CN108679790A - Air conditioner and its control method - Google Patents
Air conditioner and its control method Download PDFInfo
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- CN108679790A CN108679790A CN201810296684.2A CN201810296684A CN108679790A CN 108679790 A CN108679790 A CN 108679790A CN 201810296684 A CN201810296684 A CN 201810296684A CN 108679790 A CN108679790 A CN 108679790A
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- Prior art keywords
- indoor temperature
- air
- temperature
- air conditioner
- wind deflector
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
- F24F11/74—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
- F24F11/76—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by means responsive to temperature, e.g. bimetal springs
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Fluid Mechanics (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a kind of control method of air conditioner, the control method of the air conditioner includes the following steps:Obtain the aperture of second wind deflector;When the aperture is less than or equal to default aperture, the left side indoor temperature and right side indoor temperature of air conditioner described in real-time or timing acquisition;When the left side indoor temperature and the right side indoor temperature meet preset condition, the first wind deflector rotation is controlled according to the left side indoor temperature and the right side indoor temperature, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.The invention also discloses a kind of air conditioners.This invention ensures that temperature and right side temperature are consistent on the left of air conditioner, room is avoided phenomenon uneven in temperature occur.
Description
Technical field
The present invention relates to air conditioner technical field more particularly to a kind of air conditioner and its control methods.
Background technology
As the improvement of people's living standards, air-conditioning has become essential electric appliance during people generate.
In the case where being in the higher or lower weather of temperature as people, need to be freezed by air-conditioning or heated.In order to
Discomfort of the air quantity to body is reduced, ventilation hole is set on the wind deflector of producer's multi-air-conditioner, but since ventilation hole air output is smaller
Indoor cooling or heating rate can be influenced, so adding air outlet in the both sides of air conditioner to enhance the refrigeration or system of air conditioner
Thermal effect, but when air conditioner is from two side air-out mouth outlet air, the cooling-down effect or temperature rise effect of two side of air conditioner or so are inconsistent
It can cause indoor phenomenon uneven in temperature.
Invention content
The main purpose of the present invention is to provide a kind of air conditioner and its control methods, it is intended to solve two side of air conditioner or so
Cooling-down effect or the inconsistent problem of temperature rise effect.
To achieve the above object, the present invention provides a kind of air conditioner, and the air conditioner includes the outlet air being arranged in shell
The air duct and left side air outlet being connected to the exhaust air flue, right side air-out mouth and front-outlet mouth, the air conditioner is also
Including the first wind deflector being rotatably dispose in the exhaust air flue and be rotatably dispose in the front-outlet mouth second lead
Aerofoil, second wind deflector offer the ventilation hole being formed there through, and the left and right side of the air conditioner return air inlet is set respectively
It is equipped with temperature sensor, first wind deflector is used to control the outlet air of the left side air outlet and the right side air-out mouth
Amount, second wind deflector are used to control the air output of the front-outlet mouth, and the control method of the air conditioner includes following
Step:
Obtain the aperture of second wind deflector;
When the aperture is less than or equal to default aperture, the left side indoor temperature of air conditioner described in real-time or timing acquisition
And right side indoor temperature;
When the left side indoor temperature and the right side indoor temperature meet preset condition, according to the left side Indoor Temperature
Degree and the right side indoor temperature control the first wind deflector rotation, so that the left side indoor temperature and the right side room
The temperature gap of interior temperature is less than preset difference value.
Preferably, described that first wind deflector is controlled according to the left side indoor temperature and the right side indoor temperature
The step of rotation includes:
It is poor more than default to judge whether the temperature gap between the left side indoor temperature and the right side indoor temperature arrives
Value;
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, described in control
First wind deflector is towards the corresponding air outlet rotation in the high side of the air conditioner temperature, to increase the high side of air conditioner temperature
The air output of corresponding air outlet, wherein the air conditioner is in refrigeration mode.
Preferably, the left side indoor temperature of air conditioner and the step of right side indoor temperature described in the real-time or timing acquisition
After rapid, further include:
When the left side indoor temperature and the right side indoor temperature meet preset condition, temperature to be compared is obtained,
In, the temperature to be compared is indoor comfortable temperature or the set temperature of the air conditioner;
Judge whether the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared;
The corresponding indoor temperature in side is more than the temperature to be compared, and the corresponding interior in the other side in the air conditioner
When temperature is less than the temperature to be compared, execution is described to be controlled according to the left side indoor temperature and the right side indoor temperature
The step of first wind deflector rotation.
Preferably, rotation setting third wind deflector in the exhaust air flue, the third wind deflector for control it is described just
The air output of face air outlet, it is described to judge whether the left side indoor temperature and the right side indoor temperature are all higher than described wait for
After the step of comparing temperature, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Third wind deflector is rotated towards close to the direction of second wind deflector, to reduce the left side air outlet and the right side air-out
The air output of mouth, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Third wind deflector is rotated towards the direction far from second wind deflector, to increase the right side air-out mouth and the left side air outlet
Air output, wherein the air conditioner is in refrigeration mode.
Preferably, described to judge the left side indoor temperature and the right side indoor temperature wait comparing described in whether being all higher than
After the step of to temperature, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, to reduce the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in refrigeration mode.
Preferably, it is described judge the left side indoor temperature whether be equal to the right side indoor temperature the step of after, also
Including:
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, described in control
First wind deflector is towards the corresponding air outlet rotation in the low side of the air conditioner temperature, to increase the low side of the air conditioner temperature
The air output of corresponding air outlet, wherein the air conditioner is in heating mode.
Preferably, rotation setting third wind deflector in the exhaust air flue, the third wind deflector for control it is described just
The air output of face air outlet, it is described to judge whether the left side indoor temperature and the right side indoor temperature are all higher than described wait for
After the step of comparing temperature, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Third wind deflector is rotated towards the direction far from second wind deflector, to increase the left side air outlet and the right side air-out
The air output of mouth, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Third wind deflector opens rotation towards close to the direction of second wind deflector, is gone out with the left side with reducing the right side air-out mouth
The air output in air port, wherein the air conditioner is in heating mode.
Preferably, described to judge the left side indoor temperature and the right side indoor temperature wait comparing described in whether being all higher than
After the step of to temperature, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, to reduce the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in heating mode.
