CN103673203B - The control method and system of air conditioner air outlet folding - Google Patents
The control method and system of air conditioner air outlet folding Download PDFInfo
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- CN103673203B CN103673203B CN201210335396.6A CN201210335396A CN103673203B CN 103673203 B CN103673203 B CN 103673203B CN 201210335396 A CN201210335396 A CN 201210335396A CN 103673203 B CN103673203 B CN 103673203B
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Abstract
The invention provides a kind of control method and system of air conditioner air outlet folding, wherein, this method includes:Obtain air blowing control condition;Control signal for controlling air outlet folding is sent according to air blowing control condition;Corresponding air outlet is turned on and off according to control signal.Pass through the control method and system of the air conditioner air outlet folding of the application, the control signal for controlling air outlet folding will be generated according to air blowing control condition, and according to the corresponding air outlet of control signal closure or openness, using the folding of the different air outlets of air blowing control condition dynamic control, solve causes the problem of blowing range is small due to air conditioner air outlet one direction air supply mode in the prior art, realizes the dynamic air supply of air conditioner air outlet.
Description
Technical field
The present invention relates to control field, in particular to a kind of control method and system of air conditioner air outlet folding.
Background technology
Existing indoor apparatus of air conditioner, typically all one direction are blown, and air-supply has dead angle, and the air outlet of indoor set is all
The front lower place of casing is located at, this one direction air-supply, blowing range is small so that the wind of air conditioner directly blows to human body, causes people
Body does not feel like oneself.The wind deflector that this air outlet is set is usually what is be driven by transmission mechanism, relies primarily on motor in regulation and turns
Speed realizes, such air-conditioning internal machine can only single direction air-supply so that the blowing range of air-conditioning internal machine is smaller.
For causing the problem of blowing range is small due to air conditioner air outlet one direction air supply mode in the prior art, mesh
It is preceding not yet to propose effective solution.
The content of the invention
The problem of blowing range is small is caused due to air conditioner air outlet one direction air supply mode for correlation technique, at present
Effective solution is not yet proposed, therefore, it is a primary object of the present invention to provide a kind of control of air conditioner air outlet folding
Method and system processed, to solve the above problems.
To achieve these goals, according to an aspect of the invention, there is provided a kind of control of air conditioner air outlet folding
Method processed, this method includes:Air blowing control condition is obtained, air blowing control condition includes:The run time of air conditioner, air conditioner
The ambient humidity of environment temperature or air conditioner;Control signal for controlling air outlet folding is sent according to air blowing control condition;
Corresponding air outlet is turned on and off according to control signal.
Further, when air blowing control condition is the run time of air conditioner, before air blowing control condition is obtained, side
Method also includes:When air conditioner enters air supply pattern, timer is opened;Read the run time of the air conditioner of timer record.
Further, air conditioner includes multiple air outlets, wherein, sent according to air blowing control condition for controlling air outlet
The step of control signal of folding, includes:According to the run time got, sent according to predetermined temporal frequency for opening
The control signal of any one or more air outlets.
Further, according to the run time got, sent according to predetermined temporal frequency for opening any one
Or multiple air outlets control signal the step of include:According to the run time got, sent according to predetermined temporal frequency
Control signal for opening any one air outlet successively;Or according to the run time got, according to predetermined time frequency
Rate sends the control signal for opening any two air outlet successively;Or according to the run time got, according to predetermined
Temporal frequency sends the control signal for opening any three air outlets successively;Or according to the run time got, according to
Predetermined temporal frequency sends the control signal for opening any one or more air outlets successively.
Further, when air blowing control condition be air conditioner environment temperature/humidity when, obtain air blowing control condition it
Before, method also includes:When air conditioner enters air supply pattern, start-up temperature sensor/humidity sensor;Read temperature sensor
The humidity that the current environmental temperature or humidity sensor collected is collected.
Further, temperature sensor includes the first temperature sensor and second temperature sensor, and air conditioner includes and the
The first adjacent air outlet of one temperature sensor and second air outlet adjacent with second temperature sensor, wherein, according to air-supply
The step of control signal of control condition generation control air outlet folding, includes:To the first temperature sensor in section at any time
Each temperature collected carries out calculating of averaging, to obtain the first temperature T1;Second temperature in section at any time is passed
Each temperature that sensor is collected carries out calculating of averaging, to obtain second temperature T2;To the first temperature T1 and second temperature
T2 carries out asking poor calculating, obtains △ T, wherein, △ T=T1-T2 are in heating mode and △ T in air conditioner>In the case of 0, hair
Going out is used to open the second air outlet, closes the control signal of the first air outlet;Heating mode and △ T are in air conditioner<0 feelings
Under condition, send for opening the first air outlet, close the control signal of the second air outlet;Refrigeration mode and △ are in air conditioner
T>In the case of 0, send for opening the first air outlet, close the control signal of the second air outlet;Refrigeration is in air conditioner
Pattern and △ T<In the case of 0, send for opening the second air outlet, close the control signal of the first air outlet;In △ T=0
In the case of, continue to keep the folding of the air outlet of air conditioner.
Further, humidity sensor includes the first humidity sensor and the second humidity sensor, and air conditioner includes and the
The 3rd adjacent air outlet of one humidity sensor and fourth air outlet adjacent with the second humidity sensor, wherein, according to air-supply
The step of control signal of control condition generation control air outlet folding, includes:To the first humidity sensor in section at any time
Each humidity collected carries out calculating of averaging, to obtain the first humidity H1;Second humidity in section at any time is passed
Each humidity that sensor is collected carries out calculating of averaging, to obtain the second humidity H2;To the first humidity H1 and the second humidity
H2 carries out asking poor calculating, obtains △ H, wherein, △ H=H1-H2;Humidification mode is in air conditioner and in △ H>In the case of 0,
Send for opening the 4th air outlet, close the control signal of the 3rd air outlet;Humidification mode is in air conditioner and in △ H<0
In the case of, send for opening the 3rd air outlet, close the control signal of the 4th air outlet;Dehumidification mode is in air conditioner
And in △ H>In the case of 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet;At air conditioner
In humidification mode and in △ H<In the case of 0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet;
In the case of △ H=0, continue to keep the folding of the air outlet of air conditioner.
To achieve these goals, there is provided a kind of control of air conditioner air outlet folding according to another aspect of the present invention
System processed, the system includes:Multiple air outlets, are connected with actuator respectively;Controller, for being sent according to air blowing control condition
Control signal for controlling air outlet folding;Detector, is connected with controller, for obtaining air blowing control condition, and will send
Wind control condition is sent to controller;Actuator, is connected with controller, corresponding for being turned on and off according to control signal
Air outlet.
Further, detector includes:Timer, is connected with controller, the run time for recording air conditioner.
Further, controller includes:First processor, is connected between timer and actuator, for according to acquisition
The run time arrived, the control signal for opening any one or more air outlets is sent according to predetermined temporal frequency.
Further, first processor includes:First sub-processor, is connected between timer and actuator, for root
According to the run time got, the control sent according to predetermined temporal frequency for opening any one air outlet successively is believed
Number;Or second sub-processor, it is connected between timer and actuator, for according to the run time got, according to predetermined
Temporal frequency send control signal for opening any two air outlet successively;Or the 3rd sub-processor, it is connected to timing
Between device and actuator, for according to the run time got, sending and appointing for opening successively according to predetermined temporal frequency
The control signal of three air outlets of meaning;Or the 4th sub-processor, it is connected between timer and actuator, for according to getting
Run time, send the control signal for opening any one or more air outlets successively according to predetermined temporal frequency.
