CN107120806B - Control method and device for air supply of air conditioner - Google Patents
Control method and device for air supply of air conditioner Download PDFInfo
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- CN107120806B CN107120806B CN201710428923.0A CN201710428923A CN107120806B CN 107120806 B CN107120806 B CN 107120806B CN 201710428923 A CN201710428923 A CN 201710428923A CN 107120806 B CN107120806 B CN 107120806B
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- 238000000034 method Methods 0.000 title claims abstract description 39
- 238000004378 air conditioning Methods 0.000 claims description 147
- 238000005057 refrigeration Methods 0.000 claims description 51
- 238000010438 heat treatment Methods 0.000 claims description 32
- 230000005540 biological transmission Effects 0.000 claims description 6
- 230000007704 transition Effects 0.000 description 14
- 238000010586 diagram Methods 0.000 description 11
- 230000001953 sensory effect Effects 0.000 description 10
- 230000008859 change Effects 0.000 description 4
- 238000007664 blowing Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000008014 freezing Effects 0.000 description 2
- 238000007710 freezing Methods 0.000 description 2
- 230000009467 reduction Effects 0.000 description 2
- 230000036541 health Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000000750 progressive effect Effects 0.000 description 1
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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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- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a control method of air supply of an air conditioner, which is applied to an air conditioner control device. According to the indoor environment temperature, the set temperature and the heat exchanger tube temperature, the air supply direction is automatically adjusted, the air supply comfort is improved under the condition that a human body intelligent positioning sensor is not used, and the operation cost is reduced.
Description
Technical field
The present invention relates to air conditioner controlling technology fields, more specifically to the control method and dress of a kind of air-conditioning
It sets.
Background technique
As being gradually increased for living standards of the people promotes user experience, air-conditioning for the diversified demand for meeting people
Gradually develop in terms of intelligence, wherein the intelligent air supply of air-conditioning is exactly one of direction of intelligent development of air-conditioning.
In the prior art, by starting human body intelligent alignment sensor, room is scanned, determines someone's spatial dimension, is calculated
The vertical swing flap range and left and right swing flap range in someone's swing flap region;Calculate human body under environment temperature and air-conditioning current operation mode
The difference of comfort temperature;According to the comparison of difference and 0 relativity and difference and the uncomfortable temperature difference limit value of human body
Relationship controls left and right wind deflector in the rotational angular velocity of the left and right swing flap range.Air-conditioning by difference with 0 relativity with
And the relativity control left and right wind deflector of difference and the uncomfortable temperature difference limit value of human body under refrigeration mode is swept in the left and right
The rotational angular velocity that demeanour is enclosed;Air-supply comfort is improved, and is conducive to human health.
However the air conditioner price in above-mentioned technical proposal with human body intelligent alignment sensor is costly, for common
It is difficult to bear for masses.
Summary of the invention
In view of this, the purpose of the present invention is to provide a kind of control method of air-conditioning, according to indoor environment temperature,
Set temperature and heat exchanger tube temperature automatically adjust air supply direction, improve in the case where not using human body intelligent alignment sensor
Air-supply comfort, reduces operating cost.
To achieve the above object, the invention provides the following technical scheme:
A kind of control method of air-conditioning is applied to air conditioning control device, the described method comprises the following steps:
Temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Wind-guiding plate control signal is generated based on the temperature information, the operational mode and the wind deflector operation information;
The wind deflector work of the air-conditioning is controlled based on the wind-guiding plate control signal.
Preferably, the temperature information includes indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts, the sky
The operational mode of tune includes refrigeration mode or heating mode;It is described based on the temperature information, the operational mode and described to lead
Aerofoil operation information generates wind-guiding plate control signal
The first warm area information is generated based on the operational mode, the environment temperature Ta and the set temperature Ts;
The wind-guiding is generated based on the first warm area information, the heat exchanger tube temperature Tt and the wind deflector operation information
Plate control signal.
It preferably, further include sleep pattern in the operational mode of the air-conditioning;It is described to be based on the temperature information, the fortune
Row mode and the wind deflector operation information generate wind-guiding plate control signal further include:
Judge whether the operational mode includes refrigeration mode;
When the operational mode includes refrigeration mode, judge whether the operational mode includes sleep pattern;
When the operational mode includes sleep pattern, the first wind-guiding plate control signal, the first wind deflector control are generated
Signal processed is in sleep gear for controlling the wind deflector.
Preferably, the method also includes:
Acquire the blower gear information of the air-conditioning;
Air-blower control signal is generated based on the temperature information, the operational mode and the blower gear information;
The revolving speed of the blower is adjusted based on the air-blower control signal.
Preferably, described that blower control is generated based on the temperature information, the operational mode and the blower gear information
Signal processed includes:
The second warm area information is generated based on the operational mode, the environment temperature Ta and the set temperature Ts;
The blower control is generated based on the second warm area information, the heat exchanger tube temperature Tt and the blower gear information
Signal processed.
It preferably, further include silent mode in the operational mode of the air-conditioning;It is described to be based on the temperature information, the fortune
Row mode and the blower gear information generate air-blower control signal further include:
Judge whether the operational mode includes silent mode;
When the operational mode includes silent mode, the first air-blower control signal, the first air-blower control letter are generated
Number for control the blower revolving speed it is constant.
Preferably, the method also includes:
The wind deflector that transmission and reception apparatus is sent fixes signal;
It controls the wind deflector based on the wind deflector signal that fixes and fixes.