Preferably, the control method of the air conditioner further includes:
When the left side indoor temperature and the right side indoor temperature meet preset condition, the work of the air conditioner is determined
Operation mode, wherein the operating mode includes refrigeration mode and heating mode;
According to the operation mode, the left side indoor temperature and right side indoor temperature control first wind deflector and turn
It is dynamic, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
Preferably, the left side indoor temperature of air conditioner and the right side of the air conditioner described in the real-time or timing acquisition
After the step of indoor temperature, further include:
When the left side indoor temperature and the right side indoor temperature meet preset condition, the left side Indoor Temperature is calculated
The temperature gap with the right side indoor temperature is spent, and determines the angle of rotation of first wind deflector according to the temperature gap
Degree;
First wind-guiding is controlled according to the left side indoor temperature, the right side indoor temperature and the rotational angle
Plate rotates, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
Preferably, described when the left side indoor temperature and the right side indoor temperature meet preset condition, according to institute
It states left side indoor temperature and the step of right side indoor temperature controls first wind deflector rotation includes:
It is not equal to the right side indoor temperature in the left side indoor temperature, alternatively, in the left side indoor temperature and institute
When stating the temperature gap of right side indoor temperature less than preset difference value, the left side indoor temperature and the right side indoor temperature are judged
Meet preset condition, and first wind deflector is controlled according to the left side indoor temperature and the right side indoor temperature and is turned
It is dynamic.
To achieve the above object, the present invention also provides a kind of air conditioner, the air conditioner includes going out of being arranged in shell
The wind air duct and left side air outlet being connected to the exhaust air flue, right side air-out mouth and front-outlet mouth, the air conditioner
Further include the first wind deflector being rotatably dispose in the exhaust air flue and is rotatably dispose in the second of the front-outlet mouth
Wind deflector, second wind deflector offer the ventilation hole being formed there through, the left and right side difference of the air conditioner return air inlet
It is provided with temperature sensor, setting third wind deflector is rotated in the exhaust air flue, first wind deflector is described for controlling
The air output of left side air outlet and the right side air-out mouth, second wind deflector is for controlling going out for the front-outlet mouth
Air quantity, the third wind deflector are used to control the air output of the front-outlet mouth.
Preferably, driving baffle is respectively set in the left side air outlet and the right side air-out.
Preferably, the air conditioner further includes processor, memory and is stored on the memory and can be at the place
The control program of the air conditioner run on reason device, the control program of the air conditioner realize institute as above when being executed by the processor
The step of control method for the air conditioner stated.
Air conditioner provided by the invention and its control method, air conditioner obtain the aperture of the second wind deflector, are less than in aperture
Or when equal to default aperture, obtain the left side indoor temperature and right side indoor temperature of air conditioner, and left side indoor temperature with
When right side indoor temperature mismatches, the wind deflector rotation of air output of the control for controlling left side and right side air-out mouth so that
The left side indoor temperature of air conditioner is less than preset difference value with the temperature gap of right side indoor temperature, so that the left side of air conditioner
And the temperature on right side is consistent, and avoids interior and problem uneven in temperature occurs.
Description of the drawings
Fig. 1 be the present embodiments relate to air conditioner hardware architecture diagram;
Fig. 2 is the flow diagram of the control method first embodiment of air conditioner of the present invention;
Fig. 3 is the sectional view of air conditioner air-supply structure of the present invention;
Fig. 4 is the flow diagram of the control method second embodiment of air conditioner of the present invention;
Fig. 5 is the flow diagram of the control method 3rd embodiment of air conditioner of the present invention;
Fig. 6 is the flow diagram of the control method fourth embodiment of air conditioner of the present invention;
Fig. 7 is the structural schematic diagram of air conditioner of the present invention.
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific implementation mode
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The primary solutions of the embodiment of the present invention are:Obtain the aperture of second wind deflector;It is less than in the aperture
Or when equal to default aperture, the left side indoor temperature and right side indoor temperature of air conditioner described in real-time or timing acquisition;Institute
When indoor temperature meets preset condition with the right side indoor temperature on the left of stating, according to the left side indoor temperature and the right side
Side indoor temperature controls the first wind deflector rotation, so that the temperature of the left side indoor temperature and the right side indoor temperature
Difference is less than preset difference value.
In the prior art, in the case where being in the higher or lower weather of temperature as people, need by air-conditioning carry out refrigeration or
Person heats.In order to reduce discomfort of the air quantity to body, ventilation hole is set, but due to ventilation hole on the wind deflector of producer's multi-air-conditioner
Air output is smaller to influence indoor cooling or heating rate, so adding air outlet in the both sides of air conditioner to enhance air conditioner
Refrigeration or heating effect, but when air conditioner is from two side air-out mouth outlet air, the cooling-down effect of two side of air conditioner or so or heating
Effect is inconsistent to cause indoor phenomenon uneven in temperature.
The present invention provides a solution:Air conditioner can control the outlet air for controlling left side and right side air-out mouth
The wind deflector of amount rotates so that and the left side indoor temperature of air conditioner is less than preset difference value with the temperature gap of right side indoor temperature,
So that the left side of air conditioner and the temperature on right side are consistent, avoid interior and problem uneven in temperature occur.
As a kind of implementation, air conditioner can be as shown in Figure 1.
The embodiment of the present invention refers to air conditioner, and air conditioner includes:Processor 1001, such as CPU, memory
1002, communication bus 1003, the first wind deflector, the second wind deflector and third wind deflector, the exhaust air flue being arranged in shell
And left side air outlet, right side air-out mouth and the front-outlet mouth being connected to exhaust air flue.Wherein, the first wind deflector and
Three wind deflectors are rotatably dispose in air-conditioner shell in exhaust air flue, and the second wind deflector is rotatably dispose in front-outlet mouth, and first
Wind deflector is used to control the air output of the first air outlet and the second air outlet, the second wind deflector and third wind deflector for controlling
The air output of front-outlet mouth processed, the first wind deflector, the second wind deflector and third wind deflector pass through rotary shaft and motor respectively
Connection, air conditioner rotate wind deflector by driving motor, and communication bus 1003 is for realizing between motor, memory, processor
Connection communication.
