, the first control module 30 comprises: the first computing module, be used for to each temperature that the first temperature sensor in the section at any time collects calculating of averaging, to obtain the first temperature T 1; The second computing module is used for to each temperature that the second temperature sensor in the section at any time collects calculating of averaging, to obtain the second temperature T 2; The 3rd computing module is used for asking difference to calculate △ T to the first temperature T 1 and the second temperature T 2, wherein, and △ T=T1-T2; The second sub-control module is used in the situation that air conditioner is in heating mode and △ T〉0, send for opening the second air outlet, close the control signal of the first air outlet; The 3rd sub-control module is used in the situation that air conditioner is in heating mode and △ T＜0, sends for opening the first air outlet, closes the control signal of the second air outlet; The 4th sub-control module is used in the situation that air conditioner is in refrigeration mode and △ T〉0, send for opening the first air outlet, close the control signal of the second air outlet; The 5th sub-control module is used in the situation that air conditioner is in refrigeration mode and △ T＜0, sends for opening the second air outlet, closes the control signal of the first air outlet.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first temperature sensor can be arranged on the upper left corner of air-conditioning internal machine, the second temperature sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second temperature sensor has right air outlet and lower air outlet.

Particularly, in the situation that air conditioner is in heating mode, in in very, be higher than in the first temperature T 1 that the first computing module calculates in the situation of the second temperature T 2 that the second computing module calculates, the second sub-controller sends opens right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, be lower than in the first temperature T 1 that the first computing module calculates in the situation of the second temperature T 2 that the second computing module calculates, the 3rd sub-controller sends opens left air outlet and upper air outlet, closes the control signal of right air outlet and lower air outlet.In the situation that air conditioner is in refrigeration mode, be higher than in the first temperature T 1 that the first computing module calculates in the situation of the second temperature T 2 that the second computing module calculates, the 4th sub-controller sends opens left air outlet and upper air outlet, close the control signal of right air outlet and lower air outlet, be lower than in the first temperature T 1 that the first computing module calculates in the situation of the second temperature T 2 that the second computing module calculates, the 5th sub-controller sends opens right air outlet and lower air outlet, closes the control signal of left air outlet and upper air outlet.

In above-described embodiment of the application, humidity sensor comprises the first humidity sensor and the second humidity sensor, air conditioner comprises three air outlet adjacent with the first humidity sensor and four air outlet adjacent with the second humidity sensor, the first control module 30 comprises: the 4th computing module, be used for to each humidity that the first humidity sensor in the section at any time collects calculating of averaging, to obtain the first humidity H1; The 5th computing module is used for to each humidity that the second humidity sensor in the section at any time collects calculating of averaging, to obtain the second humidity H2; The 6th computing module is used for the first humidity H1 and the second humidity H2 are asked poor calculating, obtains △ H, wherein, and △ H=H1-H2; The 6th sub-control module is used in the situation that △ H〉0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet; The 7th sub-control module is used for closing the control signal of the 4th air outlet in the situation that send for opening the 3rd air outlet △ H＜0.

Wherein, the air outlet of machine comprises in the situation of four air outlets in air conditioner, front panel in the face of air-conditioning internal machine, four air outlets are respectively air outlet, lower air outlet, left air outlet, right air outlet, four air outlets are distributed on four faces in upper and lower, left and right of machine in the cuboid, and the random time section can be 10 minutes.

In above-described embodiment of the application, the first humidity sensor can be arranged on the upper left corner of air-conditioning internal machine, the second humidity sensor is arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor has left air outlet and upper air outlet, and the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.

Particularly, in the situation of the second humidity H2 that the first humidity H1 that the 4th computing module calculates calculates greater than the 5th computing module, the 6th sub-control module processor sends opens right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, in the situation of the second humidity H2 that the first humidity H1 that the first calculator calculates calculates less than the second calculator, the 7th sub-control module is sent and is opened left air outlet and upper air outlet, closes the control signal of right air outlet and lower air outlet.

From above description, can find out, the utility model has been realized following technique effect: the control device of the air conditioner air outlet folding by the application, to generate the control signal of control air outlet folding according to air-supply controlled condition, and according to the corresponding air outlet of control signal closure or openness, adopt air-supply controlled condition dynamically to control the folding of different air outlets, solved in the prior art owing to air conditioner air outlet one direction air supply mode causes the little problem of blowing range, realized the dynamic air supply of air conditioner air outlet, and then enlarged the blowing range of air conditioner room unit, promoted the comfortableness of air-conditioning internal machine blowing feeling.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (7)

1. the control system of an air conditioner air outlet folding is characterized in that, comprising:

A plurality of air outlets are connected with actuator respectively;

Controller is used for sending for the control signal of controlling the air outlet folding according to air-supply controlled condition;

Detector is connected with described controller, is used for obtaining described air-supply controlled condition, and described air-supply controlled condition is sent to described controller;

Described actuator is connected with described controller, is used for opening or close corresponding described air outlet according to described control signal.