A kind of control device of air-conditioning, described device include acquisition device, the first generation module and the first control mould
Block, in which:
The acquisition device is used for temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
First generation module is used to be based on the temperature information, the operational mode and the wind deflector operation information
Generate wind-guiding plate control signal;
First control module is used to control the wind deflector work of the air-conditioning based on the wind-guiding plate control signal.
Preferably, the temperature information includes indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts, the sky
The operational mode of tune includes one of refrigeration mode or heating mode;First generation module includes the first generation unit and second
Generation unit, in which:
First generation unit is used for raw based on the operational mode, the environment temperature Ta and the set temperature Ts
At the first warm area information;
Second generation unit is used to be based on the first warm area information, the heat exchanger tube temperature Tt and the wind deflector
Operation information generates the wind-guiding plate control signal.
It preferably, further include sleep pattern in the operational mode of the air-conditioning;First generation module further includes first
Judging unit and second judgment unit, in which:
First judging unit is for judging whether the operational mode includes refrigeration mode;
The second judgment unit is used for when the operational mode includes refrigeration mode, whether judges the operational mode
Including sleep pattern;
Second generation unit is also used to when the operational mode includes sleep pattern, generates the control of the first wind deflector
Signal, the first wind-guiding plate control signal are in sleep gear for controlling the wind deflector.
Preferably, described device further includes the second generation module and the second control module, in which:
The acquisition device is also used to acquire the blower gear information of the air-conditioning;
Second generation module is used for raw based on the temperature information, the operational mode and the blower gear information
Become a common practice machine control signal;
Second control module is used to adjust the revolving speed of the blower based on the air-blower control signal.
Preferably, second generation module includes third generation unit and the 4th generation unit, in which:
The third generation unit is used for raw based on the operational mode, the environment temperature Ta and the set temperature Ts
At the second warm area information;
4th generation unit is used to be based on the second warm area information, the heat exchanger tube temperature Tt and the blower shelves
Position information generates the air-blower control signal.
It preferably, further include silent mode in the operational mode of the air-conditioning;Second generation module further includes third
Judging unit, in which:
The third judging unit is for judging whether the operational mode includes silent mode;
4th generation unit is also used to when the operational mode includes silent mode, generates the first air-blower control letter
Number, the revolving speed that the first air-blower control signal is used to control the blower is constant.
Preferably, described device further includes reception device, in which:
Wind deflector of the reception device for transmission and reception apparatus to be sent fixes signal;
First control module signal that is also used to be fixed based on the wind deflector is controlled the wind deflector and fixes.
It can be seen from the above technical proposal that being applied to air-conditioning the invention discloses a kind of control method of air-conditioning
Control device, method includes temperature collection information, the operational mode of air-conditioning and wind deflector operation information, based on temperature information, fortune
Row mode and wind deflector operation information generate wind-guiding plate control signal, the wind deflector work based on wind-guiding plate control signal control air-conditioning
Make.According to indoor environment temperature, set temperature and heat exchanger tube temperature, air supply direction is automatically adjusted, fixed without using human body intelligent
Air-supply comfort is improved in the case where level sensor, reduces operating cost.
Detailed description of the invention
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
Other attached drawings are obtained according to these attached drawings.
Fig. 1 is a kind of flow chart of the embodiment 1 of the control method of air-conditioning disclosed by the invention;
Fig. 2 is the flow chart of the embodiment 2 of the control method of another air-conditioning disclosed by the invention;
Fig. 3 is the flow chart of the embodiment 3 of the control method of another air-conditioning disclosed by the invention;
Fig. 4 is the flow chart of the embodiment 4 of the control method of another air-conditioning disclosed by the invention;
Fig. 5 is the flow chart of the embodiment 5 of the control method of another air-conditioning disclosed by the invention;
Fig. 6 is a kind of structural schematic diagram of the embodiment 1 of the control device of air-conditioning disclosed by the invention;
Fig. 7 is the structural schematic diagram of the embodiment 2 of the control device of another air-conditioning disclosed by the invention;
Fig. 8 is the structural schematic diagram of the embodiment 3 of the control device of another air-conditioning disclosed by the invention;
Fig. 9 is the structural schematic diagram of the embodiment 4 of the control device of another air-conditioning disclosed by the invention;
Figure 10 is the structural schematic diagram of the embodiment 5 of the control device of another air-conditioning disclosed by the invention;
Figure 11 is a kind of schematic diagram of air conditioner air deflector location status disclosed by the invention;
Figure 12 is the schematic diagram of another air conditioner air deflector location status disclosed by the invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other
Embodiment shall fall within the protection scope of the present invention.
As shown in Figure 1, being a kind of flow chart of the embodiment 1 of the control method of air-conditioning disclosed by the invention, we
Method is applied to air conditioning control device, comprising the following steps:
S101, temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Temperature information may include indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts etc., the operation of air-conditioning
Mode may include refrigeration, heating and dehumidifying etc., and wind deflector operation information may include the location information of wind deflector, operational mode
Information and the speed of service etc..
S102, wind-guiding plate control signal is generated based on temperature information, operational mode and wind deflector operation information;
According to the operation information of collected a variety of different temperature, the operational mode of air-conditioning and wind deflector, Ke Yigen
The wind-guiding plate control signal that family can be used to feel comfortable is generated according to preset algorithm.