Memory 1002 can be high-speed RAM memory, can also be stable memory (non-
), such as magnetic disk storage volatilememory.As shown in Figure 1, as in a kind of memory 1003 of computer storage media
It may include the control program of air conditioner;And processor 1001 can be used for calling the control of the air conditioner stored in memory 1002
Processing procedure sequence, and execute following operation:
Obtain the aperture of second wind deflector;
When the aperture is less than or equal to default aperture, the left side indoor temperature of air conditioner described in real-time or timing acquisition
And right side indoor temperature;
When the left side indoor temperature and the right side indoor temperature meet preset condition, according to the left side Indoor Temperature
Degree and the right side indoor temperature control the first wind deflector rotation, so that the left side indoor temperature and the right side room
The temperature gap of interior temperature is less than preset difference value.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
It is poor more than default to judge whether the temperature gap between the left side indoor temperature and the right side indoor temperature arrives
Value;
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, described in control
First wind deflector is towards the corresponding air outlet rotation in the high side of the air conditioner temperature, to increase the high side of air conditioner temperature
The air output of corresponding air outlet, wherein the air conditioner is in refrigeration mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature meet preset condition, temperature to be compared is obtained,
In, the temperature to be compared is indoor comfortable temperature or the set temperature of the air conditioner;
Judge whether the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared;
The corresponding indoor temperature in side is more than the temperature to be compared, and the corresponding interior in the other side in the air conditioner
When temperature is less than the temperature to be compared, execution is described to be controlled according to the left side indoor temperature and the right side indoor temperature
The step of first wind deflector rotation.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Third wind deflector is rotated towards close to the direction of second wind deflector, to reduce the left side air outlet and the right side air-out
The air output of mouth, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Third wind deflector is rotated towards the direction far from second wind deflector, to increase the right side air-out mouth and the left side air outlet
Air output, wherein the air conditioner is in refrigeration mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, to reduce the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in refrigeration mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, described in control
First wind deflector is towards the corresponding air outlet rotation in the low side of the air conditioner temperature, to increase the low side of the air conditioner temperature
The air output of corresponding air outlet, wherein the air conditioner is in heating mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Third wind deflector is rotated towards the direction far from second wind deflector, to increase the left side air outlet and the right side air-out
The air output of mouth, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Third wind deflector opens rotation towards close to the direction of second wind deflector, is gone out with the left side with reducing the right side air-out mouth
The air output in air port, wherein the air conditioner is in heating mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, to reduce the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in heating mode.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature meet preset condition, the work of the air conditioner is determined
Operation mode, wherein the operating mode includes refrigeration mode and heating mode;
According to the operation mode, the left side indoor temperature and right side indoor temperature control first wind deflector and turn
It is dynamic, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When the left side indoor temperature and the right side indoor temperature meet preset condition, the left side Indoor Temperature is calculated
The temperature gap with the right side indoor temperature is spent, and determines the angle of rotation of first wind deflector according to the temperature gap
Degree;
First wind-guiding is controlled according to the left side indoor temperature, the right side indoor temperature and the rotational angle
Plate rotates, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
It is not equal to the right side indoor temperature in the left side indoor temperature, alternatively, in the left side indoor temperature and institute
When stating the temperature gap of right side indoor temperature less than preset difference value, the left side indoor temperature and the right side indoor temperature are judged
Meet preset condition, and first wind deflector is controlled according to the left side indoor temperature and the right side indoor temperature and is turned
It is dynamic.
The present embodiment obtains the aperture of the second wind deflector according to said program, air conditioner, is less than or equal in aperture default
When aperture, the left side indoor temperature and right side indoor temperature of air conditioner are obtained, and in left side indoor temperature and right side Indoor Temperature
When degree mismatches, the wind deflector rotation of air output of the control for controlling left side and right side air-out mouth a so that left side for air conditioner
The temperature gap of side indoor temperature and right side indoor temperature is less than preset difference value, so that the left side of air conditioner and right side
Temperature is consistent, and avoids interior and problem uneven in temperature occurs.
Based on above-mentioned hardware architecture, the embodiment of the control method of air conditioner of the present invention is proposed.
It is the first embodiment of the control method of air conditioner of the present invention, the control method of the air conditioner with reference to Fig. 2, Fig. 2
Include the following steps:
Step S10 obtains the aperture of second wind deflector;
In the present invention, air conditioner refers to the air conditioner with frequency-changeable compressor, and with reference to Fig. 3, air conditioner includes setting
Go out in the shell 10 and exhaust air flue 20 and left side air outlet being connect with exhaust air flue 20, right side air-out mouth and front
Air port 30 (left side and right side air-out mouth do not identify in figure 3), the interior rotation of exhaust air flue 20 is provided with the first wind deflector 21,
First wind deflector 21 can be swung in exhaust air flue with the air output of air outlet on the left of control and right side air-out mouth, front
The rotation of air outlet 30 is equipped with the second wind deflector 31, and air conditioner is equipped with rotary shaft 40, and rotary shaft 40 connects the second wind deflector 31, empty
The motor driving rotary shaft 40 in device is adjusted so that the closing of the second wind deflector 31 or opening front-outlet mouth, the second wind deflector 31
It is provided through the ventilation hole to be formed, is also rotated in exhaust air flue 20 and is equipped with third wind deflector 22, third wind deflector 22 can be closed
Or open exhaust air flue (when third wind deflector is vertical with the outlet air surface of exhaust air flue, is considered as the closing outlet air of third wind deflector
Air duct), the left side of the return air inlet of air conditioner and three o'clock wind are not provided with temperature sensor, indoor on the left of air conditioner to detect
Temperature and right side indoor temperature, so that it is determined that the left side cooling-down effect and right side cooling-down effect of air conditioner.Wherein, it first leads
Aerofoil is used to control the air output of left side and right side air-out mouth, and the second wind deflector is used to control the air output of front-outlet mouth.
In the present invention, air conditioner is provided with calm sense pattern, anti-blow-through pattern, gentle breeze sense pattern, under Three models
Second wind deflector aperture it is smaller (in the second wind-guiding plate closing front-outlet mouth, the aperture of the second wind deflector be 0), at this point, by
It being exported by ventilation hole and opening in only a small amount of wind, remaining wind is stopped by the enclosure portion of the second wind deflector, to
So that wind is exported from left side air outlet and right side air-out mouth.It should be noted that left side air outlet and right side air-out mouth are set
Driving baffle is set to control closure and the unlatching of left and right sides air outlet, any one of Three models are being in when air conditioner
When, air conditioner drives the driving baffle of left and right sides air outlet so that left side and right side air-out mouth are opened, so that wind can be from
(certainly, user can directly set whether driving baffle is closed left side and right side air-out for left side and the output of right side air-out mouth
Mouthful).
The aperture of second wind deflector can be residing for the upper side edge by rotary shaft and the second wind deflector plane and rotary shaft with
α in plane included angle characterization namely Fig. 3 between plane residing for the upper side edge of front-outlet mouth.The aperture of second wind deflector may be used also
By the distance M in the upper side edge of the second wind deflector and the distance between the upper side edge characterization namely Fig. 3 of front-outlet mouth.
Step S20, when the aperture is less than or equal to default aperture, the left side of air conditioner described in real-time or timing acquisition
Indoor temperature and right side indoor temperature;
Pre-determined distance or default angle are equipped in air conditioner, and (pre-determined distance and predetermined angle can be any appropriate
Numerical value), if M is less than or equal to pre-determined distance or α less than or equal to predetermined angle, the aperture of the second wind deflector, which is less than, to be preset
Aperture, air conditioner judgement left side and right side air-out mouth air output is big namely air conditioner needs in real time or timing at this time
Whether the indoor temperature on detection right side and right side, the indoor temperature to determine two sides of left and right are consistent.