2. system according to claim 1 is characterized in that, described detector comprises:

Timer is connected with described controller, is used for the running time of recording described air conditioner.

3. system according to claim 2 is characterized in that, described controller comprises:

First processor is connected between described timer and the described actuator, be used for according to the described running time that gets access to, according to predetermined time frequency send for the control signal of opening any one or a plurality of described air outlets.

4. system according to claim 3 is characterized in that, described first processor comprises:

The first sub-processor is connected between described timer and the described actuator, be used for according to the described running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one described air outlet; Or

The second sub-processor is connected between described timer and the described actuator, be used for according to the described running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any two described air outlets; Or

The 3rd sub-processor is connected between described timer and the described actuator, be used for according to the described running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any three described air outlets; Or

The 4th sub-processor is connected between described timer and the described actuator, be used for according to the described running time that gets access to, according to predetermined time frequency send for the control signal of opening successively any one or a plurality of described air outlets.

5. system according to claim 1 is characterized in that, described detector also comprises:

Temperature sensor/humidity sensor is connected with described controller, is used for gathering current environmental temperature/humidity.

6. system according to claim 5 is characterized in that, described temperature sensor comprises the first temperature sensor and second

Temperature sensor, described air conditioner comprise first air outlet adjacent with described the first temperature sensor and second air outlet adjacent with described the second temperature sensor, and described controller also comprises:

The first calculator is connected between described the first temperature sensor and the 3rd calculator, is used for to each temperature that described the first temperature sensor in the section at any time collects calculating of averaging, to obtain the first temperature T 1;

The second calculator is connected between described the second temperature sensor and described the 3rd calculator, is used for to each temperature that described the second temperature sensor in the section at any time collects calculating of averaging, to obtain the second temperature T 2;

Described the 3rd calculator is used in the situation that described air conditioner is in heating mode, asks difference to calculate △ T to described the first temperature T 1 and described the second temperature T 2, wherein, and △ T=T1-T2;

The second processor is connected between described the 3rd calculator and the described actuator, is used in the situation that described air conditioner is in heating mode and described △ T〉0, send be used to opening described the second air outlet, close the control signal of described the first air outlet;

The 3rd processor is connected between described the 3rd calculator and the described actuator, is used in the situation that described air conditioner is in heating mode and described △ T＜0, sends be used to opening described the first air outlet, closes the control signal of described the second air outlet;

Four-processor is connected between described the 3rd calculator and the described actuator, is used in the situation that described air conditioner is in refrigeration mode and described △ T〉0, send be used to opening described the first air outlet, close the control signal of described the second air outlet;

The 5th processor is connected between described the 3rd calculator and the described actuator, is used in the situation that described air conditioner is in refrigeration mode and described △ T＜0, sends be used to opening described the second air outlet, closes the control signal of described the first air outlet.

7. system according to claim 5, it is characterized in that, described humidity sensor comprises the first humidity sensor and the second humidity sensor, described air conditioner comprises three air outlet adjacent with described the first humidity sensor and four air outlet adjacent with described the second humidity sensor, and described controller comprises:

The 4th calculator is connected between described the first humidity sensor and the 6th calculator, is used for to each humidity that described the first humidity sensor in the section at any time collects calculating of averaging, to obtain the first humidity H1;

The 5th calculator is connected between described the first humidity sensor and described the 6th calculator, is used for to each humidity that described the second humidity sensor in the section at any time collects calculating of averaging, to obtain the second humidity H2;

Described the 6th calculator is used for described the first humidity H1 and described the second humidity H2 are asked poor calculating, obtains △ H, wherein, and △ H=H1-H2;

The 6th processor is connected between described the 6th calculator and the described actuator, be used in the situation that described air conditioner is in humidification mode and at described △ H 0, send be used to opening described the 4th air outlet, close the control signal of described the 3rd air outlet;

The 7th processor is connected between described the 6th calculator and the described actuator, is used for closing the control signal of described the 4th air outlet in the situation that described air conditioner is in humidification mode and in described △ H＜0, send be used to opening described the 3rd air outlet;

Eight processor is connected between described the 6th calculator and the described actuator, be used in the situation that described air conditioner is in dehumidification mode and at described △ H 0, send be used to opening described the 3rd air outlet, close the control signal of described the 4th air outlet;

The 9th processor is connected between described the 6th calculator and the described actuator, is used for closing the control signal of described the 3rd air outlet in the situation that described air conditioner is in humidification mode and in described △ H＜0, send be used to opening described the 4th air outlet.

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