CN104515263B - Air conditioner wind sweeping control method and system and air conditioner - Google Patents
Air conditioner wind sweeping control method and system and air conditioner Download PDFInfo
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- CN104515263B CN104515263B CN201410830941.8A CN201410830941A CN104515263B CN 104515263 B CN104515263 B CN 104515263B CN 201410830941 A CN201410830941 A CN 201410830941A CN 104515263 B CN104515263 B CN 104515263B
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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
- F24F11/77—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 controlling the speed of ventilators
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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
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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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
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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- Combustion & Propulsion (AREA)
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- General Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Atmospheric Sciences (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention relates to an air conditioner wind sweeping control method and system and an air conditioner. The method comprises obtaining the indoor current temperature, the set temperature and time length after the set temperature is changed; calculating the temperature difference between the set temperature and the current temperature; adjusting the air conditioner running method according to the time length after the set temperature is changed and the temperature difference, wherein the running method comprises the running mode and/or the running wind speed, and the running mode comprises the human body following mode and a human body yielding mode. By means of the control method and system and the air conditioner, the indoor current temperature, the set temperature and time length after the set temperature is changed are obtained, the difference between the set temperature and the current temperature is calculated, and the running method of the air conditioner can be adjusted according to the time length after the set temperature is changed and the temperature difference, accordingly, intelligent running control of air conditioner wind sweeping can be achieved.
Description
Technical field
The present invention relates to airconditioning control field, more particularly to a kind of air-conditioning sweeps wind control method, system and air-conditioning.
Background technology
Air-conditioning can adjust indoor temperature, so as to provide comfortable environment for indoor occupant.It is at full speed with national economy
Development, the quickening of modernization of industry paces, air-conditioning is widely applied in every profession and trade.The intelligent operation control of air-conditioning at present
The Based Intelligent Control for following human body to sweep wind can be realized, but it mainly considers that air door follows in time the human body that human body sweeps wind to follow mould
Formula.But human body follow the mode consider human body after into air conditioner surroundings in the different demands of different time, also cannot
Realize that air-conditioning sweeps the intelligent operation control of wind.
The content of the invention
Based on this, it is necessary to for realizing that air-conditioning sweeps the problem of the intelligent operation control of wind, there is provided a kind of air-conditioning is swept
Wind control method, system and air-conditioning.
A kind of air-conditioning sweeps wind control method, including step:
Obtain indoor Current Temperatures, design temperature and the time from after design temperature change long;
Calculate the temperature difference of the design temperature and the Current Temperatures;
The method of operation of air-conditioning is adjusted according to the time length and the temperature difference after changing from the design temperature;
Wherein, the method for operation includes operational mode and/or operating air velocity;The operational mode includes:Air door is timely
Follow human body sweep the human body follow the mode and air door of force one wind not to human body when sweep two grades when sweeping force one wind, air door to human body
The human body of wind avoids pattern;The operating air velocity controls the wind speed scale of the force one wind and the light breeze.
Wherein in one embodiment, the time length and the temperature of the basis from after design temperature change
The step of method of operation of difference adjustment air-conditioning, specifically includes:
According to the time length after changing from the design temperature and the size and the value of the temperature difference of preset duration
Whether it is 0, judges the operation phase that current air-conditioning is in;
According to the operation phase and the temperature difference and the relation of fiducial temperature scope adjust the operational mode and/or
The operating air velocity.
A kind of air-conditioning sweeps wind control system, including:
Acquisition module, for obtain indoor Current Temperatures, design temperature and from the design temperature change after time it is long;
Computing module, for calculating the temperature difference of the design temperature and the Current Temperatures;
Performing module, the time length and temperature difference adjustment air-conditioning for basis from after design temperature change
The method of operation;
Wherein, the method for operation includes operational mode and/or operating air velocity;The operational mode includes:Air door is timely
Follow human body sweep the human body follow the mode and air door of force one wind not to human body when sweep two grades when sweeping force one wind, air door to human body
The human body of wind avoids pattern;The operating air velocity controls the wind speed scale of the force one wind and the light breeze.