It should be noted that the left side indoor temperature of air conditioner is the left side temperature sensor detection of air conditioner return air inlet
Left side return air temperature, the right side indoor temperature of air conditioner are the right side return air of the right side temperature sensor detection of air conditioner return air inlet
Temperature.
Step S30, when the left side indoor temperature and the right side indoor temperature meet preset condition, according to the left side
Side indoor temperature and the right side indoor temperature control the first wind deflector rotation, so that the left side indoor temperature and institute
The temperature gap for stating right side indoor temperature is less than preset difference value.
When air conditioner freezes, and the indoor temperature and when the indoor temperature of left side on the right side of air conditioner acquisition, air conditioner can
It is rotated to adjust the first wind deflector with left side indoor temperature and right side indoor temperature, is obtained specifically, air conditioner calculates the last time
Left side indoor temperature and current left-side indoor temperature left side temperature gap, and calculate on the right side of the last time indoor temperature and
The right side temperature gap of current right side indoor temperature, then compares the size of left side temperature gap and right side temperature gap, on a left side
When side temperature gap is more than right side temperature gap, then illustrate that the cooling-down effect on the left of air conditioner is better than the cooling-down effect on right side, this
When, it can control the first wind deflector to be rotated towards right side air-out mouth, to increase the air output of right side air-out mouth;If left side temperature gap is small
When the temperature gap of right side, then illustrate that the left side cooling-down effect of air conditioner is weaker than right side cooling-down effect, at this point, the first wind-guiding of control
Plate is rotated towards left side air outlet, to increase the air quantity of left side air outlet;If left side temperature gap is identical as right side temperature gap,
The cooling-down effect in the left side and right side that illustrate air conditioner is consistent, and the first wind deflector need not be adjusted.It needs to illustrate
It is in the present embodiment, the temperature gap of right side indoor temperature and left side indoor temperature to be determined as air-conditioning less than preset difference value
Cooling-down effect is consistent with right side cooling-down effect namely small in right side indoor temperature and the temperature gap of left side indoor temperature on the left of device
When preset difference value, air conditioner stops the rotation of the first wind deflector of control, and preset difference value can be any appropriate numerical value, such as
2℃.It should be noted that the present invention is not limited to the refrigeration mode of air conditioner, under heating mode, air conditioner also can control first to lead
Aerofoil rotates, and is different from refrigeration mode, and air conditioner is under heating mode, controls wind deflector towards the low side pair of air conditioner temperature
The air outlet rotation answered, so that the temperature rise effect of two sides of left and right is consistent.
It should be noted that when left side indoor temperature is not equal to right side indoor temperature, air conditioner judgement left side is indoor
Temperature and right side indoor temperature meet preset condition (preset condition is wind deflector rotation condition), or when left side interior
When the temperature gap of temperature and right side indoor temperature is more than preset difference value, air conditioner judgement left side indoor temperature and right side are indoor
Temperature meets preset condition.
In technical solution provided in this embodiment, air conditioner obtains the aperture of the second wind deflector, is less than or waits in aperture
When default aperture, the left side indoor temperature and right side indoor temperature of air conditioner are obtained, and on left side indoor temperature and right side
When indoor temperature mismatches, the wind deflector rotation of air output of the control for controlling left side and right side air-out mouth so that air-conditioning
The left side indoor temperature of device and the temperature gap of right side indoor temperature are less than preset difference value so that the left side of air conditioner and
The temperature on right side is consistent, and avoids interior and problem uneven in temperature occurs.
It is the second embodiment of the control method of air conditioner of the present invention with reference to Fig. 4, Fig. 4, is based on first embodiment, the step
Suddenly S30 includes:
Step S31, judges whether the temperature gap between the left side indoor temperature and the right side indoor temperature arrives greatly
In preset difference value;
In the present embodiment, air conditioner calculates left side after detection obtains left side indoor temperature and right side indoor temperature
The indoor temperature gap of indoor temperature and right side, and judge whether temperature gap is more than preset difference value, to be tied according to judgement
The first wind deflector of fruit pair controls, and preset difference value can be any appropriate numerical value, such as 5 DEG C, temperature gap is absolute value.
Step S32, when the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value,
First wind deflector is controlled towards the corresponding air outlet rotation in the high side of the air conditioner temperature, to increase the air conditioner temperature
Spend the air output of the corresponding air outlet in high side, wherein the air conditioner is in refrigeration mode;
It is in refrigeration mode in air conditioner, and temperature gap be more than preset difference value when, air conditioner control the first wind deflector court
The corresponding air outlet rotation in the high side of air conditioner temperature, to increase going out for the air conditioner temperature corresponding air outlet in high side
Air quantity, specifically, it is more than preset difference value in temperature gap, and left side indoor temperature is higher than right side indoor temperature, air conditioner is then sentenced
Fixed left side cooling-down effect is weaker than right side cooling-down effect, is rotated towards left side air outlet at this point, air conditioner controls the first wind deflector, to
Increase the air-out volume of left side air outlet;It is more than preset difference value in temperature gap, and left side indoor temperature is less than right side Indoor Temperature
Degree, air conditioner then judge that left side cooling-down effect is better than right side cooling-down effect, go out towards right side at this point, air conditioner controls the first wind deflector
Air port rotates, to increase the air-out volume of right side air-out mouth (wind under heating mode is cold wind).
It should be noted that in the present embodiment, being not limited to refrigeration mode, heating mode is applied also for, in air conditioner
In heating mode, and when temperature gap is more than preset difference value, air conditioner control the first wind deflector towards air conditioner temperature it is low one
The corresponding air outlet rotation in side, to increase the air output of the corresponding air outlet in the low side of the air conditioner temperature, specifically, in temperature
It spends difference and is more than preset difference value, and left side indoor temperature is higher than right side indoor temperature, air conditioner then judges that left side temperature rise effect is high
In right side temperature rise effect, rotated towards right side air-out mouth at this point, air conditioner controls the first wind deflector, to increase right side air-out mouth
Air-out volume;It is more than preset difference value in temperature gap, and left side indoor temperature is less than right side indoor temperature, air conditioner then judges a left side
Side temperature rise effect is weaker than right side temperature rise effect, is rotated towards left side air outlet at this point, air conditioner controls the first wind deflector, to increase
The air-out volume of left side air outlet (wind under heating mode is hot wind).
