CN106545954B - Temperature control method and device of air conditioner and air conditioner - Google Patents
Temperature control method and device of air conditioner and air conditioner Download PDFInfo
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- CN106545954B CN106545954B CN201610881437.XA CN201610881437A CN106545954B CN 106545954 B CN106545954 B CN 106545954B CN 201610881437 A CN201610881437 A CN 201610881437A CN 106545954 B CN106545954 B CN 106545954B
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- 238000000034 method Methods 0.000 title claims abstract description 33
- 238000004891 communication Methods 0.000 claims abstract description 35
- 238000004378 air conditioning Methods 0.000 claims description 116
- 238000012937 correction Methods 0.000 claims description 69
- 230000007246 mechanism Effects 0.000 claims description 19
- 230000005540 biological transmission Effects 0.000 claims description 11
- 230000008439 repair process Effects 0.000 claims description 2
- 230000009286 beneficial effect Effects 0.000 abstract description 6
- 230000007547 defect Effects 0.000 abstract description 3
- 230000003044 adaptive effect Effects 0.000 abstract 1
- 238000010586 diagram Methods 0.000 description 12
- 238000012545 processing Methods 0.000 description 12
- 230000001568 sexual effect Effects 0.000 description 6
- 238000012795 verification Methods 0.000 description 6
- 230000008569 process Effects 0.000 description 3
- 230000006978 adaptation Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 230000000977 initiatory effect Effects 0.000 description 2
- 230000002688 persistence Effects 0.000 description 2
- 240000002853 Nelumbo nucifera Species 0.000 description 1
- 235000006508 Nelumbo nucifera Nutrition 0.000 description 1
- 235000006510 Nelumbo pentapetala Nutrition 0.000 description 1
- 244000131316 Panax pseudoginseng Species 0.000 description 1
- 235000005035 Panax pseudoginseng ssp. pseudoginseng Nutrition 0.000 description 1
- 235000003140 Panax quinquefolius Nutrition 0.000 description 1
- 230000003749 cleanliness Effects 0.000 description 1
- 235000008434 ginseng Nutrition 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000011897 real-time detection Methods 0.000 description 1
Classifications
-
- 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
-
- 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
-
- 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
-
- 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
-
- 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
-
- 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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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Signal Processing (AREA)
- Life Sciences & Earth Sciences (AREA)
- Atmospheric Sciences (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a temperature control method and device of an air conditioner and the air conditioner, wherein the method comprises the following steps: acquiring the current wind shield and the current inner pipe temperature of the air conditioner; carrying out temperature negative compensation on the current inner pipe temperature to serve as the temperature of the communication inner pipe of the air conditioner for use when an indoor unit is in communication with an outdoor unit; determining a target inner tube temperature which is adaptive to the temperature of the communication inner tube and is higher than the rated inner tube temperature; presetting a corresponding relation among a wind gear, the temperature of an inner pipe, the temperature of a target inner pipe and a target rotating speed, and determining the target rotating speed according to the current wind gear, the current temperature of the inner pipe, the determined temperature of the target inner pipe and the corresponding relation so as to enable the air conditioner to perform high-temperature air outlet according to the target rotating speed. The scheme of the invention can overcome the defects of low temperature rise speed, inconvenient use, poor user experience and the like in the prior art, and has the beneficial effects of high temperature rise speed, convenient use and good user experience.
Description
Technical field
The invention belongs to air-conditioning technical fields, and in particular to a kind of temprature control method of air-conditioning, device and air-conditioning, especially
It is related to control method, device corresponding with this method and the air-conditioning with the device of a kind of high temperature air outlet air conditioner.
Background technique
Air-conditioning (i.e. air conditioner), can the ginseng such as temperature, humidity, cleanliness, speed to surrounding air in building/structures
Number is adjusted and controls.Limited by air-conditioning overload protection mechanism, when general air-conditioning heating leaving air temp be difficult to be more than
The limit temperature (such as: 50 DEG C) of load protection mechanism;Such as: when tube temperature is excessively high, system will appear shutdown, so can not make
Tube temperature reaches higher level, therefore leaving air temp is also just difficult to improve.If user is in external environment (the i.e. outdoor ring of severe cold
Border) when entering the room, the hot wind of high-temperature is more comfortable than common warm wind, and there is presently no provide the air-conditioning of this function
Device.
In the prior art, the defects of slow, inconvenient to use and poor user experience that there are temperature rise speeds.
Summary of the invention
It is an object of the present invention in view of the foregoing drawbacks, the temprature control method, device and air-conditioning of a kind of air-conditioning are provided,
Leaving air temp is difficult to lead more than limit temperature when solving in the prior art due to the limitation air-conditioning heating of overload protection mechanism
The problem for causing temperature rise speed slow achievees the effect that promote temperature rise speed.
The present invention provides a kind of temprature control method of air-conditioning, comprising: obtain the air-conditioning current wind file and it is current in
Tube temperature degree;The negative compensation of temperature is carried out to the current inner tube temperature, as the communication inner tube temperature of the air-conditioning, with machine indoors
It is used when being communicated with outdoor unit;And determination is adapted to the communication inner tube temperature and is higher than the target inner tube of specified inner tube temperature
Temperature;The corresponding relationship of default wind file, inner tube temperature, target inner tube temperature and rotating speed of target, according to the current wind file, currently
Inner tube temperature and the target inner tube temperature of determination and the corresponding relationship determine rotating speed of target, so that the air-conditioning presses the mesh
It marks revolving speed and carries out high temperature outlet air.
Optionally, further includes: according to preset timing, control is timed to the high temperature outlet air;Wherein, described
Timing controlled, comprising: in timing starting, the current wind file and the current inner tube temperature are obtained;
And/or in the timing, the communication inner tube temperature is determined, and/or internally rotation speed of fan is adjusted;
And/or when the timing reaches, the communication inner tube temperature is adjusted to the current inner tube temperature.
Optionally, further includes: before the current wind file and current inner tube temperature for obtaining the air-conditioning, determine the air-conditioning
Initial leaving air temp be the specified inner tube temperature, and/or determine that the wind file of the air-conditioning is automatic transmission, and/or determines institute
State the timing of high temperature outlet air.
Optionally, according to the current wind file, current inner tube temperature and the target inner tube temperature of determination with it is described corresponding
Relationship determines rotating speed of target, comprising:
It determines the initial speed of the inner blower of the air-conditioning, and keeps the inner blower pre- by initial speed operation first
If duration;When first preset duration reaches, the rotating speed of target of the inner blower is determined, and make the inner blower by the mesh
Mark revolving speed operation.