Wherein in one embodiment, the performing module is specifically included:
Operation phase judging unit, for the time length of the basis from after design temperature change and preset duration
Whether the value of size and the temperature difference is 0, judges the operation phase that current air-conditioning is in;
The method of operation judges performance element, for according to the operation phase and the temperature difference and fiducial temperature scope
Relation adjusts the operational mode and/or the operating air velocity.
Wherein in one embodiment, the operation phase includes the operation starting stage and operates steadily the stage;The fortune
Row order section judging unit, specifically for:
Judge the time length from after design temperature change whether less than the preset duration and the temperature difference
Value whether be 0;If from the design temperature change after the time length less than preset duration and the temperature difference value not
For 0, then air-conditioning is in the operation starting stage;If the time length from after design temperature change is not less than presetting
The value of the long or temperature difference is 0, then air-conditioning operates steadily the stage in described.
Wherein in one embodiment, the grade of the operating air velocity from it is high to low including:Super wind, normal wind, middling speed
Wind, low velocity wind and calm;The fiducial temperature scope includes the first temperature range;The method of operation judges performance element, tool
Body includes:
Temperature range judgment sub-unit, for when air-conditioning is in the operation primary stage, judging that the temperature difference is
It is no to belong to first temperature range;
Subelement is performed, if belonging to first temperature range, people described in control operation of air conditioner for the temperature difference
Body avoids pattern, and runs the normal wind;If the temperature difference is not belonging to first temperature range, operation of air conditioner is controlled
The human body follow the mode.
Wherein in one embodiment, the fiducial temperature scope also includes the second temperature range;
The temperature range judgment sub-unit, is additionally operable to judge whether the temperature difference belongs to second temperature range;
If the execution subelement is additionally operable to the temperature difference belongs to second temperature range, control operation of air conditioner institute
State normal wind;If the temperature difference is not belonging to second temperature range, super wind described in control operation of air conditioner.
Wherein in one embodiment, the fiducial temperature scope also includes the 3rd temperature range;
The temperature range judgment sub-unit, be additionally operable to when air-conditioning in it is described operate steadily the stage when, judge the temperature
Whether degree difference belongs to the 3rd temperature range;
The execution subelement, if being additionally operable to the temperature difference belongs to the 3rd temperature range, controls operation of air conditioner
The human body follow the mode, runs the normal wind;If the temperature difference is not belonging to the 3rd temperature range, air-conditioning is controlled
Run the human body and avoid pattern.
Wherein in one embodiment, the fiducial temperature scope also includes the 4th temperature range;
The temperature range judgment sub-unit, is additionally operable to judge whether the temperature difference belongs to the 4th temperature range;
The execution subelement, if being additionally operable to the temperature difference belongs to the 4th temperature range, controls operation of air conditioner
The low velocity wind;If the temperature difference is not belonging to the 4th temperature range, middling speed wind described in control operation of air conditioner.
A kind of air-conditioning, including the air-conditioning described in above-mentioned any one sweeps wind control system.
Above-mentioned air-conditioning sweeps wind control method, system and air-conditioning and obtains indoor Current Temperatures, design temperature and from design temperature
Time after change is long, calculates the temperature difference of design temperature and Current Temperatures, and can according to after changing from design temperature when
Between long and temperature difference adjust automatically air-conditioning the method for operation, can realize that air-conditioning sweeps the intelligent operation control of wind.
Description of the drawings
Fig. 1 is the flow chart that air-conditioning sweeps one embodiment in wind control method in the present invention;
Fig. 2 is the particular flow sheet that air-conditioning sweeps a step in wind control method in the present invention;
Fig. 3 is the particular flow sheet that air-conditioning sweeps another step in wind control method in the present invention;
Fig. 4 is the more specifically flow chart that air-conditioning sweeps a concrete steps in wind control method in the present invention;
Fig. 5 is another more specifically flow chart that air-conditioning sweeps in wind control method concrete steps in the present invention;
Fig. 6 is the structure chart that air-conditioning sweeps one embodiment in wind control system in the present invention;
Fig. 7 is the concrete cellular construction figure that air-conditioning sweeps a module in wind control system in the present invention;
Fig. 8 is the sub-unit structure figure that air-conditioning sweeps a concrete unit in wind control system in the present invention.