Air conditioner can determine the first wind deflector according to the temperature gap of left side indoor temperature and right side indoor temperature
Rotational angle namely rotational angle and temperature gap have a mapping relations, and air conditioner is according to the mapping relations and temperature of storage
Difference directly determines the angle of the first wind deflector;Certainly, the rotation direction of the first wind deflector is compared by two side indoor temperature of left and right
As a result it determines, is refrigeration mode in air conditioner, and be more than right side indoor temperature, the rotation of the first wind deflector in left side indoor temperature
Direction is to be rotated to towards left side air outlet;It is refrigeration mode in air conditioner, and is less than right side indoor temperature in left side indoor temperature,
The rotation direction of first wind deflector is to be rotated towards right side air-out mouth;It is heating mode in air conditioner, and big in left side indoor temperature
In right side indoor temperature, the rotation direction of the first wind deflector is to be rotated to towards right side air-out mouth;It is heating mode in air conditioner, and
In left side, indoor temperature is less than right side indoor temperature, and the rotation direction of the first wind deflector is to be rotated towards left side air outlet.
In the present embodiment, air conditioner is only under heating mode or refrigeration mode, and the interior of two sides of left and right
Temperature meets condition, can just trigger air conditioner and control the rotation of the first wind deflector.It is understood that the present embodiment cannot be only used for
The air conditioner for only having refrigerating function, is also applied for heating and air conditioner, when air conditioner be heating and air conditioner when, air conditioner
It needs to be determined that its current operating mode, operating mode includes refrigeration mode and heating mode, then according to operating mode with
And the first wind deflector of indoor temperature pair of two sides of left and right controls, the control flow of the first wind deflector is consistent with above-mentioned flow,
This is no longer going to repeat them.
In technical solution provided in this embodiment, air conditioner compare left side indoor temperature and right side indoor temperature it is big
It is small, to control the rotation of the first wind deflector according to comparison result so that air conditioner can keep left side indoor temperature and the right side
Side indoor temperature is consistent, and room is avoided situation uneven in temperature occur, improves the experience of user.
It is the 3rd embodiment of the control method of air conditioner of the present invention with reference to Fig. 5, Fig. 5, is based on first or second embodiments
After the step S20, further include:
Step S40 is obtained to be compared when the left side indoor temperature and the right side indoor temperature meet preset condition
Temperature, wherein the temperature to be compared is indoor comfortable temperature or the set temperature of the air conditioner;
It is described to be compared to judge whether the left side indoor temperature and the right side indoor temperature are all higher than by step S50
Temperature;
Step S60, the corresponding indoor temperature in side is more than the temperature to be compared, and the other side pair in the air conditioner
When the indoor temperature answered is less than the temperature to be compared, execute described indoor according to the left side indoor temperature and the right side
Temperature controls the step of the first wind deflector rotation.
Step S70, when the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared,
It controls the third wind deflector to rotate towards close to the direction of second wind deflector, to reduce the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in refrigeration mode;
Step S80, when the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared,
It controls the third wind deflector to rotate towards the direction far from second wind deflector, to increase the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in refrigeration mode.
In the present embodiment, third wind deflector one end is fixed in exhaust air flue, when third wind deflector rotates, third wind-guiding
The other end of plate can be to the second wind deflector closer or far from most short at a distance from the second wind deflector in the other end of third wind deflector
When, third wind deflector will not stop the wind of exhaust air flue output, namely the wind direction of third wind deflector and the wind of wind wheel output at this time
It is parallel;In the wind that when the other end of third wind deflector is farthest at a distance from the second wind deflector, third wind deflector is exported with wind wheel
Wind direction it is vertical, with stop to greatest extent wind from front-outlet mouth export.
Right side indoor temperature and left side indoor temperature are compared with set temperature or comfort temperature in air conditioner
Comparison result is obtained, to control the rotation of third wind deflector according to comparison result.Specifically, in the second wind deflector of air conditioner
When meeting condition with the aperture of front-outlet mouth, air conditioner need to compare right side indoor temperature, left side indoor temperature and temperature to be compared
Degree (temperature to be compared is cryogenic temperature set by user or indoor comfortable temperature);When left side indoor temperature and right side room
Interior temperature is all higher than temperature to be compared, then judges that current indoor temperature is also not up to set temperature or indoor comfortable temperature, this
When, need the air output for increasing left side air outlet and right side air-out mouth, i.e. air conditioner to control third wind deflector towards far from second
The direction of wind deflector rotates, to increase the air output in left side and right side air-out mouth;When right side indoor temperature and left side room
Interior temperature is less than temperature to be compared, then judges current indoor temperature to be less than set temperature or indoor comfortable temperature, need at this time
Reduce left side air outlet and the air output on right side, i.e. air conditioner controls third wind deflector towards close to the direction of the second wind deflector
Rotation, to reduce the air output of left side air outlet and right side air-out mouth;If the corresponding indoor temperature in side is more than in air conditioner
Temperature to be compared, and when the corresponding indoor temperature in the other side is less than temperature to be compared, then follow the steps S30, namely control first
Wind-guiding is rotated towards the high side of temperature to increase the air output of the corresponding air outlet in the low side of temperature.
The rotational angle of third wind deflector can be by the temperature of temperature to be compared and left side indoor temperature or right side indoor temperature
It spends difference to determine, specifically, can be indoor on the temperature gap of temperature to be compared and left side indoor temperature, temperature to be compared and right side
Maximum temperature difference is to be compared as being stored in the parameter namely air conditioner for determining third wind deflector in the temperature difference difference of temperature
The mapping relations of the rotational angle of the temperature gap and third wind deflector of temperature and indoor temperature, air conditioner according to mapping relations with
And temperature gap can determine rotational angle.In addition, the rotation direction of third wind deflector can be determined by comparison result, if comparing knot
Fruit is that left side indoor temperature and right side indoor temperature are all higher than temperature to be compared, and the rotation direction of third wind deflector is towards far from the
The direction of two wind deflectors rotates;If comparison result, which is left side indoor temperature and right side indoor temperature, is respectively less than temperature to be compared,
The rotation direction of third wind deflector is rotated towards the direction far from the second wind deflector.
For air conditioner when entering refrigeration mode, left side indoor temperature and right side indoor temperature necessarily can be more than setting temperature
Degree is based on this, when the operation duration of air conditioner reaches preset duration (in preset duration, air conditioner can reach set temperature),
Left side indoor temperature and right side indoor temperature are compared with set temperature, third wind deflector is controlled as a result, from
And so that air conditioner adjusts the angle of third wind deflector without the moment, also saves the computing resource of air conditioner.Preset duration is (pre-
If when with upper limit value) can be set by the user, for example, user set 15min in, indoor temperature drops to 18 DEG C, at this point, air-conditioning
Device can determine the angle of the second wind deflector and exhaust air flue according to preset duration is default, and the angle is maintained in 15Min.