Optionally it is determined that the initial speed of the inner blower of the air-conditioning, comprising: when the current wind file is less than or equal to the
When two gears, if the current inner tube temperature is less than preset temperature, the first gear is determined as the initial speed;If described
When current inner tube temperature is greater than or equal to the preset temperature, second gear is determined as the initial speed;And/or
When the current wind file is equal to any gear in third gear, fourth speed position, fifth speed position, sixth speed position, seventh speed position, if
When preset temperature described in the current inner tube temperature <, will be less than any gear preset value gear be determined as it is described initial
Revolving speed;If when the current inner tube temperature >=preset temperature, any gear is determined as the initial speed;With/
Or, determining the rotating speed of target of the inner blower, comprising: obtain the practical inner tube temperature of the air-conditioning, and obtain the air-conditioning
Current rotating speed;According to the difference of the target inner tube temperature and the practical inner tube temperature, by matched default with the difference
The current rotating speed is adjusted to and the matched rotating speed of target of the difference by rotating speed of target.
Optionally it is determined that the rotating speed of target of the inner blower, further includes: using the second preset duration as interval, work as to described
Preceding revolving speed carries out interval adjusting;That is, by each second preset duration reach when the current rotating speed, be adjusted to each
The matched rotating speed of target of difference when second preset duration reaches;And/or the current rotating speed is adjusted to
With the matched rotating speed of target of the difference, comprising: when the difference is greater than the first preset value, the rotating speed of target is equal to
The current rotating speed subtracts the first correction value;And/or when the difference is greater than the second preset value and is less than or equal to described the
When one preset value, the rotating speed of target is equal to the current rotating speed and subtracts the second correction value;And/or when the difference is greater than the
Three preset values and be less than or equal to second preset value when, the rotating speed of target be equal to the current rotating speed;And/or work as institute
Difference is stated greater than the 4th preset value and when being less than or equal to the third preset value, the rotating speed of target works as forward equal to described
Speed increases third correction value;And/or when the difference is less than or equal to the 4th preset value, the rotating speed of target is equal to institute
It states current rotating speed and increases by the 4th correction value.
Optionally, wherein the preset temperature, comprising: the limit temperature of the overload protection mechanism of the air-conditioning;With/
Or, first gear, second gear, the third gear, the fourth speed position, the fifth speed position, the described 6th
Gear, the seventh speed position wind file, successively increase;And/or the wind file of the initial speed, it is greater than or equal to described first
Gear and be less than or equal to the seventh speed position;And/or first correction value, second correction value, the third are repaired
Positive value, the 4th correction value are positive number, and second correction value is less than first correction value, and/or the described 4th
Correction value is greater than the third correction value.
Match with the above method, another aspect of the present invention provides a kind of temperature control equipment of air-conditioning, comprising: obtain single
Member obtains the current wind file and current inner tube temperature of the air-conditioning;Execution unit, for carrying out temperature to the current inner tube temperature
The negative compensation of degree uses when being communicated with machine indoors with outdoor unit as the communication inner tube temperature of the air-conditioning;And it is determining with it is described
It communicates inner tube temperature adaptation and is higher than the target inner tube temperature of specified inner tube temperature;Default wind file, inner tube temperature, target inner tube
The corresponding relationship of temperature and rotating speed of target, according to the current wind file, current inner tube temperature and the target inner tube temperature of determination
Rotating speed of target is determined with the corresponding relationship, so that the air-conditioning carries out high temperature outlet air by the rotating speed of target.
Optionally, further includes: the execution unit is also used to according to preset timing, to the high temperature outlet air into
Row timing controlled;Wherein, the execution unit, comprising: timing module, for working as to described in timing starting
Preceding wind file and the current inner tube temperature are obtained;And/or the timing module, it is also used in the timing, it is right
The communication inner tube temperature is determined, and/or internally rotation speed of fan is adjusted;And/or the timing module, it is also used to
When the timing reaches, the communication inner tube temperature is adjusted to the current inner tube temperature.
Optionally, further includes: setting unit, for the current wind file and current inner tube temperature for obtaining the air-conditioning it
Before, the initial leaving air temp for determining the air-conditioning is the specified inner tube temperature, and/or determines that the wind file of the air-conditioning is automatic
Shelves, and/or the timing for determining the high temperature outlet air.
Optionally, execution unit, comprising: speed adjusting module, the initial speed of the inner blower for determining the air-conditioning, and make
The inner blower runs the first preset duration by the initial speed;The speed adjusting module is also used to first preset duration
When arrival, the rotating speed of target of the inner blower is determined, and run the inner blower by the rotating speed of target.
Optionally, speed adjusting module, comprising: initial velocity determines submodule, for being less than or equal to when the current wind file
When the second gear, if the current inner tube temperature is less than preset temperature, the first gear is determined as the initial speed;If institute
When stating current inner tube temperature more than or equal to the preset temperature, second gear is determined as the initial speed;With/
Or, the initial velocity determines submodule, be also used to when the current wind file be equal to third gear, fourth speed position, fifth speed position,
In sixth speed position, seventh speed position when any gear, if will be less than any institute when preset temperature described in the current inner tube temperature <
The gear for stating gear preset value is determined as the initial speed;If when the current inner tube temperature >=preset temperature, will appoint
One gear is determined as the initial speed;And/or speed adjusting module, further includes: rotating speed of target determines submodule, for obtaining
The practical inner tube temperature of the air-conditioning is taken, and obtains the current rotating speed of the air-conditioning;The rotating speed of target determines submodule, also uses
In the difference according to the target inner tube temperature and the practical inner tube temperature, turn by with the matched goal-selling of the difference
The current rotating speed is adjusted to and the matched rotating speed of target of the difference by speed.
Optionally, speed adjusting module, further includes: time control submodule is used for using the second preset duration as interval, to described
Current rotating speed carries out interval adjusting;That is, by each second preset duration reach when the current rotating speed, be adjusted to often
The matched rotating speed of target of difference when a second preset duration reaches;And/or rotating speed of target determines submodule
Block, comprising: revolving speed calculator, for when the difference is greater than the first preset value, the rotating speed of target to work as forward equal to described
Speed subtracts the first correction value;And/or the revolving speed calculator, be also used to when the difference be greater than the second preset value and be less than or
When equal to first preset value, the rotating speed of target is equal to the current rotating speed and subtracts the second correction value;And/or described turn
Fast calculator is also used to when the difference is greater than third preset value and is less than or equal to second preset value, the target
Revolving speed is equal to the current rotating speed;And/or the revolving speed calculator, it is also used to be greater than the 4th preset value and small when the difference
When the third preset value, the rotating speed of target is equal to the current rotating speed and increases third correction value;And/or institute
Revolving speed calculator is stated, is also used to be less than or equal to the 4th preset value when the difference, the rotating speed of target is equal to described work as
Preceding revolving speed increases by the 4th correction value.