Specific embodiment
For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing
Give the preferred embodiment of the present invention.But, the present invention can be realized in many different forms, however it is not limited to herein
Described embodiment.On the contrary, the purpose for providing these embodiments is to make the understanding to the disclosure more saturating
It is thorough comprehensive.
Unless otherwise defined, all of technology used herein and scientific terminology and the technical field for belonging to the present invention
The implication that technical staff is generally understood that is identical.The term for being used in the description of the invention herein is intended merely to description tool
The purpose of the embodiment of body, it is not intended that of the invention in limiting.Term as used herein " and/or " include one or more phases
The arbitrary and all of combination of the Listed Items of pass.
As shown in figure 1, a kind of air-conditioning sweeps wind control method, including step:
S100:Obtain indoor Current Temperatures, design temperature and the time from after design temperature change long.Specifically include:
Obtain the indoor Current Temperatures of temperature sensor collection.
The design temperature that remote control or control panel are arranged is obtained, the design temperature is the temperature that user's setting is wanted to reach
Degree, or the human comfort's temperature arranged for system default.
It is obtained from the time after design temperature changes long.In the present embodiment, change from design temperature and start timing, obtain
Time from after design temperature change is long.In another embodiment, the initial time that design temperature changes first is obtained, then is obtained
Current time, is derived from the time after design temperature changes long by calculating current time and the time interval of initial time.
Herein design temperature changes includes situations below:A kind of situation is the process that air-conditioning is never opened.Air-conditioning
When not opening, design temperature is null value, after unlatching, even if user is not provided with, and directly using the default value of last time setting, its
Design temperature also there occurs change, and from null value default value has been changed over.Also a kind of situation is that air-conditioning has been switched on, but midway
Change design temperature.
S300:Calculate the temperature difference of design temperature and Current Temperatures.
In the present embodiment, temperature difference deducts Current Temperatures for design temperature.
S500:The method of operation of air-conditioning is adjusted according to the time length after changing from design temperature and temperature difference.
Wherein, the method for operation includes operational mode and/or operating air velocity.Operational mode includes:Air door follows in time human body
Sweep the human body follow the mode and air door of force one wind not to human body when the human body of light breeze is swept when sweeping force one wind, air door to human body
Avoidance pattern;Operating air velocity controls the wind speed of force one wind and light breeze.
In the present embodiment, operating air velocity controls the wind speed scale of force one wind.Wind speed of the wind speed of light breeze than force one wind
A low wind speed scale.
In another embodiment, the wind speed of force one wind and light breeze can voluntarily be configured by user.
The wind speed scale of operating air velocity from it is high to low including:Super wind, normal wind, middling speed wind, low velocity wind and calm.
Preferably, air-conditioning is realized, it is to avoid wind speed switches too fast drawing when wind speed switching is carried out in the way of the slow drop of slow liter
Play wind noise.
Above-mentioned air-conditioning sweeps wind control method, obtain indoor Current Temperatures, design temperature and from design temperature change after when
Between it is long, calculate the temperature difference of design temperature and Current Temperatures, and can be according to the time length and temperature after changing from design temperature
The method of operation of difference adjust automatically air-conditioning, can realize that air-conditioning sweeps the intelligent operation control of wind.
As shown in Fig. 2 according to the time length after changing from design temperature and the step of the method for operation of temperature difference adjustment air-conditioning
Suddenly, i.e. step S500, specifically includes:
S510:Whether the value according to the size and temperature difference of the time length after changing from design temperature and preset duration is 0,
Judge the operation phase that current air-conditioning is in.
Wherein, the operation phase is including the operation starting stage and operates steadily the stage.Preset duration can voluntarily be set by user
It is fixed, it is also possible to be set by system default.
S530:Operational mode and/or operation wind are adjusted with the relation of fiducial temperature scope according to operation phase and temperature difference
Speed.
Wherein, fiducial temperature scope includes the first temperature range and the second temperature range.The wind speed scale of operating air velocity from
It is high to low including:Super wind, normal wind, middling speed wind, low velocity wind and calm.
As shown in figure 3, being judged at current air-conditioning according to the size of the time length after changing from design temperature and preset duration
In operation phase the step of, i.e., step 510 specifically includes step:
S511:Judge whether the time length from after design temperature change is less than whether the value of preset duration and temperature difference is 0.