S103, the wind deflector work based on wind-guiding plate control signal control air-conditioning;
Wind-guiding plate control signal based on generation can realize the control to the wind deflector of air-conditioning, such as wind deflector is fixed on
A certain location status.Wind deflector running position state is different under refrigeration mode and heating mode, for example: such as Figure 11
And shown in Figure 12, when refrigeration mode, wind deflector location status can have 5, respectively C1, C2, C3, C4, C5.Wherein, the position C1
For the upward extreme angles of outlet air of freezing;The position C1~C2 is that refrigeration wind keeps away the upward air outlet angle range of people;The position C3 goes out for level
Wind position;The position C4 is that outlet air most cis-position is set;The position C5 is the refrigeration downward extreme angles of outlet air.When heating mode, wind deflector position
The state of setting can have 5, respectively H1, H2, H3, H4, H5.Wherein, the position H1 is to heat anti-cold wind angle, and level is slightly upwardly;H2
Position is the heating upward extreme angles of outlet air;The position H3 is heating default air outlet angle;The position H4~H5 be heating wind keep away people to
Lower air outlet angle range;The position H5 is the heating downward extreme angles of outlet air.
It can be seen from the above technical proposal that being applied to air-conditioning the invention discloses a kind of control method of air-conditioning
Control device, method includes temperature collection information, the operational mode of air-conditioning and wind deflector operation information, based on temperature information, fortune
Row mode and wind deflector operation information generate wind-guiding plate control signal, the wind deflector work based on wind-guiding plate control signal control air-conditioning
Make.According to indoor environment temperature, set temperature and heat exchanger tube temperature, air supply direction is automatically adjusted, fixed without using human body intelligent
Air-supply comfort is improved in the case where level sensor, reduces operating cost.
As shown in Fig. 2, the flow chart of the embodiment 2 for the control method of another air-conditioning disclosed by the invention, this
Method is applied to air conditioning control device, comprising the following steps:
S201, temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Temperature information includes indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts, the operational mode packet of air-conditioning
One of refrigeration mode or heating mode are included, the operation information of wind deflector may include that wind deflector works in default mode or to lead up and down
The work of wind mode.
S202, the first warm area information is generated based on operational mode, environment temperature Ta and set temperature Ts;
It can determine whether indoor warm area state based on operational mode, environment temperature Ta and set temperature Ts, generate the first warm area
Information, warm area state can embody the comfort level of user under Current Temperatures.
S203, wind-guiding plate control signal is generated based on the first warm area information, heat exchanger tube temperature Tt and wind deflector operation information;
First warm area information combination heat exchanger tube temperature Tt and wind deflector operation information are produced and be used to control wind deflector work
The wind-guiding plate control signal of work.It illustrates below and S202 and S203 is illustrated:
It is as shown in the table when operational mode is refrigeration mode:
Wherein, the value for the preset temperature of judgement can are as follows: and Tc1=30 DEG C, Tc2=26 DEG C, Tc3=24 DEG C, Tc4=
20 DEG C, T '=2 DEG C;T1=10 DEG C of tube temperature Rule of judgment, T2=14 DEG C, T3=16 DEG C, Δ Tc=Ta-Ts.
In refrigeration mode, the first warm area information include: non-comfort zone, transition region, comfort zone, compared with cold-zone or transition region.
As seen from the above table as Ta > Tc1, room is in non-comfort zone, and temperature is higher, human body sensory heat, at this point, if pipe
Temperature is lower, i.e. when Tt < T2, air-conditioning booting wind deflector default fixes to position C4, if user sets wind-guiding up and down, wind deflector
It is swung in C3 between C5, if tube temperature is moderate or higher, i.e. when Tt >=T2, air-conditioning booting wind deflector default fixes to position C5,
If user sets wind-guiding, wind deflector up and down and swings in C4 between C5.
As Tc2 < Ta < Tc1, room is in transition region, and temperature drift, human body sensory is warmmer, at this point, to guarantee room
Temperature uniformly and rapidly cools down, and air-conditioning booting wind deflector default fixes to position C4, if user sets wind-guiding up and down, wind deflector
It is swung in C1 between C5.
As { Tc3≤Ta≤Tc2 } or { Ta >=Tc3, and Δ Tc≤T ' }, room is in comfort zone, and condition Ta >=
Tc3, and Δ Tc≤T ' } there is priority, air-conditioning booting wind deflector default fixes to position C3, if user sets wind-guiding up and down,
Then wind deflector is swung in C1 between C5.
As Tc4≤Ta < Tc3, room is in compared with cold-zone, and air-conditioning booting wind deflector default fixes to position C2, if user
Wind-guiding up and down is set, then wind deflector is swung in C1 between C3.
As Ta < Tc4, room was in cold-zone, if tube temperature is lower, i.e. when Tt < T2, the air-conditioning wind deflector default that is switched on is fixed
Lattice are to position C1, if user sets wind-guiding up and down, wind deflector is swung in C1 between C2, if tube temperature is moderate or higher, i.e. Tt
When >=T2, air-conditioning booting wind deflector default fixes to position C1, if user sets wind-guiding up and down, wind deflector is in C1 between C2
It swings.