Optionally, wherein the preset temperature, comprising: the limit temperature of the overload protection mechanism of the air-conditioning;With/
Or, first gear, second gear, the third gear, the fourth speed position, the fifth speed position, the described 6th
Gear, the seventh speed position wind file, successively increase;And/or the wind file of the initial speed, it is greater than or equal to described first
Gear and be less than or equal to the seventh speed position;And/or first correction value, second correction value, the third are repaired
Positive value, the 4th correction value are positive number, and second correction value is less than first correction value, and/or the described 4th
Correction value is greater than the third correction value.
Match with above-mentioned apparatus, further aspect of the present invention provides a kind of air-conditioning, comprising: the temperature of the above air-conditioning controls dress
It sets.
The solution of the present invention, by providing a kind of function of high temperature outlet air to air-conditioning, leaving air temp is reached as high as in target
Tube temperature degree (such as: 60 DEG C), and energy certain time, meet user demand.
Further, the solution of the present invention can be relaxed negative by the method for the negative compensation of tube temperature without shielding protection mechanism
The limitation of lotus protection, and then leaving air temp is increased, promote user experience.
Further, the solution of the present invention utilizes " fuzzy+I " to adjust inner blower revolving speed, accurately controls inner tube temperature, use
Air temperature is constant, promotes the reliability and stability of high temperature outlet air.
The solution of the present invention as a result, passes through the Fuzzy Control of tube temperature negative compensation and inner blower revolving speed to communication inner tube temperature
System relaxes the limitation of overload protection, improves leaving air temp, solves in the prior art since the limitation of overload protection mechanism is empty
Leaving air temp is difficult to the problem for causing temperature rise speed slow more than limit temperature when modulation heat, thus, overcome temperature rise in the prior art
Speed is slow, defect inconvenient to use and poor user experience, and it is beneficial to realize that temperature rise speed is fast, easy to use and user experience is good
Effect.
Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification
It obtains it is clear that understand through the implementation of the invention.
Below by drawings and examples, technical scheme of the present invention will be described in further detail.
Detailed description of the invention
Fig. 1 is the flow diagram of an embodiment of the temprature control method of air-conditioning of the invention;
Fig. 2 is the flow diagram that an embodiment of processing is executed in method of the invention;
Fig. 3 is the flow diagram for the embodiment that rotating speed of target adjusts processing in method of the invention;
Fig. 4 is the structural schematic diagram of an embodiment of the temperature control equipment of air-conditioning of the invention;
Fig. 5 is the structural schematic diagram of an embodiment of speed adjusting module in the device of the invention;
Fig. 6 is the structural schematic diagram for the embodiment that rotating speed of target determines submodule in the device of the invention;
Fig. 7 is the schematic illustration of an embodiment of air-conditioning of the invention.
In conjunction with attached drawing, appended drawing reference is as follows in the embodiment of the present invention:
102- acquiring unit;104- execution unit;1042- timing module;1044- speed adjusting module;10442- initial velocity
Determine submodule;10444- rotating speed of target determines submodule;104442- revolving speed calculator;10446- time control submodule;
106- setting unit.
Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the specific embodiment of the invention and
Technical solution of the present invention is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the present invention one
Section Example, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing
Every other embodiment obtained under the premise of creative work out, shall fall within the protection scope of the present invention.
According to an embodiment of the invention, a kind of temprature control method of air-conditioning is provided, method of the invention as shown in Figure 1
An embodiment flow diagram.The temprature control method of the air-conditioning may include:
At step S110, the current wind file and current inner tube temperature of the air-conditioning are obtained.
Such as: record the wind file S0 (i.e. current wind file) and inner tube temperature T0 (i.e. current inner tube temperature) at current time.
As a result, by obtaining the current wind file and current inner tube temperature of air-conditioning, can high temperature outlet air to air-conditioning essence is provided
Quasi- control foundation, and acquisition modes are easy.
At step S120, the negative compensation of temperature is carried out to the current inner tube temperature, the communication inner tube as the air-conditioning
Temperature uses when being communicated with machine indoors with outdoor unit;And it determines and is adapted to the communication inner tube temperature and is higher than specified inner tube
The target inner tube temperature of temperature.
Wherein, communication inner tube temperature be to carry out bearing compensated inner tube temperature to current inner tube temperature, using it as with room
Outer machine uses when communicating, it is therefore an objective to reduce the limits value of system overload protection.
As a result, by determining communication inner tube temperature and target inner tube temperature, air-conditioning can be made with target inner tube temperature outlet air
When, not by specified inner tube temperature when overload protection mechanism limited, control convenience it is good, high reliablity.
At step S130, the corresponding relationship of wind file, inner tube temperature, target inner tube temperature and rotating speed of target is preset, according to
The current wind file, current inner tube temperature and the target inner tube temperature of determination and the corresponding relationship determine rotating speed of target, with
The air-conditioning is set to carry out high temperature outlet air by the rotating speed of target.
Such as: leaving air temp reaches as high as 60 DEG C, and energy certain time, meets user demand.
It as a result, by the negative compensation of tube temperature, can relax the limitation of overload protection without shielding protection mechanism, make outer
Machine is less prone to high temperature-proof protection;It is adjusted by internal rotation speed of fan, the reliability of high temperature outlet air, Jin Erti can be improved
Rise the comfortable sexual experience of user.
In an optional example, the stream of an embodiment of processing can be executed in method of the invention as shown in connection with fig. 2
Journey schematic diagram further illustrates in step S130 according to the current wind file, current inner tube temperature and the target inner tube of determination
Temperature and the corresponding relationship determine the detailed process of rotating speed of target.
Step S210, determines the initial speed of the inner blower of the air-conditioning, and makes the inner blower by the initial speed
Run the first preset duration.
In an optional specific example, the initial speed of the inner blower of the air-conditioning is determined in step S210, can wrap
It includes: when the current wind file is less than or equal to the second gear, if the current inner tube temperature is less than preset temperature, by first
Gear is determined as the initial speed;If the current inner tube temperature is greater than or equal to the preset temperature, by described second
Gear is determined as the initial speed.
Optionally, the preset temperature may include: the limit temperature of the overload protection mechanism of the air-conditioning.
Such as: table is defined referring to initial speed, preset temperature is 50 DEG C.
As a result, by being default as what is be compared with current inner tube temperature using the limit temperature of overload protection mechanism
Temperature is conducive to the convenience and reliability that improve high temperature outlet air control.
In an optional specific example, the initial speed of the inner blower of the air-conditioning is determined in step S210, it can be with
It include: when the current wind file is equal to any gear in third gear, fourth speed position, fifth speed position, sixth speed position, seventh speed position
When, if when preset temperature described in the current inner tube temperature <, the gear that will be less than any gear preset value is determined as institute
State initial speed;If when the current inner tube temperature >=preset temperature, any gear is determined as described initial turn
Speed.
Such as: after indoor unit enters " high-temperature hot-air " mode, inner blower revolving speed (such as: initial speed) it can be by initial
Revolving speed defines table and determines.