In the present embodiment, preset duration is set as:20 minutes.
S513:If from design temperature change after time length be not 0 less than the value of preset duration and temperature difference, at air-conditioning
In the operation starting stage.
S515:If the time length from after design temperature change is 0 not less than the value of preset duration or temperature difference, at air-conditioning
In the stage of operating steadily.
In another embodiment, step 510 specifically includes step:For
As shown in figure 4, adjusting operational mode and/or fortune with the relation of fiducial temperature scope according to operation phase and temperature difference
The step of sector-style speed, i.e. step S530, specifically include:
S531:When air-conditioning is in the operation primary stage, judge whether temperature difference belongs to the first temperature range.
When time length i.e. from after design temperature change is not 0 less than the value of preset duration and temperature difference, temperature difference is judged
Whether first temperature range is belonged to.First temperature range can be by user's sets itself, it is also possible to set by system default.
In the present embodiment, in cooling mode, the first temperature range is set as:Design temperature is not less than Current Temperatures 1
More than degree Celsius;In a heating mode, the first temperature range is set as:Design temperature is not higher than more than 2 degrees Celsius of Current Temperatures.
S532:If temperature difference belongs to the first temperature range, control operation of air conditioner human body avoids pattern, and normal operation
Wind.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
S533:If temperature difference is not belonging to the first temperature range, operation of air conditioner human body follow the mode is controlled.
In another embodiment, step is also included after step S533:
S534:Judge whether temperature difference belongs to the second temperature range.
Second temperature scope can be by user's sets itself, it is also possible to set by system default.In the present embodiment, in system
Under chill formula, the second temperature range is set as:Design temperature less than more than 1 degree Celsius of Current Temperatures but be not less than 3 degrees Celsius with
On;In a heating mode, the second temperature range is set as:Design temperature is higher than more than 2 degrees Celsius of Current Temperatures but not higher than 4 take the photograph
It is more than family name's degree.
S535:If temperature difference belongs to the second temperature range, operation of air conditioner normal wind is controlled.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
S536:If temperature difference is not belonging to the second temperature range, operation of air conditioner super wind is controlled.
In the present embodiment, i.e., in cooling mode, design temperature is less than more than 3 degree of Current Temperatures;In a heating mode,
Design temperature higher than more than 4 degree of Current Temperatures, then control operation of air conditioner super wind.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
As shown in figure 5, in the present embodiment, fiducial temperature scope also includes the 3rd temperature range and the 4th temperature range.
The step of adjusting operational mode and/or operating air velocity with the relation of fiducial temperature scope according to operation phase and temperature difference, that is, walk
Rapid S530, specifically also includes:
S541:When air-conditioning is in operates steadily the stage, judge whether temperature difference belongs to the 3rd temperature range.
When time length i.e. from after design temperature change is 0 not less than the value of preset duration or temperature difference, temperature difference is judged
Whether threeth temperature range is belonged to.3rd temperature range can be by user's sets itself, it is also possible to set by system default.
In the present embodiment, in cooling mode, the 3rd temperature range is set as:Design temperature is taken the photograph less than Current Temperatures 3
It is more than family name's degree;In a heating mode, the 3rd temperature range is set as:Design temperature is higher than more than 4 degree of Current Temperatures.
S542:If temperature difference belongs to the 3rd temperature range, operation of air conditioner human body follow the mode, and normal operation are controlled
Wind.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
S543:If temperature difference is not belonging to the 3rd temperature range, control operation of air conditioner human body avoids pattern.
In another embodiment, step is also included after step S543:
S544:Judge whether temperature difference belongs to the 4th temperature range.
In the present embodiment, in cooling mode, the 4th temperature range is set as:Design temperature is not less than Current Temperatures 2
More than degree Celsius;In a heating mode, the 4th temperature range is set as:Design temperature is not higher than more than 3 degrees Celsius of Current Temperatures.
S545:If temperature difference belongs to the 4th temperature range, operation of air conditioner low velocity wind is controlled.