It should be noted that be all based on air conditioner in refrigeration mode for the rotation of above-mentioned third wind deflector, working as air-conditioning
When device is in heating mode, because the wind of air conditioner output is hot wind so that when left side indoor temperature and right side indoor temperature
When being all higher than temperature to be compared, the air output for reducing left side air outlet and right side air-out mouth, i.e. air conditioner is needed to control third
Wind deflector is rotated towards close to the second wind deflector, to reduce the air output in left side and right side air-out mouth;When right side indoor temperature
And left side indoor temperature is less than temperature to be compared, then judges current indoor temperature to be less than set temperature or indoor comfortable temperature
Degree needs to increase left side air outlet and the air output on right side at this time, i.e. air conditioner controls third wind deflector and led towards far from second
The direction of aerofoil rotates.
In technical solution provided in this embodiment, air conditioner according to left side indoor temperature and right side indoor temperature with set
Constant temperature degree or indoor comfortable temperature are compared, to be rotated to third wind deflector according to comparison result so that indoor
Temperature can reach temperature set by user, improve the experience of user.
It is the fourth embodiment of the control method of air conditioner of the present invention with reference to Fig. 6, Fig. 6, is based on 3rd embodiment, the step
After rapid S50, further include:
Step S90, when the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared,
Second wind deflector is controlled towards the upside edge direction rotation close to the front-outlet mouth, with reduce the left side air outlet with
And the air output of the right side air-out mouth, wherein the air conditioner is in refrigeration mode;
Step S100 is all higher than the temperature to be compared in the left side indoor temperature and the right side indoor temperature
When, it controls second wind deflector and is rotated towards the direction of the upper side edge far from the front-outlet mouth, gone out with increasing the right side
The air output in air port and the left side air outlet, wherein the air conditioner is in refrigeration mode.
In the present embodiment, one end of the second wind deflector is connect with the lower side of front-outlet mouth, is turned in the second wind deflector
When dynamic, the other end of the second wind deflector can far from or close to front-outlet mouth upper side edge, in the other end of the second wind deflector
When being overlapped with the upper side edge of front-outlet mouth, the second wind deflector completely encloses front-outlet mouth, in the other end of the second wind deflector
When remoter at a distance from the upper side edge of front-outlet mouth, the air output of front-outlet mouth is bigger.
Right side indoor temperature and left side indoor temperature are compared with set temperature or comfort temperature in air conditioner
Comparison result is obtained, to control the rotation of the second wind deflector according to comparison result.Specifically, in the second wind deflector of air conditioner
When meeting condition with the aperture of front-outlet mouth, air conditioner need to compare right side indoor temperature, left side indoor temperature and temperature to be compared
Degree (temperature to be compared is cryogenic temperature set by user or indoor comfortable temperature);When left side indoor temperature and right side room
Interior temperature is all higher than temperature to be compared, then judges that current indoor temperature is also not up to set temperature or indoor comfortable temperature, this
When, need the air output for increasing left side air outlet and right side air-out mouth, i.e. air conditioner to control the second wind deflector towards close to front
The direction of the upper side edge of air outlet rotates, to increase the air output in left side and right side air-out mouth;When right side indoor temperature with
And left side indoor temperature is less than temperature to be compared, then judges current indoor temperature to be less than set temperature or indoor comfortable temperature
Degree needs to reduce left side air outlet and the air output on right side at this time, i.e. air conditioner the second wind deflector of control goes out towards far from front
The direction of the upper side edge in air port rotates, to reduce the air output of left side air outlet and right side air-out mouth;If side in air conditioner
Corresponding indoor temperature be more than temperature to be compared, and the corresponding indoor temperature in the other side be less than temperature to be compared when, then execute step
Rapid S30, namely the first wind-guiding of control are rotated towards the high side of temperature to increase the air output of the corresponding air outlet in the low side of temperature.
The rotational angle of second wind deflector can be by the temperature of temperature to be compared and left side indoor temperature or right side indoor temperature
It spends difference to determine, specifically, can be indoor on the temperature gap of temperature to be compared and left side indoor temperature, temperature to be compared and right side
Maximum temperature difference is to be compared as being stored in the parameter namely air conditioner for determining the second wind deflector in the temperature difference difference of temperature
The mapping relations of the rotational angle of the temperature gap and the second wind deflector of temperature and indoor temperature, air conditioner according to mapping relations with
And temperature gap can determine rotational angle.In addition, the rotation direction of the second wind deflector can be determined by comparison result, if comparing knot
Fruit is left side indoor temperature and right side indoor temperature is all higher than temperature to be compared, and the rotation direction of the second wind deflector is towards close to just
The direction of the upper side edge of face air outlet rotates;It is respectively less than if comparison result is left side indoor temperature and right side indoor temperature and waits comparing
To temperature, the rotation direction of the second wind deflector is rotated towards the direction of the upper side edge far from front-outlet mouth.
It should be noted that be all based on air conditioner in refrigeration mode for the rotation of above-mentioned second wind deflector, working as air-conditioning
When device is in heating mode, because the wind of air conditioner output is hot wind so that when left side indoor temperature and right side indoor temperature
When being all higher than temperature to be compared, the air output for reducing left side air outlet and right side air-out mouth, i.e. air conditioner control second are needed
Wind deflector is towards the upside edge direction rotation far from front-outlet mouth, to reduce the air output in left side and right side air-out mouth;Working as
Right side indoor temperature and left side indoor temperature are less than temperature to be compared, then judge current indoor temperature be less than set temperature or
Person's indoor comfortable temperature needs to increase left side air outlet and the air output on right side at this time, i.e. air conditioner controls the second wind deflector
It is rotated towards the direction of the upper side edge close to front-outlet mouth.
In addition, making two side temperature of air conditioner or so consistent with the one of wind deflector of third wind deflector in the second wind deflector
When, one of them can be controlled simultaneously or controls the rotation of two wind deflectors simultaneously, if one of them cannot so that air conditioner is left
The temperature of right two sides is consistent, then two wind deflector cooperations of control is needed, to increased or decrease two sides of right side to greatest extent
The air output of air outlet.
In technical solution provided in this embodiment, air conditioner according to left side indoor temperature and right side indoor temperature with set
Constant temperature degree or indoor comfortable temperature are compared, to be rotated according to the second wind deflector of comparison result pair so that indoor
Temperature can reach temperature set by user, improve the experience of user.
The present invention also provides a kind of air conditioners.