Further, detector also includes:Temperature sensor/humidity sensor, is connected with controller, current for gathering
Environment temperature/humidity.
Further, temperature sensor includes the first temperature sensor and second temperature sensor, and air conditioner includes and the
The first adjacent air outlet of one temperature sensor and second air outlet adjacent with second temperature sensor, controller also include:
First calculator, is connected between the first temperature sensor and the 3rd calculator, for the first temperature in section at any time
Each temperature that sensor is collected carries out calculating of averaging, to obtain the first temperature T1;Second calculator, is connected to second
Between temperature sensor and the 3rd calculator, for each temperature collected to second temperature sensor in section at any time
Progress is averaged calculating, to obtain second temperature T2;3rd calculator, for being in heating mode/refrigeration mould in air conditioner
In the case of formula, the first temperature T1 and second temperature T2 is carried out to ask difference calculating to obtain △ T, wherein, △ T=T1-T2;At second
Device is managed, is connected between the 3rd calculator and actuator, for being in heating mode and △ T in air conditioner>In the case of 0, hair
Going out is used to open the second air outlet, closes the control signal of the first air outlet;3rd processor, is connected to the 3rd calculator with holding
Between row device, for being in heating mode and △ T in air conditioner<In the case of 0, send for opening the first air outlet, close
The control signal of second air outlet;Fourth processor, is connected between the 3rd calculator and actuator, for being in air conditioner
Refrigeration mode and △ T>In the case of 0, send for opening the first air outlet, close the control signal of the second air outlet;5th
Processor, is connected between the 3rd calculator and actuator, for being in refrigeration mode and △ T in air conditioner<In the case of 0,
Send for opening the second air outlet, close the control signal of the first air outlet.
Further, humidity sensor includes the first humidity sensor and the second humidity sensor, and air conditioner includes and the
The 3rd adjacent air outlet of one humidity sensor and fourth air outlet adjacent with the second humidity sensor, controller include:The
Four calculators, are connected between the first humidity sensor and the 6th calculator, for being passed to the first humidity in section at any time
Each humidity that sensor is collected carries out calculating of averaging, to obtain the first humidity H1;5th calculator, is connected to first wet
Spend between sensor and the 6th calculator, for entering to each humidity that the second humidity sensor in section at any time is collected
Capable calculating of averaging, to obtain the second humidity H2;6th calculator, for asking the first humidity H1 and the second humidity H2
Difference is calculated, and obtains △ H, wherein, △ H=H1-H2;6th processor, is connected between the 6th calculator and actuator, for
Air conditioner is in humidification mode and in △ H>In the case of 0, send for opening the 4th air outlet, close the control of the 3rd air outlet
Signal processed;7th processor, is connected between the 6th calculator and actuator, for being in humidification mode and in △ in air conditioner
H<In the case of 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet;Eight processor, is connected to
Between 6th calculator and actuator, for being in dehumidification mode and in △ H in air conditioner>In the case of 0, send for opening
3rd air outlet, closes the control signal of the 4th air outlet;9th processor, is connected between the 6th calculator and actuator,
For being in humidification mode and in △ H in air conditioner<In the case of 0, send for opening the 4th air outlet, close the 3rd air-out
The control signal of mouth.
By the control method and system of the air conditioner air outlet folding of the application, it will be generated and controlled according to air blowing control condition
The control signal of air port folding is made, and according to the corresponding air outlet of control signal closure or openness, using air blowing control condition
The folding of dynamic control difference air outlet, solve is caused due to air conditioner air outlet one direction air supply mode in the prior art
The problem of blowing range is small, realizes the dynamic air supply of air conditioner air outlet, and then expands the air-supply model of air conditioner room unit
Enclose, improve the comfortableness of air-conditioning internal machine blowing feeling.
Brief description of the drawings
Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this hair
Bright schematic description and description is used to explain the present invention, does not constitute inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the structural representation of the control system of air conditioner air outlet folding according to embodiments of the present invention;
Fig. 2 is the structural representation of the air outlet of the embodiment according to Fig. 1;
Fig. 3 is the detailed construction schematic diagram of the air outlet of the embodiment according to Fig. 2;
Fig. 4 is the flow chart of the control method of air conditioner air outlet folding according to embodiments of the present invention;
Fig. 5 is the detailed flow chart of the embodiment of the present invention according to Fig. 4;And
Fig. 6 is the structural representation of the control device of air conditioner air outlet folding according to embodiments of the present invention.
Embodiment
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combination.Describe the present invention in detail below with reference to the accompanying drawings and in conjunction with the embodiments.
Fig. 1 is the structural representation of the control system of air conditioner air outlet folding according to embodiments of the present invention.Fig. 2 is root
According to the structural representation of the air outlet of the embodiment shown in Fig. 1.Fig. 3 is the detailed of the air outlet of the embodiment according to Fig. 2
Structural representation.
As shown in Figure 1, Figure 2 and Figure 3, the system includes:Multiple air outlets, are connected with actuator respectively;Controller, is used for
Control signal for controlling air outlet folding is sent according to air blowing control condition;Detector, is connected with controller, for obtaining
Air blowing control condition, and air blowing control condition is sent to controller;Actuator, is connected with controller, for being believed according to control
Number it is turned on and off corresponding air outlet.
Using the control system of the air conditioner air outlet folding of the present invention, by the way that detector is connected with controller, control
Device sends control signal for controlling air outlet folding to actuator according to the air blowing control condition of detector acquisition, wherein,
Air blowing control condition can be the ambient humidity of the run time of air conditioner, the environment temperature of air conditioner or air conditioner, then hold
Row device is turned on and off corresponding air outlet according to control signal.Pass through the control system of the air conditioner air outlet folding of the application
System, controller sends the control signal for generating control air outlet folding to actuator according to air blowing control condition, and actuator is held
This corresponding air outlet of control signal closure or openness of row, using the folding of the different air outlets of air blowing control condition dynamic control,
Solve causes the problem of blowing range is small due to air conditioner air outlet one direction air supply mode in the prior art, realizes sky
The dynamic air supply of tune machine air outlet, and then the blowing range of air conditioner room unit is expanded, improve air-conditioning internal machine blowing feeling
Comfortableness.
In above-described embodiment of the application, detector can include:Timer, is connected with controller, for recording sky
The run time of tune machine.Specifically, in the case of run time of the air blowing control condition for air conditioner, timer record is opened
The run time of air conditioner, then sends the run time to controller.
According to above-described embodiment of the application, controller can include:First processor, is connected to timer and actuator
Between, for according to the run time that gets, according to predetermined temporal frequency send for open it is any one or more go out
The control signal in air port.Specifically, the first processor of controller is connected between timer and actuator, and first processor is obtained
The run time of the air conditioner of timer record is taken, is generated according to the run time and opens one or more air conditioner air outlets
Control signal, then transmits the signal to actuator, actuator is turned on and off corresponding air outlet according to this signal, with reality
Now to the dynamic control of the folding of the air outlet of air conditioner, so that the air-out of dynamic control air outlet.
Wherein, as shown in figure 3, in the case that the air outlet of machine includes four air outlets in air conditioner, in air-conditioning
The front panel of machine, four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, four air outlet distributions
In on the face of four, the upper and lower, left and right of machine in cuboid.
Specifically, in the above embodiment of the present invention, it is located at after air-conditioning start, air conditioner enters air supply pattern, opens
Timer, records the run time of air conditioner, air conditioner is into being the t1 moment at the time of air supply pattern, and hereafter first processor is every
The control signal that any one or more air outlets of control open the closing of other air outlets is sent every predetermined temporal frequency.