It is as shown in the table when operational mode is heating mode:
Wherein, the value for the preset temperature of judgement can are as follows: and Th1=28 DEG C, Th2=25 DEG C, Th3=20 DEG C, Th4=
14 DEG C, T '=2 DEG C;T4=36 DEG C, T5=42 DEG C, T6=48 DEG C, T7=55 DEG C of tube temperature Rule of judgment.Δ Th=Ts-Ta
In heating mode, the first warm area information includes: non-comfort zone, transition region, comfort zone, relatively warms up area or compared with hot-zone.
As Ta < Th4, room is in non-comfort zone, and temperature is lower, and human body sensory is cold, at this point, if tube temperature is very low, i.e.,
Tt < T4 when outlet air is cold wind, is switched in 3min, and air-conditioning booting wind deflector default fixes to position H1, if user's setting is up and down
Wind-guiding, then wind deflector is swung in H4 between H5, is switched on after 3min, and air-conditioning booting wind deflector default fixes to position H5, if with
Family sets wind-guiding up and down, then wind deflector is swung in H4 between H5;If tube temperature T4 < Tt≤T5, outlet air is cooler, then air-conditioning is switched on
Wind deflector default fixes to position H5, if user sets wind-guiding, wind deflector up and down and swings in H4 between H5;If tube temperature is suitable
In, i.e. when T5 < Tt < T6, air-conditioning booting wind deflector default fixes to position H4, if user sets wind-guiding up and down, wind deflector
It is swung in H4 between H5;If tube temperature is higher, i.e., when leaving air temp is warm or hot, air-conditioning booting wind deflector default fixes to position
H3, if user sets wind-guiding, wind deflector up and down and swings in H4 between H5.
As Th4≤Ta < Th3, room is in transition region, and temperature is cooler, and human body sensory is cooler, and tube temperature is suitable for or warms up partially,
When i.e. leaving air temp is in comfortable or warm temperature, air-conditioning booting wind deflector default fixes to position H4, under remaining tube temperature state,
Air-conditioning booting wind deflector default fixes to position H5, when tube temperature is excessively high, i.e., when leaving air temp is warmmer, if user's setting is led up and down
Wind, then wind deflector is swung in H3 between H5, remaining tube temperature state is then swung in H4 between H5.
As { Th3≤Ta≤Th2 } or { Ta >=Th3, and Δ Th≤T ' }, room is in comfort zone, and condition Ta >=
Th3, and Δ Th≤T ' } there is priority, tube temperature is high, i.e., when leaving air temp is warmmer, air-conditioning booting wind deflector default fixes to position
H5 is set, if user sets wind-guiding, wind deflector up and down and swings in H3 between H5;Tube temperature is higher, i.e., when outlet air is relatively warm, air-conditioning is opened
Machine wind deflector default fixes to position H4, and under remaining tube temperature, air-conditioning booting wind deflector default fixes to position H5, if user sets
Upper and lower wind-guiding, then wind deflector is swung in H4 between H5.
As Th2 < Ta≤Th1, room is in relatively warm area, and air-conditioning booting wind deflector default fixes to position H5, if tube temperature
Higher, leaving air temp is kept more than comfortably, then wind deflector is swung in H3 between H5;If tube temperature is lower, leaving air temp is cool or cold
When, then wind deflector is swung in H4 between H5.
As Ta > Th1, room is in compared with hot-zone, and it is position H5 that the wind deflector default of air-conditioning booting at this time, which fixes, if pipe
Temperature is higher, and more than leaving air temp keeps comfortable, then wind deflector is swung in H2 between H5, if tube temperature is lower, leaving air temp it is cool or
When cold, then wind deflector is swung in H4 between H5.
It include the basis of one of refrigeration mode or heating mode in the operational mode of air-conditioning to advanced optimize the present embodiment
The operational mode of upper air-conditioning can also include sleep pattern.
S204, judge whether operational mode includes refrigeration mode;
The wind deflector control of sleep pattern is applied in refrigeration mode, and therefore, it is necessary to preferentially judge whether operational mode wraps
Include refrigeration mode.
S205, when operational mode includes refrigeration mode, judge whether operational mode includes sleep pattern;
After judging operational mode includes refrigeration mode, then judge whether operational mode includes sleep pattern.
S206, when operational mode includes sleep pattern, generate the first wind-guiding plate control signal, the first wind deflector control letter
Number for control wind deflector be in sleep gear;
If the operational mode of air-conditioning is sleep pattern, the change of the tube temperature Tt value of environment temperature Ta and heat exchanger is not considered
To change, wind deflector should fix to position C1, therefore when operational mode includes sleep pattern, the first wind-guiding plate control signal is generated,
First wind-guiding plate control signal is in sleep gear for controlling wind deflector, and sleep gear is C1.
S207, the wind deflector work based on wind-guiding plate control signal control air-conditioning;
Based on the wind-guiding plate control signal generated in above-mentioned steps, control air-conditioning wind deflector be fixed on a certain position or
It swings back and forth in a certain position section.
As shown in figure 3, for the control method of the present invention disclosed another kind air-conditioning on the basis of the embodiment
Embodiment 3 flow chart, this method the following steps are included:
S301, the blower gear information for acquiring air-conditioning;
Blower gear information includes the operational taps of the blower of current air-conditioning, for example, the operational taps of air-conditioning can wrap
Include: it is superpower, high, middle it is high, in, in it is low and low.
S302, air-blower control signal is generated based on temperature information, operational mode and blower gear information;
The air-blower control signal being modified for the revolving speed to blower is produced based on temperature information and operational mode.