With reference to Fig. 3, Fig. 3 is the sectional view of air conditioner air-out structure of the present invention, and air conditioner includes being set in shell 10
And exhaust air flue 20 and the 30 (left side of left side air outlet, right side air-out mouth and front-outlet mouth that is connect with exhaust air flue 20
And right side air-out mouth does not identify in figure 3), the interior rotation of exhaust air flue 20 is provided with the first wind deflector 21, the first wind deflector
21 can swing in exhaust air flue with the air output of air outlet on the left of control and right side air-out mouth, 30 turns of front-outlet mouth
It is dynamic to be equipped with the second wind deflector 31, and air conditioner is equipped with rotary shaft 40, rotary shaft 40 connects the second wind deflector 31, the electricity in air conditioner
Machine drives rotary shaft 40 so that the closing of the second wind deflector 31 or opening front-outlet mouth, the second wind deflector 31 are provided through
The ventilation hole of formation, also rotation is equipped with third wind deflector 22 in exhaust air flue 20, and third wind deflector 22 can be closed or is opened to
Wind air duct (when third wind deflector is vertical with the outlet air surface of exhaust air flue, is considered as third wind deflector closing exhaust air flue), air-conditioning
The left side of the return air inlet of device and three o'clock wind are not provided with temperature sensor, to detect indoor temperature and the right side on the left of air conditioner
Side indoor temperature, so that it is determined that the left side cooling-down effect and right side cooling-down effect of air conditioner.Wherein, the first wind deflector is for controlling
The air output of system left side and right side air-out mouth, the second wind deflector are used to control the air output of front-outlet mouth.
With reference to Fig. 7, Fig. 7 be containing left side air outlet 60, right side air-out mouth (right side air-out mouth is not shown in the figure 7) and
The schematic diagram of front-outlet mouth 70.
Left side air outlet and right side air-out mouth are respectively arranged with driving baffle (not indicated in figure), and air conditioner can drive
Driving baffle is to control closure and the unlatching of left side air outlet and right side air-out mouth.
Air conditioner includes processor, memory and the control for storing the air conditioner that can be run on a memory and on a processor
The step of processing procedure sequence, the control program of air conditioner realizes the control method of the air conditioner of embodiment as above when being executed by processor.
The embodiments of the present invention are for illustration only, can not represent the quality of embodiment.
It should be noted that herein, the terms "include", "comprise" or its any other variant are intended to non-row
His property includes, so that process, method, article or device including a series of elements include not only those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including this
There is also other identical elements in the process of element, method, article or device.
Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side
Method can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but in many cases
The former is more preferably embodiment.Based on this understanding, technical scheme of the present invention substantially in other words does the prior art
Going out the part of contribution can be expressed in the form of software products, which is stored in one as described above
In storage medium (such as ROM/RAM, magnetic disc, CD), including some instructions use so that a station terminal equipment (can be mobile phone,
Computer, server, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.
It these are only the preferred embodiment of the present invention, be not intended to limit the scope of the invention, it is every to utilize this hair
Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills
Art field, is included within the scope of the present invention.
Claims (14)
1. a kind of control method of air conditioner, which is characterized in that the air conditioner include the exhaust air flue that is arranged in shell with
And left side air outlet, right side air-out mouth and the front-outlet mouth being connected to the exhaust air flue, the air conditioner further include turning
Dynamic the first wind deflector being set in the exhaust air flue and the second wind deflector for being rotatably dispose in the front-outlet mouth, institute
It states the second wind deflector and offers the ventilation hole being formed there through, the left and right side of the air conditioner return air inlet is respectively arranged with temperature
Sensor, first wind deflector are used to control the air output of the left side air outlet and the right side air-out mouth, and described the
Two wind deflectors are used to control the air output of the front-outlet mouth, and the control method of the air conditioner includes the following steps:
Obtain the aperture of second wind deflector;
When the aperture is less than or equal to default aperture, in real time or the left side indoor temperature of air conditioner described in timing acquisition and
Right side indoor temperature;
When the left side indoor temperature and the right side indoor temperature meet preset condition, according to the left side indoor temperature with
And the right side indoor temperature controls the first wind deflector rotation, so that the left side indoor temperature and the right side Indoor Temperature
The temperature gap of degree is less than preset difference value.
2. the control method of air conditioner as described in claim 1, which is characterized in that it is described according to the left side indoor temperature with
And the right side indoor temperature controls the step of the first wind deflector rotation and includes:
Judge whether the temperature gap between the left side indoor temperature and the right side indoor temperature arrives and is more than preset difference value;
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, control described first
Wind deflector is corresponded to towards the corresponding air outlet rotation in the high side of the air conditioner temperature with increasing the high side of the air conditioner temperature
Air outlet air output, wherein the air conditioner is in refrigeration mode.
3. the control method of air conditioner as described in claim 1, which is characterized in that air-conditioning described in the real-time or timing acquisition
After the step of left side indoor temperature and right side indoor temperature of device, further include:
When the left side indoor temperature and the right side indoor temperature meet preset condition, temperature to be compared is obtained, wherein institute
It is indoor comfortable temperature or the set temperature of the air conditioner to state temperature to be compared;
Judge whether the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared;
The corresponding indoor temperature in side is more than the temperature to be compared, and the corresponding indoor temperature in the other side in the air conditioner
When less than the temperature to be compared, execute described according to described in the left side indoor temperature and right side indoor temperature control
The step of first wind deflector rotates.
4. the control method of air conditioner as claimed in claim 3, which is characterized in that rotation setting third in the exhaust air flue
Wind deflector, the third wind deflector is used to control the air output of the front-outlet mouth, described to judge the left side indoor temperature
And after right side indoor temperature the step of whether being all higher than the temperature to be compared, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, the third is controlled
Wind deflector is rotated towards close to the direction of second wind deflector, to reduce the left side air outlet and the right side air-out mouth
Air output, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, the third is controlled
Wind deflector is rotated towards the direction far from second wind deflector, to increase going out for the right side air-out mouth and the left side air outlet
Air quantity, wherein the air conditioner is in refrigeration mode.
5. the control method of air conditioner as claimed in claim 3, which is characterized in that it is described judge the left side indoor temperature with
And after right side indoor temperature the step of whether being all higher than the temperature to be compared, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, control described second
Wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, to reduce the left side air outlet and the right side
The air output of air outlet, wherein the air conditioner is in refrigeration mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the right side air-out mouth and the left side
The air output of side air-out mouth, wherein the air conditioner is in refrigeration mode.
6. the control method of air conditioner as claimed in claim 2, which is characterized in that described to judge that the left side indoor temperature is
After no the step of being equal to the right side indoor temperature, further include:
When the temperature gap of the left side indoor temperature and the right side indoor temperature is more than preset difference value, control described first
Wind deflector is corresponded to towards the corresponding air outlet rotation in the low side of the air conditioner temperature with increasing the low side of the air conditioner temperature
Air outlet air output, wherein the air conditioner is in heating mode.