Preferably, in cooling mode, design temperature is less than more than 1 degree Celsius of Current Temperatures, but is not less than Current Temperatures 2
More than degree Celsius;In a heating mode, design temperature is higher than more than 2 degrees Celsius of Current Temperatures, but not higher than Current Temperatures 3 are Celsius
It is more than degree.This two kinds of situations, control operation of air conditioner low velocity wind;Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
S546:If temperature difference is not belonging to the 4th temperature range, operation of air conditioner middling speed wind is controlled.
I.e. under refrigeration mode, design temperature is not less than 3 degrees Celsius of Current Temperatures less than more than 2 degrees Celsius of Current Temperatures
More than;In a heating mode, design temperature is higher than more than 3 degrees Celsius of Current Temperatures, but not higher than 4 degrees Celsius.This two kinds of situations,
Control operation of air conditioner middling speed wind.Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
Above-mentioned air-conditioning sweeps wind control method according to the time length after changing from design temperature and the size and temperature of preset duration
Whether the value of degree difference is 0, judges the operation phase that current air-conditioning is in, according to operation phase and temperature difference and fiducial temperature scope
Relation adjustment operational mode and/or operating air velocity, can realize according to different operation phase and temperature difference and fiducial temperature model
The different operational modes and/or operating air velocity of the relation intelligent operation air-conditioning for enclosing.
As shown in fig. 6, a kind of air-conditioning sweeps wind control system, including:
Acquisition module 100, for obtain indoor Current Temperatures, design temperature and from design temperature change after time it is long.
Specifically include:
Obtain the indoor Current Temperatures of temperature sensor collection.
The design temperature that remote control or control panel are arranged is obtained, the design temperature is the temperature that user's setting is wanted to reach
Degree, or the human comfort's temperature arranged for system default.
It is obtained from the time after design temperature changes long.In the present embodiment, change from design temperature and start timing, obtain
Time from after design temperature change is long.In another embodiment, the initial time that design temperature changes first is obtained, then is obtained
Current time, is derived from the time after design temperature changes long by calculating current time and the time interval of initial time.
Herein design temperature changes includes situations below:A kind of situation is the process that air-conditioning is never opened.Air-conditioning
When not opening, design temperature is null value, after unlatching, even if user is not provided with, and directly using the default value of last time setting, its
Design temperature also there occurs change, and from null value default value has been changed over.Also a kind of situation is that air-conditioning has been switched on, but midway
Change design temperature.Computing module 300, for calculating the temperature difference of design temperature and Current Temperatures.
Computing module 300, for calculating the temperature difference of design temperature and Current Temperatures.
In the present embodiment, temperature difference deducts Current Temperatures for design temperature.
Performing module 500, the time length and temperature difference for basis from after design temperature change adjusts the operation side of air-conditioning
Formula.
Wherein, the method for operation includes operational mode and/or operating air velocity.Operational mode includes:Air door follows in time human body
Sweep the human body follow the mode and air door of force one wind not to human body when the human body of light breeze is swept when sweeping force one wind, air door to human body
Avoidance pattern;Operating air velocity controls the wind speed of force one wind and light breeze.
In the present embodiment, operating air velocity controls the wind speed scale of force one wind.Wind speed of the wind speed of light breeze than force one wind
A low wind speed scale.
In another embodiment, the wind speed of force one wind and light breeze can voluntarily be configured by user.
The wind speed scale of operating air velocity from it is high to low including:Super wind, normal wind, middling speed wind, low velocity wind and calm.
Preferably, air-conditioning is realized, it is to avoid wind speed switches too fast drawing when wind speed switching is carried out in the way of the slow drop of slow liter
Play wind noise.
Above-mentioned air-conditioning sweeps wind control system, and acquisition module 100 obtains indoor Current Temperatures, design temperature and from design temperature
Time after change is long, and computing module 300 calculates the temperature difference of design temperature and Current Temperatures, and performing module 500 according to setting certainly
The method of operation of time length and temperature difference adjust automatically air-conditioning after the change of constant temperature degree, can realize that air-conditioning sweeps the intelligent operation of wind
Control.
As shown in fig. 7, performing module 500 is specifically included:
Operation phase judging unit 510, the size of time length and preset duration for basis from after design temperature change
And whether the value of temperature difference is 0, the operation phase that current air-conditioning is in is judged.