S303, the revolving speed based on air-blower control signal adjustment blower;
The revolving speed of blower can be modified based on air-blower control signal.
As shown in figure 4, for the control method of the present invention disclosed another kind air-conditioning on the basis of the embodiment
Embodiment 4 flow chart, this method the following steps are included:
S401, the second warm area information is generated based on operational mode, environment temperature Ta and set temperature Ts;
It can determine whether indoor warm area state based on operational mode, environment temperature Ta and set temperature Ts, generate the second warm area
Information, warm area state can embody the comfort level of user under Current Temperatures.
S402, air-blower control signal is generated based on the second warm area information, heat exchanger tube temperature Tt and blower gear information;
Second warm area information combination heat exchanger tube temperature Tt and blower gear information are produced and be used to control rotation speed of fan
Air-blower control signal.
The operational mode of air-conditioning may be used also on the basis of the operational mode of air-conditioning includes one of refrigeration mode or heating mode
To include silent mode;
S403, judge whether operational mode includes silent mode;
S404, when operational mode includes silent mode, generate the first air-blower control signal, the first air-blower control signal use
It is constant in the revolving speed of control blower;
When operational mode is silent mode, current rotating speed should be kept constant, therefore, generated for controlling rotation speed of fan not
The the first air-blower control signal become.
It illustrates below and the present embodiment is illustrated:
It is as shown in the table when air-conditioning is in refrigeration mode:
Wherein: n1=30rpm, n2=40rpm, n3=50rpm, n4=60rpm, n5=70rpm.
As seen from the above table when room temperature is in non-comfort zone, and tube temperature is higher, i.e., when leaving air temp is higher, in conjunction with wind-guiding
The motion state of plate is to blow people's state, is not adjusted at this time to rotation speed of fan;It is only low and low in when leaving air temp is comfortable
Increase rotation speed of fan when wind file;When leaving air temp is cooler, the revolving speed of superpower shelves and high wind file is not only changed, remaining wind file increases
Rotation speed of fan, wind file is lower, and revolving speed increases more.
When room temperature is in transition region, rotation speed of fan is reduced for superpower wind file, prevents tube temperature from increasing, superpower shelves with
When lower and tube temperature is moderate or higher, revolving speed is not adjusted, when tube temperature is lower, wind file, middle low wind file and low wind in increase
The revolving speed of shelves.
When room temperature is in comfort zone, to avoid generating blowing feeling, reduction processing is carried out to the revolving speed of superpower shelves,
Remaining gear does not adjust.
When room temperature is in compared with cold-zone, the wind file for more than centering wind file (being free of middle wind file) is carried out at drop revolving speed
Reason.
When room temperature was in cold-zone, the wind file for more than centering wind file (being free of middle wind file) is carried out at drop revolving speed
Reason, fall are bigger when being in than room temperature compared with cold-zone.
It is as shown in the table when air-conditioning is in refrigeration mode:
Wherein: Δ Th=Ts-Ta, n1=40rpm, n2=50rpm, n3=60rpm, n4=70rpm, n5=80rpm.
As seen from the above table when interior is in non-comfort zone, i.e. room temperature is lower, and when tube temperature is lower, outlet air is colder, right
Superpower shelves wind speed is reduced, and after leaving air temp rises, to be brought rapidly up interior, to the superpower and high following blower of wind file
Revolving speed is increased.
When interior is in transition region, i.e., during room temperature changes to comfort zone, human body sensory is micro- cool, to superpower shelves
Wind speed is reduced, and after leaving air temp rises, to be brought rapidly up interior, below superpower shelves, high wind file, middle high wind file
Rotation speed of fan increased.
When interior is in comfort zone, tube temperature is lower, i.e., when leaving air temp is cooler or colder, to superpower windscreen and high wind file into
Row revolving speed reduces, and wind file when comfortable to tube temperature and higher not adjusts.
When interior is in relatively warm area, tube temperature is low, i.e., when outlet air is colder, carries out the processing of turn reducing speed to superpower and high wind file;Pipe
Temperature is lower, i.e., when outlet air is cool breeze, carries out turn reducing speed to superpower shelves, carry out adding revolving speed to low windscreen;Tube temperature is moderate, i.e. outlet air is relaxed
In due course, the following wind file of the high wind file of centering increases revolving speed, and tube temperature is higher, i.e., when outlet air is relatively warm or hotter, to the following wind file of high wind file
Increase revolving speed.
It is in when indoor compared with hot-zone, and tube temperature is low, i.e., when outlet air is colder, superpower shelves and high wind file is carried out at drop revolving speed
Reason;Tube temperature is lower, when outlet air is cooler, adjusts without revolving speed;Tube temperature is moderate, i.e., when outlet air is comfortable, only adds to low wind file
Revolving speed processing;Tube temperature is higher, i.e., when leaving air temp is relatively warm, the revolving speed of the following wind file of wind file in increase;Tube temperature is high, i.e. leaving air temp
When hotter, the revolving speed of the high following wind file of wind file in increase.
As shown in figure 5, for the control method of the present invention disclosed another kind air-conditioning on the basis of the embodiment
Embodiment 5 flow chart, this method the following steps are included:
The wind deflector that S501, transmission and reception apparatus are sent fixes signal;
Make when user wants to fix wind deflector in current location or a certain specific location, user can be sent by sending device
Wind deflector fixes signal.Sending device may include button and remote controler etc. on air-conditioning.