For example, every being the t2 moment after 1 △ t time interval, then every being the t3 moment after 1 △ t time interval, then every 1 △ t time
It is the t4 moment behind interval, then every (in the case where air outlet is four, every 4 △ t are a circulation after 1 △ t time interval
Cycle), then, timer is returned to the t1 moment, and sends control signal according to time interval for △ t temporal frequency, so
Circulation is gone down.Wherein, △ t (be able to can be drafted in the present embodiment depending on the type and use environment according to different air conditioners
Temporal frequency is 10s~20s), each moment sends the control signal of control air outlet folding.
In above-described embodiment of the application, first processor can include:First sub-processor, be connected to timer with
Between actuator, for according to the run time got, being sent according to predetermined temporal frequency for opening any one successively
The control signal of individual air outlet;Or second sub-processor, it is connected between timer and actuator, for according to the fortune got
The row time, the control signal for opening any two air outlet successively is sent according to predetermined temporal frequency;Or the 3rd son at
Device is managed, is connected between timer and actuator, for according to the run time got, being sent according to predetermined temporal frequency
Control signal for opening any three air outlets successively;Or the 4th sub-processor, it is connected between timer and actuator,
For according to the run time got, being sent according to predetermined temporal frequency for opening any one or more air-out successively
The control signal of mouth.
Specifically, during the first sub-processor is performed, in the sub-processor of t1, t2, t3 and t4 moment first difference
Send the control signal for opening any one air outlet successively, not in the same time control signal unlatching air outlet it is specific
Content is referring to table 1:
Table 1
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 according to it is upper → under → left → right order, unlatching air outlet is sent successively
Control signal, it is equally possible that sending control signal successively using circular order:It is upper → right → under → left, under → it is upper →
Left → right, right → under → left → first-class.
Specifically, during the second sub-processor is performed, in the sub-processor of t1, t2, t3 and t4 moment second difference
Send the control signal for opening any two air outlet successively, not in the same time control signal unlatching air outlet it is specific
Content is referring to table 2:
Table 2
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 according to table 2 circular order, send successively open air outlet control
Signal, it is equally possible that sending control signal successively using circular order:Up and down → left and right, upper right → bottom right → bottom left →
The sequential combination of any two air outlet folding such as upper left.
Similarly, during the 3rd sub-processor is performed, in the sub-processor of t1, t2, t3 and t4 moment the 3rd difference
Send the control signal for opening any three air outlets successively, not in the same time control signal unlatching air outlet it is specific
Content is referring to table 3:
Table 3
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 according to table 3 circular order, send successively open air outlet control
Signal, it is equally possible that sending control signal successively using circular order:Upper lower-left → lower upper right, the upper left right side → bottom right are left
Etc. the sequential combination of any three air door foldings.
According to above-described embodiment, first processor can also send the control for opening four air outlets according to air blowing control condition
Signal processed.
Similarly, during the 4th sub-processor is performed, in the sub-processor of t1, t2, t3 and t4 moment the 4th difference
The control signal for opening any one or more air outlets is sent successively, in the not unlatching air outlet of control signal in the same time
Particular content referring to table 4, table 5 and table 6:
Table 4
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 |
As shown in table 4, table 5 and table 6, the 4th sub-processor can according to the circular order of any one in three tables, according to
It is secondary to send the control signal for opening air outlet.
In above-described embodiment of the application, detector can also include:Temperature sensor/humidity sensor, with control
Device is connected, for gathering current environmental temperature/humidity.It is the situation of environment temperature/humidity of air conditioner in air blowing control condition
Under, when air conditioner is in air supply pattern, temperature sensor/humidity sensor of air conditioner is opened, to gather the ring of air conditioner
Border temperature/humidity.
According to above-described embodiment of the application, temperature sensor includes the first temperature sensor and second temperature sensor,
Air conditioner includes first air outlet adjacent with the first temperature sensor and second air outlet adjacent with second temperature sensor,
Controller also includes:First calculator, is connected between the first temperature sensor and the 3rd calculator, at any time
Each temperature that the first temperature sensor is collected in section carries out calculating of averaging, to obtain the first temperature T1;Second calculates
Device, is connected between second temperature sensor and the 3rd calculator, for being adopted to second temperature sensor in section at any time
Each temperature collected carries out calculating of averaging, to obtain second temperature T2;3rd calculator, for being in system in air conditioner
In the case of heat pattern, the first temperature T1 and second temperature T2 is carried out to ask difference calculating to obtain △ T, wherein, △ T=T1-T2;The
Two processors, are connected between the 3rd calculator and actuator, for being in heating mode and △ T in air conditioner>0 situation
Under, send for opening the second air outlet, close the control signal of the first air outlet;3rd processor, is connected to the 3rd calculating
Between device and actuator, for being in heating mode and △ T in air conditioner<In the case of 0, send for opening the first air-out
Mouthful, close the control signal of the second air outlet;Fourth processor, is connected between the 3rd calculator and actuator, in sky
Tune machine is in refrigeration mode and △ T>In the case of 0, send for opening the first air outlet, close the control letter of the second air outlet
Number;5th processor, is connected between the 3rd calculator and actuator, for being in refrigeration mode and △ T in air conditioner<0
In the case of, send for opening the second air outlet, close the control signal of the first air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first temperature sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two temperature sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor have left air outlet and
Upper air outlet, the air outlet adjacent with second temperature sensor has right air outlet and lower air outlet.
Specifically, in the case where air conditioner is in heating mode, in ten minutes, calculate what is obtained in the first calculator
In the case that first temperature T1 calculates obtained second temperature T2 higher than the second calculator, second processor sends the right air-out of unlatching
Mouth and lower air outlet, close the control signal of left air outlet and upper air outlet, and the first obtained temperature is calculated in the first calculator
In the case that T1 calculates obtained second temperature T2 less than the second calculator, the 3rd processor sends the left air outlet of unlatching and above gone out
Air port, closes the control signal of right air outlet and lower air outlet.In the case where air conditioner is in refrigeration mode, calculated first
In the case that device calculates the second temperature T2 that the first obtained temperature T1 is obtained higher than the calculating of the second calculator, fourth processor hair
Go out to open left air outlet and upper air outlet, close the control signal of right air outlet and lower air outlet, calculated in the first calculator
To the first temperature T1 calculate obtained second temperature T2 less than the second calculator in the case of, it is right that the 5th processor sends unlatching
Air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet.
In above-described embodiment of the application, humidity sensor includes the first humidity sensor and the second humidity sensor,
Air conditioner includes threeth air outlet adjacent with the first humidity sensor and fourth air outlet adjacent with the second humidity sensor,
Controller includes:4th calculator, is connected between the first humidity sensor and the 6th calculator, for section at any time
Each humidity that interior first humidity sensor is collected carries out calculating of averaging, to obtain the first humidity H1;5th calculator,
It is connected between the first humidity sensor and the 6th calculator, for being collected to the second humidity sensor in section at any time
Each humidity average calculating, to obtain the second humidity H2;6th calculator, for the first humidity H1 and second
Humidity H2 carries out asking poor calculating, obtains △ H, wherein, △ H=H1-H2;6th processor, is connected to the 6th calculator and execution
Between device, for being in humidification mode and in △ H in air conditioner>In the case of 0, send for opening the 4th air outlet, close
The control signal of 3rd air outlet;7th processor, is connected between the 6th calculator and actuator, for being in air conditioner
Humidification mode and in △ H<In the case of 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet;The
Eight processor, is connected between the 6th calculator and actuator, for being in dehumidification mode and in △ H in air conditioner>0 situation
Under, send for opening the 3rd air outlet, close the control signal of the 4th air outlet;9th processor, is connected to the 6th calculating
Between device and actuator, for being in humidification mode in △ H in air conditioner<In the case of 0, send for opening the 4th air-out
Mouthful, close the control signal of the 3rd air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first humidity sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two humidity sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor have left air outlet and
Upper air outlet, the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.