7. the control method of air conditioner as claimed in claim 3, which is characterized in that rotation setting third in the exhaust air flue
Wind deflector, the third wind deflector is used to control the air output of the front-outlet mouth, described to judge the left side indoor temperature
And after right side indoor temperature the step of whether being all higher than the temperature to be compared, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, the third is controlled
Wind deflector is rotated towards the direction far from second wind deflector, to increase the left side air outlet and the right side air-out mouth
Air output, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, the third is controlled
Wind deflector opens rotation towards close to the direction of second wind deflector, to reduce the right side air-out mouth and the left side air outlet
Air output, wherein the air conditioner is in heating mode.
8. the control method of air conditioner as claimed in claim 5, which is characterized in that it is described judge the left side indoor temperature with
And after right side indoor temperature the step of whether being all higher than the temperature to be compared, further include:
When the left side indoor temperature and the right side indoor temperature are respectively less than the temperature to be compared, described in control
Second wind deflector is rotated towards the direction of the upper side edge close to the front-outlet mouth, to increase the left side air outlet and described
The air output of right side air-out mouth, wherein the air conditioner is in heating mode;
When the left side indoor temperature and the right side indoor temperature are all higher than the temperature to be compared, control described second
Wind deflector is rotated towards the direction of the upper side edge far from the front-outlet mouth, is gone out with the left side with reducing the right side air-out mouth
The air output in air port, wherein the air conditioner is in heating mode.
9. the control method of air conditioner as described in claim 1, which is characterized in that the control method of the air conditioner is also wrapped
It includes:
When the left side indoor temperature and the right side indoor temperature meet preset condition, the Working mould of the air conditioner is determined
Formula, wherein the operating mode includes refrigeration mode and heating mode;
According to the operation mode, the left side indoor temperature and right side indoor temperature control the first wind deflector rotation,
So that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
10. such as the control method of claim 1-9 any one of them air conditioners, which is characterized in that described to obtain in real time or periodically
Take the air conditioner left side indoor temperature and the air conditioner right side indoor temperature the step of after, further include:
When the left side indoor temperature and the right side indoor temperature meet preset condition, calculate the left side indoor temperature with
The temperature gap of the right side indoor temperature, and determine according to the temperature gap rotational angle of first wind deflector;
First wind deflector is controlled according to the left side indoor temperature, the right side indoor temperature and the rotational angle to turn
It is dynamic, so that the temperature gap of the left side indoor temperature and the right side indoor temperature is less than preset difference value.
11. such as the control method of claim 1-9 any one of them air conditioners, which is characterized in that described in the left side room
When interior temperature meets preset condition with the right side indoor temperature, according to the left side indoor temperature and the right side Indoor Temperature
Spending the step of controlling the first wind deflector rotation includes:
It is not equal to the right side indoor temperature in the left side indoor temperature, alternatively, in the left side indoor temperature and the right side
When the temperature gap of side indoor temperature is less than preset difference value, judge that the left side indoor temperature meets with the right side indoor temperature
Preset condition, and first wind deflector is controlled according to the left side indoor temperature and the right side indoor temperature and is rotated.
12. a kind of air conditioner, which is characterized in that the air conditioner include the exhaust air flue being arranged in shell and with it is described go out
Left side air outlet, right side air-out mouth and the front-outlet mouth of wind air duct connection, the air conditioner further includes being rotatably dispose in institute
It states the first wind deflector in exhaust air flue and is rotatably dispose in the second wind deflector of the front-outlet mouth, second wind-guiding
Plate offers the ventilation hole being formed there through, and the left and right side of the air conditioner return air inlet is respectively arranged with temperature sensor, institute
Rotation setting third wind deflector in exhaust air flue is stated, first wind deflector is for controlling the left side air outlet and the right side
The air output of side air-out mouth, second wind deflector are used to control the air output of the front-outlet mouth, the third wind deflector
Air output for controlling the front-outlet mouth.
13. air conditioner as claimed in claim 12, which is characterized in that the left side air outlet and right side air-out difference
Setting driving baffle.
14. air conditioner as described in claim 12 or 13, which is characterized in that the air conditioner further includes processor, memory
With the control program for being stored in the air conditioner that can be run on the memory and on the processor, the control of the air conditioner
The step of control method such as claim 1-11 any one of them air conditioners is realized when program is executed by the processor.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109827243A (en) * | 2019-03-29 | 2019-05-31 | 广东美的制冷设备有限公司 | Air conditioner indoor unit and air conditioner with it |
CN116045471A (en) * | 2022-12-22 | 2023-05-02 | 珠海格力电器股份有限公司 | Control method of wall-mounted air conditioner |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1465927A (en) * | 2002-07-05 | 2004-01-07 | 三星电子株式会社 | Method for controlling air conditioner |
JP2013011414A (en) * | 2011-06-30 | 2013-01-17 | Panasonic Corp | Air conditioner |
CN104165440A (en) * | 2014-08-07 | 2014-11-26 | 珠海格力电器股份有限公司 | Air conditioner air speed control method and system |
CN106545925A (en) * | 2016-12-05 | 2017-03-29 | 海信(山东)空调有限公司 | A kind of hanging air conditioner and its control method |
CN107763743A (en) * | 2017-11-30 | 2018-03-06 | 广东美的制冷设备有限公司 | Wall-hanging air conditioner indoor unit and there is its air conditioner |
-
2018
- 2018-04-03 CN CN201810296684.2A patent/CN108679790B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1465927A (en) * | 2002-07-05 | 2004-01-07 | 三星电子株式会社 | Method for controlling air conditioner |
JP2013011414A (en) * | 2011-06-30 | 2013-01-17 | Panasonic Corp | Air conditioner |
CN104165440A (en) * | 2014-08-07 | 2014-11-26 | 珠海格力电器股份有限公司 | Air conditioner air speed control method and system |
CN106545925A (en) * | 2016-12-05 | 2017-03-29 | 海信(山东)空调有限公司 | A kind of hanging air conditioner and its control method |
CN107763743A (en) * | 2017-11-30 | 2018-03-06 | 广东美的制冷设备有限公司 | Wall-hanging air conditioner indoor unit and there is its air conditioner |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109827243A (en) * | 2019-03-29 | 2019-05-31 | 广东美的制冷设备有限公司 | Air conditioner indoor unit and air conditioner with it |
CN116045471A (en) * | 2022-12-22 | 2023-05-02 | 珠海格力电器股份有限公司 | Control method of wall-mounted air conditioner |
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