S502, the signal that fixed based on wind deflector control wind deflector are fixed;
It receives wind deflector to fix after signal, can be fixed according to the content-control wind deflector of signal in current location or a certain
Specific position.
As shown in fig. 6, be a kind of structural schematic diagram of the embodiment 1 of the control device of air-conditioning disclosed by the invention,
Described device includes acquisition device 101, the first generation module 102 and the first control module 103, in which:
Acquisition device 101 is used for temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Temperature information may include indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts etc., the operation of air-conditioning
Mode may include refrigeration, heating and dehumidifying etc., and wind deflector operation information may include the location information of wind deflector, operational mode
Information and the speed of service etc..
First generation module 102 is used to generate wind deflector control based on temperature information, operational mode and wind deflector operation information
Signal processed;
According to the operation information of collected a variety of different temperature, the operational mode of air-conditioning and wind deflector, Ke Yigen
The wind-guiding plate control signal that family can be used to feel comfortable is generated according to preset algorithm.
First control module 103 is used for the wind deflector work based on wind-guiding plate control signal control air-conditioning;
Wind-guiding plate control signal based on generation can realize the control to the wind deflector of air-conditioning, such as wind deflector is fixed on
A certain location status.Wind deflector running position state is different under refrigeration mode and heating mode, for example: such as Figure 11
And shown in Figure 12, when refrigeration mode, wind deflector location status can have 5, respectively C1, C2, C3, C4, C5.Wherein, the position C1
For the upward extreme angles of outlet air of freezing;The position C1~C2 is that refrigeration wind keeps away the upward air outlet angle range of people;The position C3 goes out for level
Wind position;The position C4 is that outlet air most cis-position is set;The position C5 is the refrigeration downward extreme angles of outlet air.When heating mode, wind deflector position
The state of setting can have 5, respectively H1, H2, H3, H4, H5.Wherein, the position H1 is to heat anti-cold wind angle, and level is slightly upwardly;H2
Position is the heating upward extreme angles of outlet air;The position H3 is heating default air outlet angle;The position H4~H5 be heating wind keep away people to
Lower air outlet angle range;The position H5 is the heating downward extreme angles of outlet air.
It can be seen from the above technical proposal that the invention discloses a kind of control device of air-conditioning, the work of the present apparatus
Making principle is temperature collection information, the operational mode of air-conditioning and wind deflector operation information, based on temperature information, operational mode and is led
Aerofoil operation information generates wind-guiding plate control signal, the wind deflector work based on wind-guiding plate control signal control air-conditioning.According to room
Interior environment temperature, set temperature and heat exchanger tube temperature automatically adjust air supply direction, without using human body intelligent alignment sensor
In the case of improve air-supply comfort, reduce operating cost.
As shown in fig. 7, the structural representation of the embodiment 2 for the control device of another air-conditioning disclosed by the invention
Figure, described device include acquisition device 201, the first generation module 202 and the first control module 203, the first generation module 202 packet
Include the first generation unit 204, the second generation unit 205, the first judging unit 206 and second judgment unit 207, in which:
Acquisition device 201 is used for temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Temperature information includes indoor environment temperature Ta, heat exchanger tube temperature Tt and set temperature Ts, the operational mode packet of air-conditioning
One of refrigeration mode or heating mode are included, the operation information of wind deflector may include that wind deflector works in default mode or to lead up and down
The work of wind mode.
First generation unit 204 is used to generate the first warm area letter based on operational mode, environment temperature Ta and set temperature Ts
Breath;
It can determine whether indoor warm area state based on operational mode, environment temperature Ta and set temperature Ts, generate the first warm area
Information, warm area state can embody the comfort level of user under Current Temperatures.
Second generation unit 205 is used to generate based on the first warm area information, heat exchanger tube temperature Tt and wind deflector operation information
Wind-guiding plate control signal;
First warm area information combination heat exchanger tube temperature Tt and wind deflector operation information are produced and be used to control wind deflector work
The wind-guiding plate control signal of work.Citing is illustrated below:
It is as shown in the table when operational mode is refrigeration mode:
Wherein, the value for the preset temperature of judgement can are as follows: and Tc1=30 DEG C, Tc2=26 DEG C, Tc3=24 DEG C, Tc4=
20 DEG C, T '=2 DEG C;T1=10 DEG C of tube temperature Rule of judgment, T2=14 DEG C, T3=16 DEG C, Δ Tc=Ta-Ts.
In refrigeration mode, the first warm area information include: non-comfort zone, transition region, comfort zone, compared with cold-zone or transition region.
As seen from the above table as Ta > Tc1, room is in non-comfort zone, and temperature is higher, human body sensory heat, at this point, if pipe
Temperature is lower, i.e. when Tt < T2, air-conditioning booting wind deflector default fixes to position C4, if user sets wind-guiding up and down, wind deflector
It is swung in C3 between C5, if tube temperature is moderate or higher, i.e. when Tt >=T2, air-conditioning booting wind deflector default fixes to position C5,
If user sets wind-guiding, wind deflector up and down and swings in C4 between C5.
As Tc2 < Ta < Tc1, room is in transition region, and temperature drift, human body sensory is warmmer, at this point, to guarantee room
Temperature uniformly and rapidly cools down, and air-conditioning booting wind deflector default fixes to position C4, if user sets wind-guiding up and down, wind deflector
It is swung in C1 between C5.