Specifically, it is in air conditioner under humidification mode, calculating obtained the first humidity H1 in the 4th calculator is more than the
In the case that five calculators calculate the second obtained humidity H2, the 6th processor sends the right air outlet of unlatching and lower air outlet, closes
The control signal of left air outlet and upper air outlet is closed, the first obtained humidity H1 is calculated less than the 5th calculator in the 4th calculator
In the case of calculating the second obtained humidity H2, the 7th processor sends the left air outlet of unlatching and upper air outlet, closes right air-out
The control signal of mouth and lower air outlet.
In the above-described embodiments, it is under dehumidification mode, is in air conditioner under humidification mode in air conditioner, in the 4th meter
In the case that calculation device calculates the second humidity H2 that the first obtained humidity H1 is obtained more than the calculating of the 5th calculator, eight processor
The right air outlet of closing and lower air outlet are sent, the control signal of left air outlet and upper air outlet is opened, calculated in the 4th calculator
In the case that the first obtained humidity H1 is less than the second humidity H2 that the calculating of the 5th calculator is obtained, the 9th processor sends closing
Left air outlet and upper air outlet, open the control signal of right air outlet and lower air outlet.
Fig. 4 is the flow chart of the control method of air conditioner air outlet folding according to embodiments of the present invention.As shown in figure 4,
This method comprises the following steps:
Step S102, obtains air blowing control condition, and air blowing control condition includes:The run time of air conditioner, air conditioner
The ambient humidity of environment temperature or air conditioner.
Step S104, the control signal for controlling air outlet folding is sent according to air blowing control condition.
Step S106, corresponding air outlet is turned on and off according to control signal.
Using the control method of the air conditioner air outlet folding of the present invention, by the way that the air blowing control got is sent to control
Device processed, then sends the control signal for controlling air outlet folding according to the air blowing control condition, wherein, air blowing control condition
It can be the ambient humidity of the run time of air conditioner, the environment temperature of air conditioner or air conditioner, be opened finally according to control signal
Open or close corresponding air outlet.By the control method of the air conditioner air outlet folding of the application, according to air blowing control bar
Part will generate the control signal of control air outlet folding, and according to the corresponding air outlet of control signal closure or openness, using sending
The folding of wind control condition dynamic control difference air outlet, is solved in the prior art because air conditioner air outlet one direction is blown
Mode and cause the problem of blowing range is small, realize the dynamic air supply of air conditioner air outlet, and then expand in air conditioner chamber
The blowing range of machine, improves the comfortableness of air-conditioning internal machine blowing feeling.
According to above-described embodiment of the application, when air blowing control condition is the run time of air conditioner, air-supply is being obtained
Before control condition, method also includes:When air conditioner enters air supply pattern, timer is opened;Read the sky of timer record
The run time of tune machine.Specifically, in the case of run time of the air blowing control condition for air conditioner, timer record is opened
The run time of air conditioner, then sends the run time to controller.
In above-described embodiment of the application, air conditioner includes multiple air outlets, wherein, sent according to air blowing control condition
The step of control signal for controlling air outlet folding, includes:According to the run time got, according to predetermined time frequency
Rate sends the control signal for opening any one or more air outlets.
Specifically, after the run time of air conditioner of timer record is got, controller is according to the run time
The control signal of one or more air conditioner air outlets is opened in generation, is then turned on and off corresponding air-out according to this signal
Mouthful, to realize the dynamic control of the folding to the air outlet of air conditioner, so that the air-out of dynamic control air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine.
Specifically, in the above embodiment of the present invention, it is located at after air-conditioning start, air conditioner enters air supply pattern, opens
Timer, records the run time of air conditioner, and air conditioner is the t1 moment at the time of entering air supply pattern, hereafter when predetermined
Between frequency send the control signal that any one or more air outlets of control open the closing of other air outlets.For example, every 1
After individual △ t time intervals be the t2 moment, then every after 1 △ t time interval be the t3 moment, then every after 1 △ t time interval be t4
Moment, then every (in the case where air outlet is four, every 4 △ t are cycle period) after 1 △ t time interval, so
Afterwards, timer is returned to the t1 moment, and sends control signal according to time interval for △ t temporal frequency, and so circulation is gone down.
Wherein, △ t can depending on the type and use environment according to different air conditioners (in the present embodiment can using block out time frequency as
10s~20s), each moment sends the control signal of control air outlet folding.
According to above-described embodiment of the application, according to the run time got, use is sent according to predetermined temporal frequency
Include the step of the control signal of any one or more air outlets is opened:According to the run time got, according to predetermined
Temporal frequency send control signal for opening any one air outlet successively;Or according to the run time got, press
The control signal for opening any two air outlet successively is sent according to predetermined temporal frequency;Or during according to the operation got
Between, send the control signal for opening any three air outlets successively according to predetermined temporal frequency;Or according to getting
Run time, the control signal for opening any one or more air outlets successively is sent according to predetermined temporal frequency.
Specifically, according to the run time got, sent according to predetermined temporal frequency for opening any one successively
The step of control signal of individual air outlet, can include:Sent successively respectively in t1, t2, t3 and t4 moment controller for opening
The control signal of any one air outlet, not in the same time control signal unlatching air outlet particular content referring to table 7:
Table 7
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 according to it is upper → under → left → right order, execution sends unlatching any one air outlet successively
Control signal the step of, it is equally possible that sending control signal successively using circular order:It is upper → right → under → it is left, under
→ upper → left → right, right → under → left → first-class.
Specifically, according to the run time got, sent according to predetermined temporal frequency for opening any two successively
The step of control signal of each and every one air outlet, can include:Sent successively respectively in t1, t2, t3 and t4 moment controller for opening
Open the control signal of any one air outlet, not in the same time control signal unlatching air outlet particular content referring to table 8:
Table 8
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | Open | Open | Close | Close |
t2 | Close | Open | Open | Close |
t3 | Close | Close | Open | Open |
t4 | Open | Close | Close | Open |
Specifically, can according to table 8 circular order, perform send successively open any two air outlet control signal
The step of, it is equally possible that sending control signal successively using circular order:Up and down → left and right, upper right → bottom right → bottom left
The sequential combination of any two air outlet folding such as → upper left.
Similarly, according to the run time got, sent according to predetermined temporal frequency for opening any three successively
The step of control signal of individual air outlet, can include:Sent successively respectively in t1, t2, t3 and t4 moment controller for opening
The control signal of any one air outlet, not in the same time control signal unlatching air outlet particular content referring to table 9:
Table 9
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | Open | Open | Open | Close |
t2 | Close | Open | Open | Open |
t3 | Open | Close | Open | Open |
t4 | Open | Open | Close | Open |
Specifically, can according to table 9 circular order, perform and send the control signal of opening any three air outlets successively
The step of, it is equally possible that sending control signal successively using circular order:Upper lower-left → lower upper right, the upper left right side → bottom right
The sequential combination of left any three air door foldings of grade.
According to above-described embodiment, the control signal for opening four air outlets can also be sent according to air blowing control condition.