Initial speed defines table
Wherein, it is defined in table in initial speed, the corresponding specific revolving speed of each gear of inner blower can be by application definition.
The value of the inner blower initial speed of different model, different type of machines can have nothing in common with each other.
As a result, by the size relation based on current inner tube temperature and preset temperature, initial velocity is determined, can make just
The determination of beginning speed is more convenient, but also the operational reliability of inner blower is more preferable.
Optionally, first gear, second gear, the third gear, the fourth speed position, the fifth speed
The wind file of position, the sixth speed position, the seventh speed position, successively increases.
It is arranged as a result, by the size to wind file, the adjusting of internal rotation speed of fan can be made more convenient, also more accurate.
Step S220 determines the rotating speed of target of the inner blower, and make the interior wind when first preset duration reaches
Machine is run by the rotating speed of target.
As a result, by determining initial speed, rotating speed of target is determined after moving the first preset duration, can make high temperature outlet air
Control it is more stable, relatively reliable.
It, can rotating speed of target adjusts processing in method of the invention as shown in connection with fig. 3 in an optional specific example
The flow diagram of one embodiment further illustrates the detailed process that the rotating speed of target of the inner blower is determined in step S220.
Step S310, obtains the practical inner tube temperature of the air-conditioning, and obtains the current rotating speed of the air-conditioning.
Step S320 is pressed and the difference according to the difference of the target inner tube temperature and the practical inner tube temperature
The current rotating speed is adjusted to and the matched rotating speed of target of the difference by the goal-selling revolving speed matched.
As a result, by the determination based on practical inner tube temperature and current rotating speed to rotating speed of target, be conducive to improve inner blower
The stability and reliability of operation are also beneficial to improve the comfort and persistence of high temperature outlet air.
Optionally, the wind file of the initial speed is greater than or equal to first gear and is less than or equal to the described 7th
Gear.
Such as: table is defined referring to initial speed, initial speed cannot be below 1 grade (i.e. first gear) always, and cannot be high
In 7 grades (i.e. seventh speed positions).
As a result, by the limitation to rotating speed of target wind file, the reliability of inner blower revolving speed and safety can be made all may be used
To be ensured well.
The current rotating speed is adjusted in a more optional specific example, in step S320 matched with the difference
The rotating speed of target may include: when the difference is greater than the first preset value, and the rotating speed of target is equal to the current rotating speed
Subtract the first correction value.
The current rotating speed is adjusted in a more optional specific example, in step S320 matched with the difference
The rotating speed of target can also include: when the difference is greater than the second preset value and is less than or equal to first preset value
When, the rotating speed of target is equal to the current rotating speed and subtracts the second correction value.
The current rotating speed is adjusted in a more optional specific example, in step S320 matched with the difference
The rotating speed of target can also include: when the difference is greater than third preset value and is less than or equal to second preset value
When, the rotating speed of target is equal to the current rotating speed.
The current rotating speed is adjusted in a more optional specific example, in step S320 matched with the difference
The rotating speed of target can also include: when the difference is greater than the 4th preset value and is less than or equal to the third preset value
When, the rotating speed of target is equal to the current rotating speed and increases third correction value.
The current rotating speed is adjusted in a more optional specific example, in step S320 matched with the difference
The rotating speed of target can also include: when the difference is less than or equal to the 4th preset value, and the rotating speed of target is equal to institute
It states current rotating speed and increases by the 4th correction value.
Such as: can according to target rotational speed regulation table rotating speed of target, adjust running speed.
Rotating speed of target adjusts table: rotating speed of target adjusts table
Tm-T | Rotating speed of target |
Tm-T > 8 | Rotating speed of target=current rotating speed -20 |
2 Tm-T≤8 < | Rotating speed of target=current rotating speed -10 |
- 2 Tm-T≤2 < | Rotating speed of target=current rotating speed |
- 4 < Tm-T≤- 2 | Rotating speed of target=current rotating speed+20 |
Tm-T≤- 4 | Rotating speed of target=current rotating speed+30 |
It utilizes " fuzzy+I " to adjust inner blower revolving speed as a result, accurately controls inner tube temperature, make constant air outlet temperature, more preferably
Ground meets the needs of user is to high leaving air temp.
More optionally, first correction value, second correction value, the third correction value, the 4th correction value
It is positive number, and second correction value is less than first correction value, and/or the 4th correction value is greater than the third and repairs
Positive value.
As a result, by limiting the concrete form of each correction value, the adjusting to rotating speed of target can be made relatively reliable, also more
Add conveniently.
In an optional specific example, the rotating speed of target of the inner blower is determined in step S220, can also include: with
Second preset duration is interval, carries out interval adjusting to the current rotating speed.That is, when each second preset duration is reached
The current rotating speed, be adjusted to and each second preset duration reach when the matched target of the difference turn
Speed.
Such as: after initial speed runs 30s, according to target tube temperature Tm (i.e. target inner tube temperature, such as: Tm=60 DEG C)
And the difference of practical inner tube temperature T, every 20s adjust a running speed.
As a result, by the way that rotating speed of target is adjusted using the second preset duration as interval, be conducive to improve inner blower operation
Stability, be also beneficial to promote the comfortable sexual experience that uses of user.
It can also include: to be carried out according to preset timing to the high temperature outlet air in an optional embodiment
Timing controlled.
Such as: after the interior machine (i.e. indoor unit) of air-conditioning receives " high-temperature hot-air " signal of remote controler transmission, timer
Start timing t.
In an optional example, the timing controlled may include: to work as in timing starting to described
Preceding wind file and the current inner tube temperature are obtained.
Such as: in timer initiation, while recording the wind file S0 (i.e. current wind file) and inner tube temperature T0 at current time
(i.e. current inner tube temperature).
In an optional example, the timing controlled can also include: in the timing, to the communication
Inner tube temperature is determined, and/or internally rotation speed of fan is adjusted.
Such as: as the timing time t < 30min of timer, into " high-temperature hot-air " mode, Tc=T+ under the mode
Tb.Wherein, Tc is communication inner tube temperature, and T is practical inner tube temperature, and Tb is compensation temperature (such as: Tb=-8 DEG C).
In an optional example, the timing controlled, can also include: when the timing reaches, will be described
Communication inner tube temperature is adjusted to the current inner tube temperature.
Such as: as timing time t >=30min of timer, " high-temperature hot-air " mode is exited, at this time Tc=T.
As a result, by the timing controlled to high temperature outlet air, it on the one hand can guarantee the comfortable sexual experience that user uses, it is another
Aspect can promote the safety and energy saving of operation of air conditioner, and reliability and hommization can be greatly improved.
It can also include: in the current wind file and current internal pipe temperature for obtaining the air-conditioning in an optional embodiment
Before degree, the initial leaving air temp for determining the air-conditioning is the specified inner tube temperature, and/or determines that the wind file of the air-conditioning is
Automatic transmission, and/or the timing for determining the high temperature outlet air.