As { Tc3≤Ta≤Tc2 } or { Ta >=Tc3, and Δ Tc≤T ' }, room is in comfort zone, and condition Ta >=
Tc3, and Δ Tc≤T ' } there is priority, air-conditioning booting wind deflector default fixes to position C3, if user sets wind-guiding up and down,
Then wind deflector is swung in C1 between C5.
As Tc4≤Ta < Tc3, room is in compared with cold-zone, and air-conditioning booting wind deflector default fixes to position C2, if user
Wind-guiding up and down is set, then wind deflector is swung in C1 between C3.
As Ta < Tc4, room was in cold-zone, if tube temperature is lower, i.e. when Tt < T2, the air-conditioning wind deflector default that is switched on is fixed
Lattice are to position C1, if user sets wind-guiding up and down, wind deflector is swung in C1 between C2, if tube temperature is moderate or higher, i.e. Tt
When >=T2, air-conditioning booting wind deflector default fixes to position C1, if user sets wind-guiding up and down, wind deflector is in C1 between C2
It swings.
It is as shown in the table when operational mode is heating mode:
Wherein, the value for the preset temperature of judgement can are as follows: and Th1=28 DEG C, Th2=25 DEG C, Th3=20 DEG C, Th4=
14 DEG C, T '=2 DEG C;T4=36 DEG C, T5=42 DEG C, T6=48 DEG C, T7=55 DEG C of tube temperature Rule of judgment.Δ Th=Ts-Ta
In heating mode, the first warm area information includes: non-comfort zone, transition region, comfort zone, relatively warms up area or compared with hot-zone.
As Ta < Th4, room is in non-comfort zone, and temperature is lower, and human body sensory is cold, at this point, if tube temperature is very low, i.e.,
Tt < T4 when outlet air is cold wind, is switched in 3min, and air-conditioning booting wind deflector default fixes to position H1, if user's setting is up and down
Wind-guiding, then wind deflector is swung in H4 between H5, is switched on after 3min, and air-conditioning booting wind deflector default fixes to position H5, if with
Family sets wind-guiding up and down, then wind deflector is swung in H4 between H5;If tube temperature T4 < Tt≤T5, outlet air is cooler, then air-conditioning is switched on
Wind deflector default fixes to position H5, if user sets wind-guiding, wind deflector up and down and swings in H4 between H5;If tube temperature is suitable
In, i.e. when T5 < Tt < T6, air-conditioning booting wind deflector default fixes to position H4, if user sets wind-guiding up and down, wind deflector
It is swung in H4 between H5;If tube temperature is higher, i.e., when leaving air temp is warm or hot, air-conditioning booting wind deflector default fixes to position
H3, if user sets wind-guiding, wind deflector up and down and swings in H4 between H5.
As Th4≤Ta < Th3, room is in transition region, and temperature is cooler, and human body sensory is cooler, and tube temperature is suitable for or warms up partially,
When i.e. leaving air temp is in comfortable or warm temperature, air-conditioning booting wind deflector default fixes to position H4, under remaining tube temperature state,
Air-conditioning booting wind deflector default fixes to position H5, when tube temperature is excessively high, i.e., when leaving air temp is warmmer, if user's setting is led up and down
Wind, then wind deflector is swung in H3 between H5, remaining tube temperature state is then swung in H4 between H5.
As { Th3≤Ta≤Th2 } or { Ta >=Th3, and Δ Th≤T ' }, room is in comfort zone, and condition Ta >=
Th3, and Δ Th≤T ' } there is priority, tube temperature is high, i.e., when leaving air temp is warmmer, air-conditioning booting wind deflector default fixes to position
H5 is set, if user sets wind-guiding, wind deflector up and down and swings in H3 between H5;Tube temperature is higher, i.e., when outlet air is relatively warm, air-conditioning is opened
Machine wind deflector default fixes to position H4, and under remaining tube temperature, air-conditioning booting wind deflector default fixes to position H5, if user sets
Upper and lower wind-guiding, then wind deflector is swung in H4 between H5.
As Th2 < Ta≤Th1, room is in relatively warm area, and air-conditioning booting wind deflector default fixes to position H5, if tube temperature
Higher, leaving air temp is kept more than comfortably, then wind deflector is swung in H3 between H5;If tube temperature is lower, leaving air temp is cool or cold
When, then wind deflector is swung in H4 between H5.
As Ta > Th1, room is in compared with hot-zone, and it is position H5 that the wind deflector default of air-conditioning booting at this time, which fixes, if pipe
Temperature is higher, and more than leaving air temp keeps comfortable, then wind deflector is swung in H2 between H5, if tube temperature is lower, leaving air temp it is cool or
When cold, then wind deflector is swung in H4 between H5.
It include the basis of one of refrigeration mode or heating mode in the operational mode of air-conditioning to advanced optimize the present embodiment
The operational mode of upper air-conditioning can also include sleep pattern.
First judging unit 206 is for judging whether operational mode includes refrigeration mode;
The wind deflector control of sleep pattern is applied in refrigeration mode, and therefore, it is necessary to preferentially judge whether operational mode wraps
Include refrigeration mode.
Second judgment unit 207 is used for when operational mode includes refrigeration mode, judges whether operational mode includes sleep
Mode;
After judging operational mode includes refrigeration mode, then judge whether operational mode includes sleep pattern.