Similarly, according to the run time got, sent according to predetermined temporal frequency for opening any one successively
The step of control signal of individual or multiple air outlets, can include:Use is sent successively respectively in t1, t2, t3 and t4 moment controller
In open any one air outlet control signal, not in the same time control signal unlatching air outlet particular content referring to table
10th, table 11 and table 12:
Table 10
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 |
Specifically, can according to the circular order of any one in three tables, perform send successively unlatching any one or
The control signal of multiple air outlets.
In above-described embodiment of the application, when air blowing control condition is environment temperature/humidity of air conditioner, obtaining
Before air blowing control condition, method can also comprise the following steps:When air conditioner enters air supply pattern, start-up temperature sensing
Device/humidity sensor;The humidity that the current environmental temperature or humidity sensor that reading temperature sensor is collected are collected.Specifically
Ground, in the case where air blowing control condition is environment temperature/humidity of air conditioner, when air conditioner is in air supply pattern, is opened
Temperature sensor/humidity sensor of air conditioner, to gather environment temperature/humidity of air conditioner.
According to above-described embodiment of the application, temperature sensor includes the first temperature sensor and second temperature sensor,
Air conditioner includes first air outlet adjacent with the first temperature sensor and second air outlet adjacent with second temperature sensor,
Wherein, the step of generating the control signal for controlling air outlet folding according to air blowing control condition includes:To in section at any time
Each temperature that first temperature sensor is collected carries out calculating of averaging, to obtain the first temperature T1;To at any time
Each temperature that second temperature sensor is collected in section carries out calculating of averaging, to obtain second temperature T2;To the first temperature
Degree T1 and second temperature T2 carries out asking poor calculating, obtains △ T, wherein, △ T=T1-T2;Heating mode and △ are in air conditioner
T>In the case of 0, send for opening the second air outlet, close the control signal of the first air outlet;It is in and heats in air conditioner
Pattern and △ T<In the case of 0, send for opening the first air outlet, close the control signal of the second air outlet;In air conditioner
In refrigeration mode and △ T>In the case of 0, send for opening the first air outlet, close the control signal of the second air outlet;
Refrigeration mode and △ T are in air conditioner<In the case of 0, send for opening the second air outlet, close the control of the first air outlet
Signal processed;In the case of △ T=0, continue to keep the folding of the air outlet of air conditioner.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first temperature sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two temperature sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor have left air outlet and
Upper air outlet, the air outlet adjacent with second temperature sensor has right air outlet and lower air outlet.
Fig. 5 is the detailed flow chart of the embodiment of the present invention according to Fig. 4.Heated as shown in figure 5, being in air conditioner
In the case of pattern, this method embodiment can be achieved by the steps of:
Step S101, carries out △ T=T1-T2 calculating.Specifically, the first temperature sensor was collected in ten minutes
The environment temperature of air conditioner average, obtain the first temperature T1;First temperature sensor was collected in ten minutes
The environment temperature of air conditioner is averaged, and obtains the first temperature T1;Then △ T=T1-T2 are calculated.
Step S103, judges whether △ T are more than 0.Specifically, in △ T>In the case of 0, send for opening the second air-out
Mouthful, close the control signal of the first air outlet;In △ T<In the case of 0, send for opening the first air outlet, close second and go out
The control signal in air port.Specifically, in the case where the first temperature T1 is higher than second temperature T2, the right air outlet of unlatching is sent with
Air outlet, closes the control signal of left air outlet and upper air outlet, in the case where the first temperature T1 is less than second temperature T2, the
Three processors send the left air outlet of unlatching and upper air outlet, close the control signal of right air outlet and lower air outlet.
In the above-described embodiments, in the case where air conditioner is in refrigeration mode, it is higher than second temperature in the first temperature T1
In the case of T2, the left air outlet of unlatching and upper air outlet are sent, the control signal of right air outlet and lower air outlet is closed, first
In the case that temperature T1 is less than second temperature T2, the 5th processor sends the right air outlet of unlatching and lower air outlet, closes left air-out
The control signal of mouth and upper air outlet.
In above-described embodiment of the application, humidity sensor includes the first humidity sensor and the second humidity sensor,
Air conditioner includes threeth air outlet adjacent with the first humidity sensor and fourth air outlet adjacent with the second humidity sensor,
Wherein, the step of generating the control signal for controlling air outlet folding according to air blowing control condition includes:To in section at any time
Each humidity that first humidity sensor is collected carries out calculating of averaging, to obtain the first humidity H1;To at any time
Each humidity that the second humidity sensor is collected in section carries out calculating of averaging, to obtain the second humidity H2;It is wet to first
Degree H1 and the second humidity H2 carries out asking poor calculating, obtains △ H, wherein, △ H=H1-H2;In △ H>In the case of 0, sending is used for
The 4th air outlet is opened, the control signal of the 3rd air outlet is closed;In △ H<In the case of 0, send for opening the 3rd air-out
Mouthful, close the control signal of the 4th air outlet;In the case of △ H=0, continue to keep the folding of the air outlet of air conditioner.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first humidity sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two humidity sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor have left air outlet and
Upper air outlet, the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.
Specifically, the embodiment can be achieved by the steps of:It is in air conditioner under humidification mode, in the first humidity
In the case that H1 is more than the second humidity H2, unlatching right air outlet and lower air outlet is sent, left air outlet and upper air outlet is closed
Control signal, in the case where the first humidity H1 is less than the second humidity H2, sends the left air outlet of unlatching and upper air outlet, closes right
The control signal of air outlet and lower air outlet;
In the above embodiment of the present invention, it is under dehumidification mode, is in air conditioner under humidification mode in air conditioner,
In the case where the first humidity H1 is more than the second humidity H2, send closing right air outlet and lower air outlet, open left air outlet and
The control signal of upper air outlet, in the case where the first humidity H1 is less than the second humidity H2, sends the left air outlet of closing and above goes out
Air port, opens the control signal of right air outlet and lower air outlet.
It should be noted that can be in such as one group computer executable instructions the step of the flow of accompanying drawing is illustrated
Performed in computer system, and, although logical order is shown in flow charts, but in some cases, can be with not
The order being same as herein performs shown or described step.
Fig. 6 is the flow chart of the control device of air conditioner air outlet folding according to embodiments of the present invention.As shown in fig. 6,
The device includes:First acquisition module 10, for obtaining air blowing control condition, air blowing control condition includes:The operation of air conditioner
Time, the environment temperature of air conditioner, the ambient humidity of air conditioner;First control module 30, for being sent out according to air blowing control condition
Go out the control signal for controlling air outlet folding;Performing module 50, it is corresponding for being turned on and off according to control signal
Air outlet.
Using the control device of the air conditioner air outlet folding of the present invention, mould is obtained according to first by the first control module
The air blowing control condition that block is got sends the control signal for controlling air outlet folding, wherein, air blowing control condition can be with
It is the ambient humidity of the run time of air conditioner, the environment temperature of air conditioner or air conditioner, then performing module is believed according to control
Number it is turned on and off corresponding air outlet.By the control device of the air conditioner air outlet folding of the application, controlled according to air-supply
Condition processed controls the control signal of air outlet folding by generating, and according to the corresponding air outlet of control signal closure or openness, adopts
With the folding of the different air outlets of air blowing control condition dynamic control, solve in the prior art due to air conditioner air outlet one direction
Air supply mode and cause the problem of blowing range is small, realize the dynamic air supply of air conditioner air outlet, and then expand air conditioner
The blowing range of indoor set, improves the comfortableness of air-conditioning internal machine blowing feeling.