Wherein, the operation phase is including the operation starting stage and operates steadily the stage.Preset duration can voluntarily be set by user
It is fixed, it is also possible to be set by system default.
The method of operation judges performance element 530, for according to the relation of operation phase and temperature difference and fiducial temperature scope
Adjustment operational mode and/or operating air velocity.
Wherein, fiducial temperature scope includes the first temperature range and the second temperature range.The wind speed scale of operating air velocity from
It is high to low including:Super wind, normal wind, middling speed wind, low velocity wind and calm.
In one embodiment, operation phase judging unit 510, specifically for:
Judge whether the time length from after design temperature change is less than whether the value of preset duration and temperature difference is 0;If from
Time length after design temperature changes is not 0 less than the value of preset duration and temperature difference, then air-conditioning is in the operation starting stage;If
Time length from after design temperature change is 0 not less than the value of preset duration or temperature difference, then air-conditioning is in and operates steadily the stage.
In the present embodiment, preset duration is set as:20 minutes.
As shown in figure 8, the method for operation judges performance element 530, specifically include:
Temperature range judgment sub-unit 531, for when air-conditioning is in the operation primary stage, judging whether temperature difference belongs to
First temperature range.
When time length i.e. from after design temperature change is not 0 less than the value of preset duration and temperature difference, temperature difference is judged
Whether first temperature range is belonged to.First temperature range can be by user's sets itself, it is also possible to set by system default.
In the present embodiment, in cooling mode, the first temperature range is set as:Design temperature is not less than Current Temperatures 1
More than degree Celsius;In a heating mode, the first temperature range is set as:Design temperature is not higher than more than 2 degrees Celsius of Current Temperatures.
Subelement 532 is performed, if belonging to the first temperature range for temperature difference, control operation of air conditioner human body avoids mould
Formula, and normal operation wind;If temperature difference is not belonging to the first temperature range, operation of air conditioner human body follow the mode is controlled.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
In another embodiment, temperature range judgment sub-unit 531, is additionally operable to judge whether temperature difference belongs to second warm
Difference scope.
Second temperature scope can be by user's sets itself, it is also possible to set by system default.In the present embodiment, in system
Under chill formula, the second temperature range is set as:Design temperature less than more than 1 degree Celsius of Current Temperatures but be not less than 3 degrees Celsius with
On;In a heating mode, the second temperature range is set as:Design temperature is higher than more than 2 degrees Celsius of Current Temperatures but not higher than 4 take the photograph
It is more than family name's degree.
Subelement 532 is performed, if being additionally operable to temperature difference belongs to the second temperature range, operation of air conditioner normal wind is controlled;If
Temperature difference is not belonging to the second temperature range, then control operation of air conditioner super wind.
In the present embodiment, i.e., in cooling mode, design temperature is less than more than 3 degree of Current Temperatures;In a heating mode,
Design temperature higher than more than 4 degree of Current Temperatures, then control operation of air conditioner super wind.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
In another embodiment, fiducial temperature scope also includes the 3rd temperature range and the 4th temperature range.
Temperature range judgment sub-unit 531, is additionally operable to, when air-conditioning is in and operates steadily the stage, judge whether temperature difference belongs to
In the 3rd temperature range.
When time length i.e. from after design temperature change is 0 not less than the value of preset duration or temperature difference, temperature difference is judged
Whether threeth temperature range is belonged to.3rd temperature range can be by user's sets itself, it is also possible to set by system default.
In the present embodiment, in cooling mode, the 3rd temperature range is set as:Design temperature is taken the photograph less than Current Temperatures 3
It is more than family name's degree;In a heating mode, the 3rd temperature range is set as:Design temperature is higher than more than 4 degree of Current Temperatures.
Subelement 532 is performed, if being additionally operable to temperature difference belongs to the 3rd temperature range, control operation of air conditioner human body follows mould
Formula, and normal operation wind;If temperature difference is not belonging to the 3rd temperature range, control operation of air conditioner human body avoids pattern.
Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
In another embodiment, temperature range judgment sub-unit 531, is additionally operable to judge whether temperature difference belongs to the 4th warm
Difference scope.