Such as: the remote controler of air-conditioning can use a variety of settings under " high-temperature hot-air " mode.
Such as: it is for 30 DEG C and non-adjustable that temperature can be set.
Such as: it is automatic transmission and non-adjustable that wind file, which can be set,.
Such as: after timing 30min can be set, automatically exit from " high-temperature hot-air " mode.
As a result, by the parameter of default setting high temperature outlet air, user can be made to make the high temperature outlet air function of air-conditioning
With more convenient, user experience is also more preferably.
Through a large amount of verification experimental verification, using the technical solution of the present embodiment, by providing a kind of high temperature outlet air to air-conditioning
Function, leaving air temp reach as high as target inner tube temperature (such as: 60 DEG C), and can certain time, meet user demand.
According to an embodiment of the invention, additionally providing a kind of temperature control of air-conditioning of the temprature control method corresponding to air-conditioning
Device processed.The structural schematic diagram of one embodiment of the device of the invention shown in Figure 4.The temperature control equipment of the air-conditioning can be with
It may include: acquiring unit 102 and execution unit 104.
In one example, acquiring unit 102 obtain the current wind file and current inner tube temperature of the air-conditioning.The acquisition
The concrete function of unit 102 and processing are referring to step S110.
Such as: record the wind file S0 (i.e. current wind file) and inner tube temperature T0 (i.e. current inner tube temperature) at current time.
As a result, by obtaining the current wind file and current inner tube temperature of air-conditioning, can high temperature outlet air to air-conditioning essence is provided
Quasi- control foundation, and acquisition modes are easy.
In one example, execution unit 104 can be used for carrying out the current inner tube temperature the negative compensation of temperature, make
For the communication inner tube temperature of the air-conditioning, used when being communicated with machine indoors with outdoor unit;And the determining and communication internal pipe temperature
Degree adaptation and the target inner tube temperature for being higher than specified inner tube temperature.The concrete function of the execution unit 104 and processing are referring to step
S120。
As a result, by determining communication inner tube temperature and target inner tube temperature, air-conditioning can be made with target inner tube temperature outlet air
When, not by specified inner tube temperature when overload protection mechanism limited, control convenience it is good, high reliablity.
In one example, the execution unit 104 can be also used for default wind file, inner tube temperature, target inner tube temperature
With the corresponding relationship of rotating speed of target, according to the current wind file, current inner tube temperature and the target inner tube temperature of determination and institute
It states corresponding relationship and determines rotating speed of target, so that the air-conditioning carries out high temperature outlet air by the rotating speed of target.The execution unit 104
Concrete function and processing see also step S130.
Such as: leaving air temp reaches as high as 60 DEG C, and energy certain time, meets user demand.
It as a result, by the negative compensation of tube temperature, can relax the limitation of overload protection without shielding protection mechanism, make outer
Machine is less prone to high temperature-proof protection;It is adjusted by internal rotation speed of fan, the reliability of high temperature outlet air, Jin Erti can be improved
Rise the comfortable sexual experience of user.
Optionally, execution unit 104 may include: speed adjusting module 1044.
In an optional specific example, speed adjusting module 1044 is determined for the initial of the inner blower of the air-conditioning
Revolving speed, and the inner blower is made to run the first preset duration by the initial speed.The concrete function of the speed adjusting module 1044 and
Processing is referring to step S210.
More it is alternatively possible to as shown in connection with fig. 5 in the device of the invention an embodiment of speed adjusting module structural schematic diagram,
Further illustrate the specific structure of speed adjusting module 1044.Speed adjusting module 1044 may include: that initial velocity determines submodule
10442。
In a more optional specific example, initial velocity determines submodule 10442, can be used for when the current wind file
When less than or equal to the second gear, if the current inner tube temperature is less than preset temperature, the first gear is determined as described first
Beginning revolving speed;If the current inner tube temperature is greater than or equal to the preset temperature, second gear is determined as described first
Beginning revolving speed.
Wherein, the preset temperature may include: the limit temperature of the overload protection mechanism of the air-conditioning.
Such as: table is defined referring to initial speed, preset temperature is 50 DEG C.
As a result, by being default as what is be compared with current inner tube temperature using the limit temperature of overload protection mechanism
Temperature is conducive to the convenience and reliability that improve high temperature outlet air control.
In a more optional specific example, the initial velocity determines submodule 10442, can be also used for working as when described
Preceding wind file be equal to third gear, fourth speed position, fifth speed position, sixth speed position, in seventh speed position when any gear, if described current
When preset temperature described in inner tube temperature <, the gear that will be less than any gear preset value is determined as the initial speed;If
When the current inner tube temperature >=preset temperature, any gear is determined as the initial speed.
Such as: after indoor unit enters " high-temperature hot-air " mode, inner blower revolving speed (such as: initial speed) it can be by initial
Revolving speed defines table and determines.
Initial speed defines table: initial speed defines table
Wherein, it is defined in table in initial speed, the corresponding specific revolving speed of each gear of inner blower can be by application definition.
The value of the inner blower initial speed of different model, different type of machines can have nothing in common with each other.
As a result, by the size relation based on current inner tube temperature and preset temperature, initial velocity is determined, can make just
The determination of beginning speed is more convenient, but also the operational reliability of inner blower is more preferable.
Wherein, first gear, second gear, the third gear, the fourth speed position, the fifth speed
The wind file of position, the sixth speed position, the seventh speed position, successively increases.
It is arranged as a result, by the size to wind file, the adjusting of internal rotation speed of fan can be made more convenient, also more accurate.
In an optional specific example, the speed adjusting module 1044 can be also used for first preset duration and reach
When, determine the rotating speed of target of the inner blower, and run the inner blower by the rotating speed of target.The speed adjusting module 1044
Concrete function and processing see also step S220.
As a result, by determining initial speed, rotating speed of target is determined after moving the first preset duration, can make high temperature outlet air
Control it is more stable, relatively reliable.
More optionally, example shown in Figure 5, speed adjusting module 1044 can also include: that rotating speed of target determines submodule
10444。
In a more optional specific example, rotating speed of target determines submodule 10444, can be used for obtaining the air-conditioning
Practical inner tube temperature, and obtain the current rotating speed of the air-conditioning.The rotating speed of target determines concrete function and the place of submodule 10444
Reason is referring to step S310.
In a more optional specific example, the rotating speed of target determines submodule 10444, can be also used for according to
The difference of target inner tube temperature and the practical inner tube temperature, by with the matched goal-selling revolving speed of the difference, will described in work as
Preceding rotational speed regulation be and the matched rotating speed of target of the difference.The rotating speed of target determines the concrete function of submodule 10444
And processing sees also step S320.
As a result, by the determination based on practical inner tube temperature and current rotating speed to rotating speed of target, be conducive to improve inner blower
The stability and reliability of operation are also beneficial to improve the comfort and persistence of high temperature outlet air.