According to above-described embodiment of the application, when air blowing control condition is the run time of air conditioner, first is being performed
Before acquisition module 10, device also includes:First opening module, for when air conditioner enters air supply pattern, opening timer;
First read module, the run time of the air conditioner for reading timer record.
In above-described embodiment of the application, air conditioner includes multiple air outlets, wherein, the first control module 30 includes:
First sub- control module, for according to the run time got, being sent according to predetermined temporal frequency for opening any one
The control signal of individual or multiple air outlets.Specifically, the air conditioner that the first sub- control module is read according to the first read module
Run time, the control signal of one or more air conditioner air outlets is opened according to predetermined temporal frequency generation, then will
The signal is sent to performing module 50, and performing module 50 is turned on and off corresponding air outlet according to this signal, to realize to sky
The dynamic control of the folding of the air outlet of tune machine, so that the air-out of dynamic control air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine.
Specifically, in the above embodiment of the present invention, it is located at after air-conditioning start, air conditioner enters air supply pattern, first
Opening module opens timer, and the first read module reads the run time of timer record air conditioner, and air conditioner enters air-supply
At the time of pattern be the t1 moment, hereafter the first sub- control module at every predetermined time frequency send one control any one or
Multiple air outlets open the control signal of other air outlets closing.For example, every after 1 △ t time interval be the t2 moment, then every
After 1 △ t time interval be the t3 moment, then every after 1 △ t time interval be the t4 moment, then every after 1 △ t time interval (
In the case that air outlet is four, every 4 △ t are cycle period), then, timer is returned to the t1 moment, and according to when
Between send control signal at intervals of △ t temporal frequency, so circulation is gone down.Wherein, △ t can be according to the machines of different air conditioners
Depending on type and use environment (in the present embodiment can be using block out time frequency as 10s~20s), each moment sends control air-out
The control signal of mouth folding.
According to above-described embodiment of the application, it is characterised in that the first sub- control module includes:First subprocessing module,
For according to the run time got, the control for opening any one air outlet successively to be sent according to predetermined temporal frequency
Signal processed;Or the second subprocessing module, for according to the run time got, according to predetermined temporal frequency send for according to
The secondary control signal for opening any two air outlet;Or the 3rd subprocessing module, for according to the run time got, according to
Predetermined temporal frequency sends the control signal for opening any three air outlets successively;Or the 4th subprocessing module, it is used for
According to the run time got, sent according to predetermined temporal frequency for opening any one or more air outlets successively
Control signal.
Specifically, during the first subprocessing module is performed, in t1, t2, t3 and t4 moment the first subprocessing module
The control signal for opening any one air outlet is sent successively respectively, in the not unlatching air outlet of control signal in the same time
Particular content is referring to table 13:
Table 13
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 subprocessing module can according to it is upper → under → left → right order, send open out successively
The control signal in air port, it is equally possible that sending control signal successively using circular order:It is upper → right → under → it is left, under →
Upper → left → right, right → under → left → first-class.
Specifically, during the second subprocessing module is performed, in t1, t2, t3 and t4 moment the second subprocessing module
The control signal for opening any two air outlet is sent successively respectively, in the not unlatching air outlet of control signal in the same time
Particular content is referring to table 14:
Table 14
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 subprocessing module can according to table 14 circular order, send open air outlet successively
Control signal, it is equally possible that sending control signal successively using circular order:Up and down → left and right, upper right → bottom right → under
The sequential combination of any two air outlet folding such as a left side → upper left.
Similarly, during the 3rd subprocessing module is performed, in the subprocessing module of t1, t2, t3 and t4 moment the 3rd
The control signal for opening any three air outlets is sent successively respectively, in the not unlatching air outlet of control signal in the same time
Particular content is referring to table 15:
Table 15
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 subprocessing module can according to table 15 circular order, send open air outlet successively
Control signal, it is equally possible that sending control signal successively using circular order:Upper lower-left → lower upper right, upper left are right → right
The sequential combination of any three air door foldings such as bottom left.
According to above-described embodiment, the first sub- control module can also send four air outlets of unlatching according to air blowing control condition
Control signal.
Similarly, during the 4th subprocessing module is performed, in the subprocessing module of t1, t2, t3 and t4 moment the 4th
The control signal for opening any one or more air outlets is sent successively respectively, the unlatching of control signal does not go out in the same time
The particular content in air port is referring to table 16, table 17 and table 18:
Table 16
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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
Moment | Upper air outlet | Left air outlet | Lower air outlet | Right air outlet |
T1 (original speed position) | 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 |
As shown in table 16, table 17 and table 18, the 4th subprocessing module can be suitable according to the circulation of any one in three tables
Sequence, sends the control signal for opening air outlet successively.
In above-described embodiment of the application, when air blowing control condition is the environment temperature of air conditioner, first is being performed
Before acquisition module 10, device also includes:Second opening module, for when air conditioner enters air supply pattern, start-up temperature to be passed
Sensor/humidity sensor;Second read module, for reading current environmental temperature/humidity that temperature sensor is collected.
Specifically, when air blowing control condition is the environment temperature of air conditioner, the second opening module enters in air conditioner to be sent
Start-up temperature sensor/humidity sensor during wind pattern, then the second read module read temperature sensor collect it is current
Environment temperature/humidity.
According to above-described embodiment of the application, temperature sensor includes the first temperature sensor and second temperature sensor,
Air conditioner includes first air outlet adjacent with the first temperature sensor and second air outlet adjacent with second temperature sensor,
Wherein, the first control module 30 includes:First computing module, for being collected to the first temperature sensor in section at any time
Each temperature average calculating, to obtain the first temperature T1;Second computing module, in section at any time
Each temperature that second temperature sensor is collected carries out calculating of averaging, to obtain second temperature T2;3rd computing module,
For carrying out asking difference calculating to obtain △ T to the first temperature T1 and second temperature T2, wherein, △ T=T1-T2;Second son control mould
Block, for being in heating mode and △ T in air conditioner>In the case of 0, send for opening the second air outlet, close first and go out
The control signal in air port;3rd sub- control module, for being in heating mode and △ T in air conditioner<In the case of 0, use is sent
In opening the first air outlet, the control signal of the second air outlet is closed;4th sub- control module, for being in refrigeration in air conditioner
Pattern and △ T>In the case of 0, send for opening the first air outlet, close the control signal of the second air outlet;5th son control
Molding block, for being in refrigeration mode and △ T in air conditioner<In the case of 0, send for opening the second air outlet, close the
The control signal of one air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first temperature sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two temperature sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first temperature sensor have left air outlet and
Upper air outlet, the air outlet adjacent with second temperature sensor has right air outlet and lower air outlet.