In the present embodiment, in cooling mode, the 4th temperature range is set as:Design temperature is not less than Current Temperatures 2
More than degree Celsius;In a heating mode, the 4th temperature range is set as:Design temperature is not higher than more than 3 degrees Celsius of Current Temperatures.
Subelement 532 is performed, if being additionally operable to temperature difference belongs to the 4th temperature range, operation of air conditioner low velocity wind is controlled;If
Temperature difference is not belonging to the 4th temperature range, then control operation of air conditioner middling speed wind.
Preferably, in cooling mode, design temperature is less than more than 1 degree Celsius of Current Temperatures, but is not less than Current Temperatures 2
More than degree Celsius;In a heating mode, design temperature is higher than more than 2 degrees Celsius of Current Temperatures, but not higher than Current Temperatures 3 are Celsius
It is more than degree.This two kinds of situations, control operation of air conditioner low velocity wind;Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
In cooling mode, design temperature is less than more than 2 degrees Celsius of Current Temperatures, but is not less than 3 degrees Celsius of Current Temperatures
More than;In a heating mode, design temperature is higher than more than 3 degrees Celsius of Current Temperatures, but not higher than 4 degrees Celsius.This two kinds of situations,
Control operation of air conditioner middling speed wind.Wherein, blow a cold wind over during air conditioner refrigerating;Blowing hot-air during air-conditioning heating.
Above-mentioned air-conditioning sweeps wind control system, and operation phase judging unit 510 is long according to the time after changing from design temperature
Whether it is 0 with the size of preset duration and the value of temperature difference, judges the operation phase that current air-conditioning is in, the method for operation judges to hold
Row unit 530 adjusts operational mode and/or operating air velocity, energy according to operation phase and temperature difference with the relation of fiducial temperature scope
Enough different operational modes realized according to different operation phase and temperature difference from the relation intelligent operation air-conditioning of fiducial temperature scope
And/or operating air velocity.
The present invention also provides a kind of air-conditioning, including above-mentioned any one air-conditioning sweeps wind control system.
Above example only expresses the several embodiments of the present invention, and its description is more concrete and detailed, but can not
Therefore it is interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art,
Without departing from the inventive concept of the premise, multiple deformations and improvement can also be made, these belong to the protection model of the present invention
Enclose.Therefore, the protection domain of patent of the present invention should be defined by claims.
Claims (8)
1. a kind of air-conditioning sweeps wind control method, it is characterised in that including step:
Obtain indoor Current Temperatures, design temperature and the time from after design temperature change long;
Calculate the temperature difference of the design temperature and the Current Temperatures;
The method of operation of air-conditioning is adjusted according to the time length and the temperature difference after changing from the design temperature;
Wherein, the method for operation includes operational mode and/or operating air velocity;The operational mode includes:Air door is followed in time
Human body sweep the human body follow the mode and air door of force one wind not to human body when sweep light breeze when sweeping force one wind, air door to human body
Human body avoids pattern;The operating air velocity controls the wind speed scale of the force one wind and the light breeze;
The method of operation of the time length and temperature difference adjustment air-conditioning of the basis from after design temperature change
Step is specifically included:
According to the value of the size of the time length and preset duration after changing from the design temperature and the temperature difference whether
For 0, the operation phase that current air-conditioning is in is judged;
The operational mode and/or described is adjusted according to the operation phase and the temperature difference and the relation of fiducial temperature scope
Operating air velocity.
2. a kind of air-conditioning sweeps wind control system, it is characterised in that include:
Acquisition module, for obtain indoor Current Temperatures, design temperature and from the design temperature change after time it is long;
Computing module, for calculating the temperature difference of the design temperature and the Current Temperatures;
Performing module, the time length and the temperature difference for basis from after design temperature change adjusts the fortune of air-conditioning
Line mode;
Wherein, the method for operation includes operational mode and/or operating air velocity;The operational mode includes:Air door is followed in time
Human body sweep the human body follow the mode and air door of force one wind not to human body when sweep light breeze when sweeping force one wind, air door to human body
Human body avoids pattern;The operating air velocity controls the wind speed scale of the force one wind and the light breeze;
The performing module is specifically included:
Operation phase judging unit, the size of the time length and preset duration for basis from after design temperature change
And whether the value of the temperature difference is 0, the operation phase that current air-conditioning is in is judged;
The method of operation judges performance element, for according to the relation of the operation phase and the temperature difference and fiducial temperature scope
Adjust the operational mode and/or the operating air velocity.