Wherein, the wind file of the initial speed is greater than or equal to first gear and is less than or equal to the seventh speed
Position.Such as: table is defined referring to initial speed, initial speed cannot be below 1 grade (i.e. first gear) always, and not above 7 grades
(i.e. seventh speed position).
As a result, by the limitation to rotating speed of target wind file, the reliability of inner blower revolving speed and safety can be made all may be used
To be ensured well.
It, can rotating speed of target determines submodule in the device of the invention as shown in connection with fig. 6 in a concrete application example
An embodiment structural schematic diagram, further illustrate that rotating speed of target determines the specific structure of submodule 10444.Rotating speed of target is true
Stator modules 10444 may include: revolving speed calculator 104442.
More specifically, revolving speed calculator 104442, can be used for when the difference is greater than the first preset value, the target
Revolving speed is equal to the current rotating speed and subtracts the first correction value.
More specifically, the revolving speed calculator 104442, can be also used for being greater than the second preset value and small when the difference
When first preset value, the rotating speed of target is equal to the current rotating speed and subtracts the second correction value.
More specifically, the revolving speed calculator 104442, can be also used for being greater than third preset value and small when the difference
When second preset value, the rotating speed of target is equal to the current rotating speed.
More specifically, the revolving speed calculator 104442, can be also used for being greater than the 4th preset value and small when the difference
When the third preset value, the rotating speed of target is equal to the current rotating speed and increases third correction value.
More specifically, the revolving speed calculator 104442, can be also used for being less than or equal to the described 4th when the difference
Preset value, the rotating speed of target are equal to the current rotating speed and increase by the 4th correction value.
Such as: can according to target rotational speed regulation table rotating speed of target, adjust running speed.
Rotating speed of target adjusts table
It utilizes " fuzzy+I " to adjust inner blower revolving speed as a result, accurately controls inner tube temperature, make constant air outlet temperature, more preferably
Ground meets the needs of user is to high leaving air temp.
Wherein, first correction value, second correction value, the third correction value, the 4th correction value are
Positive number, and second correction value is less than first correction value, and/or the 4th correction value and corrects greater than the third
Value.
As a result, by limiting the concrete form of each correction value, the adjusting to rotating speed of target can be made relatively reliable, also more
Add conveniently.
In an optional specific example, example shown in Figure 5, speed adjusting module 1044 can also include: time control
System module 10446.
In a more optional specific example, time control submodule 10446 can be used between being with the second preset duration
Every carrying out interval adjusting to the current rotating speed.That is, current rotating speed when each second preset duration is reached,
It is adjusted to the matched rotating speed of target of difference when reaching with each second preset duration.
Such as: after initial speed runs 30s, according to target tube temperature Tm (i.e. target inner tube temperature, such as: Tm=60 DEG C)
And the difference of practical inner tube temperature T, every 20s adjust a running speed.
As a result, by the way that rotating speed of target is adjusted using the second preset duration as interval, be conducive to improve inner blower operation
Stability, be also beneficial to promote the comfortable sexual experience that uses of user.
In an optional example, the execution unit 104 be can be also used for according to preset timing, to described
High temperature outlet air is timed control.
Such as: after the interior machine (i.e. indoor unit) of air-conditioning receives " high-temperature hot-air " signal of remote controler transmission, timer
Start timing t.
Optionally, the execution unit 104 may include: timing module 1042.
In an optional specific example, timing module 1042 can be used for when the timing starts, to described
Current wind file and the current inner tube temperature are obtained.
Such as: in timer initiation, while recording the wind file S0 (i.e. current wind file) and inner tube temperature T0 at current time
(i.e. current inner tube temperature).
In an optional specific example, the timing module 1042 be can be also used in the timing, to institute
State communication inner tube temperature be determined, and/or internally rotation speed of fan be adjusted.
Such as: as the timing time t < 30min of timer, into " high-temperature hot-air " mode, Tc=T+ under the mode
Tb.Wherein, Tc is communication inner tube temperature, and T is practical inner tube temperature, and Tb is compensation temperature (such as: Tb=-8 DEG C).
In an optional specific example, the timing module 1042 be can be also used for when the timing reaches,
The communication inner tube temperature is adjusted to the current inner tube temperature.
Such as: as timing time t >=30min of timer, " high-temperature hot-air " mode is exited, at this time Tc=T.
As a result, by the timing controlled to high temperature outlet air, it on the one hand can guarantee the comfortable sexual experience that user uses, it is another
Aspect can promote the safety and energy saving of operation of air conditioner, and reliability and hommization can be greatly improved.
It can also include: setting unit 106 in an optional embodiment.
In an optional example, setting unit 106, can be used for the current wind file that obtains the air-conditioning and it is current in
Before tube temperature degree, determine that the initial leaving air temp of the air-conditioning is the specified inner tube temperature, and/or the wind for determining the air-conditioning
Shelves are automatic transmission, and/or the timing for determining the high temperature outlet air.
Such as: the remote controler of air-conditioning can use a variety of settings under " high-temperature hot-air " mode.
Such as: it is for 30 DEG C and non-adjustable that temperature can be set.
Such as: it is automatic transmission and non-adjustable that wind file, which can be set,.
Such as: after timing 30min can be set, automatically exit from " high-temperature hot-air " mode.
As a result, by the parameter of default setting high temperature outlet air, user can be made to make the high temperature outlet air function of air-conditioning
With more convenient, user experience is also more preferably.
The processing and function realized by the device of the present embodiment essentially correspond to earlier figures 1 to method shown in Fig. 3
Embodiment, principle and example, therefore not detailed place in the description of the present embodiment may refer to mutually speaking on somebody's behalf in previous embodiment
Bright, this will not be repeated here.
Through a large amount of verification experimental verification, does not have to shielding by the method for the negative compensation of tube temperature using technical solution of the present invention and protect
Protection mechanism can relax the limitation of overload protection, and then increase leaving air temp, promote user experience.
According to an embodiment of the invention, additionally providing a kind of air-conditioning of the temperature control equipment corresponding to air-conditioning.The air-conditioning
It may include: the temperature control equipment of above-described air-conditioning.
In an optional embodiment, the temperature controlled processes of the air-conditioning may refer to example shown in Fig. 7.
In one example, the remote controler of air-conditioning can use a variety of settings under " high-temperature hot-air " mode.
It is alternatively possible to be arranged: temperature is for 30 DEG C and non-adjustable.
It is alternatively possible to be arranged: wind file is automatic transmission and non-adjustable.
It is alternatively possible to be arranged: after timing 30min, automatically exiting from " high-temperature hot-air " mode.
In one example, when the interior machine (i.e. indoor unit) of air-conditioning receives " high-temperature hot-air " signal of remote controler transmission
Afterwards, timer starts timing t, while the wind file S0 (i.e. current wind file) and inner tube temperature T0 that record current time are (i.e. current interior
Tube temperature degree).