Specifically, in the case where air conditioner is in heating mode, in ten minutes, calculate and obtain in the first computing module
The first temperature T1 calculate obtained second temperature T2 higher than the second computing module in the case of, the second sub-controller sends unlatching
Right air outlet and lower air outlet, close the control signal of left air outlet and upper air outlet, calculate what is obtained in the first computing module
In the case that first temperature T1 calculates obtained second temperature T2 less than the second computing module, it is left that the 3rd sub-controller sends unlatching
Air outlet and upper air outlet, close the control signal of right air outlet and lower air outlet.The situation of refrigeration mode is in air conditioner
Under, obtained feelings of the first temperature T1 higher than the second temperature T2 that the calculating of the second computing module is obtained are calculated in the first computing module
Under condition, the 4th sub-controller sends the left air outlet of unlatching and upper air outlet, closes the control signal of right air outlet and lower air outlet,
Obtained situations of the first temperature T1 less than the second temperature T2 that the calculating of the second computing module is obtained is calculated in the first computing module
Under, the 5th sub-controller sends the right air outlet of unlatching 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 includes the first humidity sensor and the second humidity sensor,
Air conditioner includes threeth air outlet adjacent with the first humidity sensor and fourth air outlet adjacent with the second humidity sensor,
First control module 30 includes:4th computing module, it is each for what is collected to the first humidity sensor in section at any time
Individual humidity carries out calculating of averaging, to obtain the first humidity H1;5th computing module, in section at any time second
Each humidity that humidity sensor is collected carries out calculating of averaging, to obtain the second humidity H2;6th computing module, is used for
First humidity H1 and the second humidity H2 is carried out to ask poor calculating, △ H are obtained, wherein, △ H=H1-H2;6th sub- control module,
For in △ H>In the case of 0, send for opening the 4th air outlet, close the control signal of the 3rd air outlet;7th son control
Molding block, in △ H<In the case of 0, send for opening the 3rd air outlet, close the control signal of the 4th air outlet.
Wherein, in the case that the air outlet of machine includes four air outlets in air conditioner, in face of the front panel of air-conditioning internal machine,
Four air outlets are respectively upper air outlet, lower air outlet, left air outlet, right air outlet, and four air outlets are distributed in cuboid
On four, the upper and lower, left and right face of machine, random time section can be 10 minutes.
In above-described embodiment of the application, the first humidity sensor can be arranged on to the upper left corner of air-conditioning internal machine, the
Two humidity sensors are arranged on the lower right corner of air-conditioning internal machine, then the air outlet adjacent with the first humidity sensor have left air outlet and
Upper air outlet, the air outlet adjacent with the second humidity sensor has right air outlet and lower air outlet.
Specifically, the 4th computing module calculate obtained the first humidity H1 be more than the 5th computing module calculate obtain the
In the case of two humidity H2, the 6th sub- control module processor sends the right air outlet of unlatching and lower air outlet, closes left air outlet
With the control signal of upper air outlet, calculate the first obtained humidity H1 in the first calculator and calculate what is obtained less than the second calculator
In the case of second humidity H2, the 7th sub- control module sends the left air outlet of unlatching and upper air outlet, closes right air outlet with
The control signal of air outlet.
As can be seen from the above description, the present invention realizes following technique effect:Gone out by the air conditioner of the application
The control device of air port folding, the control signal for controlling air outlet folding will be generated according to air blowing control condition, and according to control
The corresponding air outlet of signal closure or openness, using the folding of the different air outlets of air blowing control condition dynamic control, is solved existing
Have in technology causes the problem of blowing range is small due to air conditioner air outlet one direction air supply mode, realizes air conditioner air outlet
The dynamic air supply of mouth, and then the blowing range of air conditioner room unit is expanded, improve the comfortableness of air-conditioning internal machine blowing feeling.
Obviously, those skilled in the art should be understood that above-mentioned each module of the invention or each step can be with general
Computing device realize that they can be concentrated on single computing device, or be distributed in multiple computing devices and constituted
Network on, alternatively, the program code that they can be can perform with computing device be realized, it is thus possible to they are stored
Performed in the storage device by computing device, either they are fabricated to respectively each integrated circuit modules or by they
In multiple modules or step single integrated circuit module is fabricated to realize.So, the present invention is not restricted to any specific
Hardware and software is combined.
The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area
For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies
Change, equivalent substitution, improvement etc., should be included in the scope of the protection.
Claims (11)
1. a kind of control method of air conditioner air outlet folding, it is characterised in that including:
Air blowing control condition is obtained, the air blowing control condition includes:The run time of air conditioner, the environment temperature of the air conditioner
The ambient humidity of degree or the air conditioner;
The control signal for controlling air outlet folding is sent according to the air blowing control condition;
Corresponding air outlet is turned on and off according to the control signal, to use the air blowing control condition dynamic control not
With the folding of air outlet;
The air conditioner includes multiple air outlets, wherein, sent according to the air blowing control condition for controlling air outlet folding
Control signal the step of include:According to the run time got, sent according to predetermined temporal frequency for opening
The control signal of any one or more air outlets.
2. according to the method described in claim 1, it is characterised in that when the operation that the air blowing control condition is the air conditioner
During the time, before air blowing control condition is obtained, methods described also includes:
When the air conditioner enters air supply pattern, timer is opened;
Read the run time of the air conditioner of the timer record.
3. method according to claim 2, it is characterised in that according to the run time got, according to predetermined
The step of temporal frequency sends the control signal for opening any one or more air outlets includes:
According to the run time got, according to predetermined temporal frequency send for open successively it is any one of go out
The control signal in air port;Or
According to the run time got, sent according to predetermined temporal frequency for opening to go out described in any two successively
The control signal in air port;Or
According to the run time got, sent according to predetermined temporal frequency for opening to go out described in any three successively
The control signal in air port;Or
In the case where the air outlet is four, according to the run time got, sent out according to predetermined temporal frequency
Go out the control signal for opening four air outlets successively.
4. according to the method described in claim 1, it is characterised in that when the environment that the air blowing control condition is the air conditioner
During temperature/humidity, before air blowing control condition is obtained, methods described also includes:
When the air conditioner enters air supply pattern, start-up temperature sensor/humidity sensor;
Read the current environmental temperature that the temperature sensor collects or the humidity that the humidity sensor is collected.
5. method according to claim 4, it is characterised in that the temperature sensor includes the first temperature sensor and the
Two temperature sensors, the air conditioner include first air outlet adjacent with first temperature sensor and with the described second temperature
The second adjacent air outlet of sensor is spent, wherein, generated according to the air blowing control condition and control the control of air outlet folding to believe
Number the step of include:
Calculating of averaging is carried out to each temperature that first temperature sensor is collected in section at any time, to obtain
First temperature T1;
Each temperature collected to the second temperature sensor in section at any time carries out calculating of averaging, to obtain
Second temperature T2;
The first temperature T1 and second temperature T2 is carried out to ask poor calculating, △ T are obtained, wherein, △ T=T1-T2, in institute
State air conditioner and be in heating mode and the △ T>In the case of 0, send for opening second air outlet, close described the
The control signal of one air outlet;
Heating mode and the △ T are in the air conditioner<In the case of 0, send for opening first air outlet, close
Close the control signal of second air outlet;
Refrigeration mode and the △ T are in the air conditioner>In the case of 0, send for opening first air outlet, close
Close the control signal of second air outlet;
Refrigeration mode and the △ T are in the air conditioner<In the case of 0, send for opening second air outlet, close
Close the control signal of first air outlet;
In the case of the △ T=0, continue to keep the folding of the air outlet of the air conditioner.
6. method according to claim 4, it is characterised in that the humidity sensor includes the first humidity sensor and the
Two humidity sensors, the air conditioner include threeth air outlet adjacent with first humidity sensor and with it is described second wet
The 4th adjacent air outlet of sensor is spent, wherein, generated according to the air blowing control condition and control the control of air outlet folding to believe
Number the step of include:
Calculating of averaging is carried out to each humidity that first humidity sensor is collected in section at any time, to obtain
First humidity H1;
Calculating of averaging is carried out to each humidity that second humidity sensor is collected in section at any time, to obtain
Second humidity H2;
The first humidity H1 and the second humidity H2 is carried out to ask poor calculating, △ H are obtained, wherein, △ H=H1-H2, in institute
State air conditioner and be in humidification mode and in the △ H>In the case of 0, send for opening the 4th air outlet, close described
The control signal of 3rd air outlet;
Humidification mode is in the air conditioner and in the △ H<In the case of 0, send for opening the 3rd air outlet,
Close the control signal of the 4th air outlet;
Dehumidification mode is in the air conditioner and in the △ H>In the case of 0, send for opening the 3rd air outlet,
Close the control signal of the 4th air outlet;
Dehumidification mode is in the air conditioner and in the △ H<In the case of 0, send for opening the 4th air outlet,
Close the control signal of the 3rd air outlet;
In the case of the △ H=0, continue to keep the folding of the air outlet of the air conditioner.