3. air-conditioning according to claim 2 sweeps wind control system, it is characterised in that the operation phase includes that operation is initial
Stage and operate steadily the stage;The operation phase judging unit, specifically for:
Judge the time length from after design temperature change whether less than the preset duration and the value of the temperature difference
Whether it is 0;If the time length from after design temperature change is less than preset duration and the value of the temperature difference is not 0,
Then air-conditioning is in the operation starting stage;If from the design temperature change after the time length not less than preset duration or
The value of the temperature difference is 0, then air-conditioning operates steadily the stage in described.
4. air-conditioning according to claim 3 sweeps wind control system, it is characterised in that the grade of the operating air velocity is from up to
It is low including:Super wind, normal wind, middling speed wind, low velocity wind and calm;The fiducial temperature scope includes the first temperature range;Institute
State the method for operation and judge performance element, specifically include:
Temperature range judgment sub-unit, for when air-conditioning is in the operation primary stage, judging whether the temperature difference belongs to
In first temperature range;
Subelement is performed, if belonging to first temperature range for the temperature difference, human body described in control operation of air conditioner is kept away
Allow pattern, and run the normal wind;If the temperature difference is not belonging to first temperature range, control described in operation of air conditioner
Human body follow the mode.
5. air-conditioning according to claim 4 sweeps wind control system, it is characterised in that the fiducial temperature scope also includes the
Two temperature ranges;
The temperature range judgment sub-unit, if being additionally operable to the temperature difference is not belonging to first temperature range, judges described
Whether temperature difference belongs to second temperature range;
If the execution subelement is additionally operable to the temperature difference and belongs to second temperature range, control described in operation of air conditioner just
Chang Feng;If the temperature difference is not belonging to second temperature range, super wind described in control operation of air conditioner.
6. air-conditioning according to claim 5 sweeps wind control system, it is characterised in that the fiducial temperature scope also includes the
Three temperature ranges;
The temperature range judgment sub-unit, be additionally operable to when air-conditioning in it is described operate steadily the stage when, judge the temperature difference
Whether threeth temperature range is belonged to;
The execution subelement, if being additionally operable to the temperature difference belongs to the 3rd temperature range, controls described in operation of air conditioner
Human body follow the mode, runs the normal wind;If the temperature difference is not belonging to the 3rd temperature range, operation of air conditioner is controlled
The human body avoids pattern.
7. air-conditioning according to claim 6 sweeps wind control system, it is characterised in that the fiducial temperature scope also includes the
Four temperature ranges;
The temperature range judgment sub-unit, if being additionally operable to the temperature difference is not belonging to the 3rd temperature range, judges described
Whether temperature difference belongs to the 4th temperature range;
The execution subelement, if being additionally operable to the temperature difference belongs to the 4th temperature range, controls described in operation of air conditioner
Low velocity wind;If the temperature difference is not belonging to the 4th temperature range, middling speed wind described in control operation of air conditioner.
8. a kind of air-conditioning, it is characterised in that sweep wind control system including the air-conditioning described in claim 3-7 any one.
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CN105042806B (en) * | 2015-09-02 | 2017-12-22 | 珠海格力电器股份有限公司 | Air conditioner sweeps air control method and apparatus |
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CN109323378A (en) * | 2018-09-30 | 2019-02-12 | 广东美的制冷设备有限公司 | Air conditioner and its control method and device |
CN109323400A (en) * | 2018-09-30 | 2019-02-12 | 广东美的制冷设备有限公司 | Air conditioner and its control method and device |
CN109323405A (en) * | 2018-09-30 | 2019-02-12 | 广东美的制冷设备有限公司 | Air conditioner and its control method and device |
CN110260486A (en) * | 2019-06-24 | 2019-09-20 | 广东美的制冷设备有限公司 | Control method, device, air conditioner and the electronic equipment of air conditioner |
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