Wherein, T0 is the practical internal pipe temperature (inner tube temperature before negative compensation) into high-temperature hot-air mode current time, it
Value be fixed.T0 is with respect to for negative compensation, and in other words practical inner tube temperature is exactly the internal pipe temperature before negative compensate
Degree.
In an optional specific example, as the timing time t < 30min of timer, into " high-temperature hot-air " mode,
Tc=T+Tb under the mode.
Wherein, Tc is communication inner tube temperature, and T is practical inner tube temperature, and Tb is compensation temperature.Such as: Tb=-8 DEG C.It is logical
Inner tube temperature Tc is interrogated, refers to the temperature of the indoor heat exchanger of the air-conditioning and the communication inner tube of outdoor heat exchanger communication.
Such as: T is the inner tube temperature of real-time detection, its value is variation.
As it can be seen that the limitation of overload protection can be relaxed without shielding protection mechanism by the method for the negative compensation of tube temperature.
In an optional specific example, as timing time t >=30min of timer, " high-temperature hot-air " mode is exited,
Tc=T at this time.
In one example, after indoor unit enters " high-temperature hot-air " mode, and inner blower revolving speed (such as: initial speed) it can
It is determined with defining table by initial speed.
Initial speed defines table: initial speed defines table
Wherein, it is defined in table in initial speed, the corresponding specific revolving speed of each gear of inner blower can be by application definition.
The value of the inner blower initial speed of different model, different type of machines can have nothing in common with each other.
Optionally, initial speed operation 30s after, according to target tube temperature Tm (i.e. target inner tube temperature, such as: Tm=60
DEG C) and practical inner tube temperature T difference, every 20s adjusts a running speed.Such as: can according to target rotational speed regulation table target
Revolving speed adjusts running speed.
Wherein, target inner tube temperature Tm and leaving air temp when high temperature outlet air, the two is very close, but incomplete one
It causes.Generally, it is premise that leaving air temp reaches 60 degree that target inner tube temperature Tm, which reaches 60 degree,.Practical inner tube temperature T herein,
It is the currently practical inner tube temperature T detected.
Rotating speed of target adjusts table: rotating speed of target adjusts table
Tm-T | Rotating speed of target |
Tm-T > 8 | Rotating speed of target=current rotating speed -20 |
2 Tm-T≤8 < | Rotating speed of target=current rotating speed -10 |
- 2 Tm-T≤2 < | Rotating speed of target=current rotating speed |
- 4 < Tm-T≤- 2 | Rotating speed of target=current rotating speed+20 |
Tm-T≤- 4 | Rotating speed of target=current rotating speed+30 |
Optionally, table is defined referring to initial speed, rotating speed of target cannot be below 1 grade always, and not above 7 grades.
As it can be seen that " fuzzy+I " is utilized to adjust inner blower revolving speed, inner tube temperature is accurately controlled, constant air outlet temperature is made.
The processing and function realized by the air-conditioning of the present embodiment essentially correspond to earlier figures 4 to device shown in fig. 6
Embodiment, principle and example, therefore not detailed place in the description of the present embodiment may refer to mutually speaking on somebody's behalf in previous embodiment
Bright, this will not be repeated here.
Through a large amount of verification experimental verification, using technical solution of the present invention, " fuzzy+I " is utilized to adjust inner blower revolving speed, accurately
Inner tube temperature is controlled, constant air outlet temperature is made, promotes the reliability and stability of high temperature outlet air.
To sum up, it will be readily appreciated by those skilled in the art that under the premise of not conflicting, above-mentioned each advantageous manner can be certainly
It combined, be superimposed by ground.
The above description is only an embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art
For member, the invention may be variously modified and varied.All within the spirits and principles of the present invention, it is made it is any modification,
Equivalent replacement, improvement etc., should be included within scope of the presently claimed invention.
Claims (13)
1. a kind of temprature control method of air-conditioning characterized by comprising
Obtain the current wind file and current inner tube temperature of the air-conditioning;
The negative compensation of temperature is carried out to the current inner tube temperature, as the communication inner tube temperature of the air-conditioning, with machine indoors with
Outdoor unit uses when communicating;And determination is adapted to the communication inner tube temperature and is higher than the target internal pipe temperature of specified inner tube temperature
Degree;
The corresponding relationship of default wind file, inner tube temperature, target inner tube temperature and rotating speed of target, according to the current wind file, currently
Inner tube temperature and the target inner tube temperature of determination and the corresponding relationship determine rotating speed of target, so that the air-conditioning presses the mesh
It marks revolving speed and carries out high temperature outlet air;
Wherein, true according to the current wind file, current inner tube temperature and the target inner tube temperature of determination and the corresponding relationship
Set the goal revolving speed, comprising:
When determining the initial speed of the inner blower of the air-conditioning, and keeping the inner blower default by initial speed operation first
It is long;
When first preset duration reaches, the rotating speed of target of the inner blower is determined, and make the inner blower by the target
Revolving speed operation.
2. the method according to claim 1, wherein further include:
According to preset timing, control is timed to the high temperature outlet air;
Wherein,
The timing controlled, comprising:
In timing starting, the current wind file and the current inner tube temperature are obtained;
And/or
In the timing, the communication inner tube temperature is determined, and/or internally rotation speed of fan is adjusted;
And/or
When the timing reaches, the communication inner tube temperature is adjusted to the current inner tube temperature.
3. method according to claim 1 or 2, which is characterized in that further include:
Before the current wind file and current inner tube temperature for obtaining the air-conditioning, determine the initial leaving air temp of the air-conditioning for institute
When stating specified inner tube temperature, and/or determining that the wind file of the air-conditioning is automatic transmission, and/or determines the timing of the high temperature outlet air
Between.
4. the method according to claim 1, wherein
Determine the initial speed of the inner blower of the air-conditioning, comprising:
When the current wind file is less than or equal to the second gear,
If the current inner tube temperature is less than preset temperature, the first gear is determined as the initial speed;If described current
When inner tube temperature is greater than or equal to the preset temperature, second gear is determined as the initial speed;And/or
When the current wind file is equal to any gear in third gear, fourth speed position, fifth speed position, sixth speed position, seventh speed position
When,
If when preset temperature described in the current inner tube temperature <, the gear that will be less than any gear preset value is determined as institute
State initial speed;If when the current inner tube temperature >=preset temperature, any gear is determined as described initial turn
Speed;
And/or
Determine the rotating speed of target of the inner blower, comprising:
The practical inner tube temperature of the air-conditioning is obtained, and obtains the current rotating speed of the air-conditioning;
According to the difference of the target inner tube temperature and the practical inner tube temperature, turn by with the matched goal-selling of the difference
The current rotating speed is adjusted to and the matched rotating speed of target of the difference by speed.