7. a kind of control system of air conditioner air outlet folding, it is characterised in that including:
Multiple air outlets, are connected with actuator respectively;
Controller, for sending the control signal for controlling air outlet folding according to air blowing control condition;
Detector, is connected with the controller, is sent for obtaining the air blowing control condition, and by the air blowing control condition
To the controller;
The actuator, is connected with the controller, for according to the control signal be turned on and off it is corresponding described in go out
Air port, with using the folding of the different air outlets of the air blowing control condition dynamic control;
The controller includes:First processor, is connected between timer and the actuator, for according to the fortune got
The row time, the control signal for opening any one or more air outlets is sent according to predetermined temporal frequency.
8. system according to claim 7, it is characterised in that the first processor includes:
First sub-processor, is connected between the timer and the actuator, during for according to the operation got
Between, send the control signal for opening any one of air outlet successively according to predetermined temporal frequency;Or
Second sub-processor, is connected between the timer and the actuator, during for according to the operation got
Between, send the control signal for opening air outlet described in any two successively according to predetermined temporal frequency;Or
3rd sub-processor, is connected between the timer and the actuator, during for according to the operation got
Between, send the control signal for opening any three air outlets successively according to predetermined temporal frequency;Or
4th sub-processor, is connected between the timer and the actuator, in the feelings that the air outlet is four
Under condition, according to the run time got, sent according to predetermined temporal frequency for opening four air-out successively
The control signal of mouth.
9. system according to claim 7, it is characterised in that the detector also includes:
Temperature sensor/humidity sensor, is connected with the controller, for gathering current environmental temperature/humidity.
10. system according to claim 9, it is characterised in that the temperature sensor include the first temperature sensor and
Second temperature sensor, the air conditioner includes first air outlet adjacent with first temperature sensor and with described second
The second adjacent air outlet of temperature sensor, the controller also includes:
First calculator, is connected between first temperature sensor and the 3rd calculator, in section at any time
Each temperature that first temperature sensor is collected carries out calculating of averaging, to obtain the first temperature T1;
Second calculator, is connected between the second temperature sensor and the 3rd calculator, at any time
Each temperature that the second temperature sensor is collected in section carries out calculating of averaging, to obtain second temperature T2;
3rd calculator, in the case of being in heating mode/refrigeration mode in the air conditioner, to the described first temperature
The degree T1 and second temperature T2 carries out asking difference calculating to obtain △ T, wherein, △ T=T1-T2;
Second processor, is connected between the 3rd calculator and the actuator, is heated for being in the air conditioner
Pattern and the △ T>In the case of 0, send for opening second air outlet, close the control letter of first air outlet
Number;
3rd processor, is connected between the 3rd calculator and the actuator, is heated for being in the air conditioner
Pattern and the △ T<In the case of 0, send for opening first air outlet, close the control letter of second air outlet
Number;
Fourth processor, is connected between the 3rd calculator and the actuator, for being in refrigeration in the air conditioner
Pattern and the △ T>In the case of 0, send for opening first air outlet, close the control letter of second air outlet
Number;
5th processor, is connected between the 3rd calculator and the actuator, for being in refrigeration in the air conditioner
Pattern and the △ T<In the case of 0, send for opening second air outlet, close the control letter of first air outlet
Number.
11. system according to claim 9, it is characterised in that the humidity sensor include the first humidity sensor and
Second humidity sensor, the air conditioner includes threeth air outlet adjacent with first humidity sensor and with described second
The 4th adjacent air outlet of humidity sensor, the controller includes:
4th calculator, is connected between first humidity sensor and the 6th calculator, in section at any time
Each humidity that first humidity sensor is collected carries out calculating of averaging, to obtain the first humidity H1;
5th calculator, is connected between first humidity sensor and the 6th calculator, at any time
Each humidity that second humidity sensor is collected in section carries out calculating of averaging, to obtain the second humidity H2;
6th calculator, for carrying out asking poor calculating to the first humidity H1 and the second humidity H2, obtains △ H,
Wherein, △ H=H1-H2;
6th processor, is connected between the 6th calculator and the actuator, for being in humidification in the air conditioner
Pattern and in the △ H>In the case of 0, send for opening the 4th air outlet, close the control of the 3rd air outlet
Signal;
7th processor, is connected between the 6th calculator and the actuator, for being in humidification in the air conditioner
Pattern and in the △ H<In the case of 0, send for opening the 3rd air outlet, close the control of the 4th air outlet
Signal;
Eight processor, is connected between the 6th calculator and the actuator, for being in dehumidifying in the air conditioner
Pattern and in the △ H>In the case of 0, send for opening the 3rd air outlet, close the control of the 4th air outlet
Signal;
9th processor, is connected between the 6th calculator and the actuator, for being in dehumidifying in the air conditioner
Pattern and in the △ H<In the case of 0, send for opening the 4th air outlet, close the control of the 3rd air outlet
Signal.
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CN106403043B (en) * | 2016-10-31 | 2021-09-21 | 芜湖美智空调设备有限公司 | Vertical through-flow air conditioner capable of ejecting air and control method |
CN106765540B (en) * | 2016-11-10 | 2022-06-14 | 青岛海尔空调器有限总公司 | Indoor unit of air conditioner |
CN107238173B (en) * | 2017-05-19 | 2018-12-07 | 珠海格力电器股份有限公司 | Air conditioner and its control method, device, storage medium and processor |
CN109323382A (en) * | 2018-10-08 | 2019-02-12 | 青岛阿迪可食品有限公司 | A kind of indoor temperature and humidity equilibrium regulator control system |
CN109737555B (en) * | 2018-12-29 | 2021-03-16 | 青岛海尔空调器有限总公司 | Control method and device of air conditioner, storage medium and computer equipment |
CN114704937A (en) * | 2022-02-18 | 2022-07-05 | 青岛海尔空调器有限总公司 | Bionic ecological wind method, control device, air conditioner and medium |
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JP4170676B2 (en) * | 2001-07-16 | 2008-10-22 | エルジー エレクトロニクス インコーポレイティド | Vane control device for ceiling type air conditioner and control method therefor |
KR100408066B1 (en) * | 2001-07-30 | 2003-12-03 | 엘지전자 주식회사 | Method for controlling vain of ceiling air conditioner |
CN1548842A (en) * | 2003-05-20 | 2004-11-24 | 乐金电子(天津)电器有限公司 | Air distributing regulator for ceiling air conditioner |
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CN101424434B (en) * | 2007-10-29 | 2010-04-14 | 珠海格力电器股份有限公司 | Air conditioner control method and air conditioner control device |
CN102252367B (en) * | 2010-05-17 | 2014-04-30 | 海尔集团公司 | Air conditioner with air outlet at lower part and defrosting and dehumidifying method for same |
CN202734147U (en) * | 2012-09-11 | 2013-02-13 | 珠海格力电器股份有限公司 | System for controlling opening/closing of air outlets of air conditioner |
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