5. according to the method described in claim 4, it is characterized in that,
Determine the rotating speed of target of the inner blower, further includes:
Using the second preset duration as interval, interval adjusting is carried out to the current rotating speed;That is, by each second preset duration
Current rotating speed when arrival is adjusted to the matched mesh of difference when reaching with each second preset duration
Mark revolving speed;
And/or
The current rotating speed is adjusted to and the matched rotating speed of target of the difference, comprising:
When the difference is greater than the first preset value, the rotating speed of target is equal to the current rotating speed and subtracts the first correction value;With/
Or,
When the difference is greater than the second preset value and is less than or equal to first preset value, the rotating speed of target is equal to institute
It states current rotating speed and subtracts the second correction value;And/or
When the difference is greater than third preset value and is less than or equal to second preset value, the rotating speed of target is equal to institute
State current rotating speed;And/or
When the difference is greater than the 4th preset value and is less than or equal to the third preset value, the rotating speed of target is equal to institute
It states current rotating speed and increases third correction value;And/or
When the difference is less than or equal to the 4th preset value, the rotating speed of target is equal to current rotating speed increase the 4th and repairs
Positive value.
6. according to the method described in claim 5, it is characterized in that, wherein,
The preset temperature, comprising: the limit temperature of the overload protection mechanism of the air-conditioning;
And/or
First gear, second gear, the third gear, the fourth speed position, the fifth speed position, the described 6th
Gear, the seventh speed position wind file, successively increase;
And/or
The wind file of the initial speed is greater than or equal to first gear and is less than or equal to the seventh speed position;
And/or
First correction value, second correction value, the third correction value, the 4th correction value are positive number, and institute
It states the second correction value and is greater than the third correction value less than first correction value, and/or the 4th correction value.
7. a kind of temperature control equipment of air-conditioning characterized by comprising
Acquiring unit obtains the current wind file and current inner tube temperature of the air-conditioning;
Execution unit, for carrying out the negative compensation of temperature to the current inner tube temperature, as the communication inner tube temperature of the air-conditioning,
It is used when being communicated with machine indoors with outdoor unit;And it determines and is adapted to the communication inner tube temperature and is higher than specified inner tube temperature
Target inner tube temperature;
The execution unit is also used to the corresponding relationship of default wind file, inner tube temperature, target inner tube temperature and rotating speed of target, root
Rotating speed of target is determined according to the current wind file, current inner tube temperature and the target inner tube temperature of determination and the corresponding relationship,
So that the air-conditioning carries out high temperature outlet air by the rotating speed of target;
Wherein, execution unit, comprising:
Speed adjusting module, the initial speed of the inner blower for determining the air-conditioning, and make the inner blower by the initial speed
Run the first preset duration;
The speed adjusting module determines the rotating speed of target of the inner blower, and make institute when being also used to first preset duration arrival
Inner blower is stated to run by the rotating speed of target.
8. device according to claim 7, which is characterized in that further include:
The execution unit, is also used to according to preset timing, is timed control to the high temperature outlet air;
Wherein,
The execution unit, comprising:
Timing module, for being obtained to the current wind file and the current inner tube temperature in timing starting
It takes;
And/or
The timing module is also used in the timing, is determined to the communication inner tube temperature, and/or internally
Rotation speed of fan is adjusted;
And/or
The timing module is also used to when the timing reaches, and the communication inner tube temperature is adjusted to described current
Inner tube temperature.
9. device according to claim 7 or 8, which is characterized in that further include:
Setting unit, for before the current wind file and current inner tube temperature for obtaining the air-conditioning, determining the first of the air-conditioning
Beginning leaving air temp is the specified inner tube temperature, and/or determines that the wind file of the air-conditioning is automatic transmission, and/or the determining height
The timing of warm outlet air.
10. device according to claim 7, which is characterized in that
Speed adjusting module, comprising:
Initial velocity determines submodule, is used for when the current wind file is less than or equal to the second gear,
If the current inner tube temperature is less than preset temperature, the first gear is determined as the initial speed;If described current
When inner tube temperature is greater than or equal to the preset temperature, second gear is determined as the initial speed;And/or
The initial velocity determines submodule, is also used to be equal to third gear, fourth speed position, fifth speed when the current wind file
Position, sixth speed position, in seventh speed position when any gear,
If when preset temperature described in the current inner tube temperature <, the gear that will be less than any gear preset value is determined as institute
State initial speed;If when the current inner tube temperature >=preset temperature, any gear is determined as described initial turn
Speed;
And/or
Speed adjusting module, further includes:
Rotating speed of target determines submodule, and for obtaining the practical inner tube temperature of the air-conditioning, and obtain the air-conditioning works as forward
Speed;
The rotating speed of target determines submodule, is also used to the difference according to the target inner tube temperature and the practical inner tube temperature
Value, by with the matched goal-selling revolving speed of the difference, the current rotating speed is adjusted to and the matched mesh of the difference
Mark revolving speed.
11. device according to claim 10, which is characterized in that
Speed adjusting module, further includes:
Time control submodule, for carrying out interval adjusting to the current rotating speed using the second preset duration as interval;That is, will
Current rotating speed when each second preset duration reaches, when being adjusted to reach with each second preset duration
The matched rotating speed of target of difference;
And/or
Rotating speed of target determines submodule, comprising:
Revolving speed calculator, for when the difference is greater than the first preset value, the rotating speed of target to be equal to the current rotating speed and subtracts
Go the first correction value;And/or
The revolving speed calculator is also used to when the difference is greater than the second preset value and is less than or equal to first preset value
When, the rotating speed of target is equal to the current rotating speed and subtracts the second correction value;And/or
The revolving speed calculator is also used to when the difference is greater than third preset value and is less than or equal to second preset value
When, the rotating speed of target is equal to the current rotating speed;And/or
The revolving speed calculator is also used to when the difference is greater than the 4th preset value and is less than or equal to the third preset value
When, the rotating speed of target is equal to the current rotating speed and increases third correction value;And/or
The revolving speed calculator is also used to be less than or equal to the 4th preset value when the difference, and the rotating speed of target is equal to
The current rotating speed increases by the 4th correction value.
12. device according to claim 11, which is characterized in that wherein,
The preset temperature, comprising: the limit temperature of the overload protection mechanism of the air-conditioning;
And/or
First gear, second gear, the third gear, the fourth speed position, the fifth speed position, the described 6th
Gear, the seventh speed position wind file, successively increase;
And/or
The wind file of the initial speed is greater than or equal to first gear and is less than or equal to the seventh speed position;
And/or
First correction value, second correction value, the third correction value, the 4th correction value are positive number, and institute
It states the second correction value and is greater than the third correction value less than first correction value, and/or the 4th correction value.
13. a kind of air-conditioning characterized by comprising the temperature control equipment of the air-conditioning as described in claim 7-12 is any.
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