Second generation unit 205 is also used to when operational mode includes sleep pattern, generates the first wind-guiding plate control signal,
First wind-guiding plate control signal is in sleep gear for controlling wind deflector;
If the operational mode of air-conditioning is sleep pattern, the change of the tube temperature Tt value of environment temperature Ta and heat exchanger is not considered
To change, wind deflector should fix to position C1, therefore when operational mode includes sleep pattern, the first wind-guiding plate control signal is generated,
First wind-guiding plate control signal is in sleep gear for controlling wind deflector, and sleep gear is C1.
First control module 203 is used for the wind deflector work based on wind-guiding plate control signal control air-conditioning;
Based on the wind-guiding plate control signal generated in above-mentioned steps, control air-conditioning wind deflector be fixed on a certain position or
It swings back and forth in a certain position section.
As shown in figure 8, for the control device of the present invention disclosed another kind air-conditioning on the basis of the embodiment
Embodiment 3 structural schematic diagram, described device further includes the second generation module 302 and the second control module 303, in which:
Acquisition device 301 is also used to acquire the blower gear information of air-conditioning;
Blower gear information includes the operational taps of the blower of current air-conditioning, for example, the operational taps of air-conditioning can wrap
Include: it is superpower, high, middle it is high, in, in it is low and low.
Second generation module 302 is used to generate air-blower control letter based on temperature information, operational mode and blower gear information
Number;
The air-blower control signal being modified for the revolving speed to blower is produced based on temperature information and operational mode.
Second control module 303 is used for the revolving speed based on air-blower control signal adjustment blower;
The revolving speed of blower can be modified based on air-blower control signal.
As shown in figure 9, for the reality of present invention control device of disclosed another kind air-conditioning on the basis of embodiment
The structural schematic diagram of example 4 is applied, described device further includes third generation unit 401, the 4th generation unit 402 and third judging unit
403, in which:
Third generation unit 401 is used to generate the second warm area letter based on operational mode, environment temperature Ta and set temperature Ts
Breath;
It can determine whether indoor warm area state based on operational mode, environment temperature Ta and set temperature Ts, generate the second warm area
Information, warm area state can embody the comfort level of user under Current Temperatures.
4th generation unit 402 is used to generate wind based on the second warm area information, heat exchanger tube temperature Tt and blower gear information
Machine control signal;
Second warm area information combination heat exchanger tube temperature Tt and blower gear information are produced and be used to control rotation speed of fan
Air-blower control signal.
The operational mode of air-conditioning may be used also on the basis of the operational mode of air-conditioning includes one of refrigeration mode or heating mode
To include silent mode;
Third judging unit 403 is for judging whether operational mode includes silent mode;
4th generation unit 402 is also used to when operational mode includes silent mode, generates the first air-blower control signal, the
The revolving speed that one air-blower control signal is used to control blower is constant;
When operational mode is silent mode, current rotating speed should be kept constant, therefore, generated for controlling rotation speed of fan not
The the first air-blower control signal become.
It illustrates below and the present embodiment is illustrated:
It is as shown in the table when air-conditioning is in refrigeration mode:
Wherein: n1=30rpm, n2=40rpm, n3=50rpm, n4=60rpm, n5=70rpm.
As seen from the above table when room temperature is in non-comfort zone, and tube temperature is higher, i.e., when leaving air temp is higher, in conjunction with wind-guiding
The motion state of plate is to blow people's state, is not adjusted at this time to rotation speed of fan;It is only low and low in when leaving air temp is comfortable
Increase rotation speed of fan when wind file;When leaving air temp is cooler, the revolving speed of superpower shelves and high wind file is not only changed, remaining wind file increases
Rotation speed of fan, wind file is lower, and revolving speed increases more.
When room temperature is in transition region, rotation speed of fan is reduced for superpower wind file, prevents tube temperature from increasing, superpower shelves with
When lower and tube temperature is moderate or higher, revolving speed is not adjusted, when tube temperature is lower, wind file, middle low wind file and low wind in increase
The revolving speed of shelves.
When room temperature is in comfort zone, to avoid generating blowing feeling, reduction processing is carried out to the revolving speed of superpower shelves,
Remaining gear does not adjust.
When room temperature is in compared with cold-zone, the wind file for more than centering wind file (being free of middle wind file) is carried out at drop revolving speed
Reason.
When room temperature was in cold-zone, the wind file for more than centering wind file (being free of middle wind file) is carried out at drop revolving speed
Reason, fall are bigger when being in than room temperature compared with cold-zone.
It is as shown in the table when air-conditioning is in refrigeration mode:
Wherein: Δ Th=Ts-Ta, n1=40rpm, n2=50rpm, n3=60rpm, n4=70rpm, n5=80rpm.
As seen from the above table when interior is in non-comfort zone, i.e. room temperature is lower, and when tube temperature is lower, outlet air is colder, right
Superpower shelves wind speed is reduced, and after leaving air temp rises, to be brought rapidly up interior, to the superpower and high following blower of wind file
Revolving speed is increased.
When interior is in transition region, i.e., during room temperature changes to comfort zone, human body sensory is micro- cool, to superpower shelves
Wind speed is reduced, and after leaving air temp rises, to be brought rapidly up interior, below superpower shelves, high wind file, middle high wind file
Rotation speed of fan increased.
When interior is in comfort zone, tube temperature is lower, i.e., when leaving air temp is cooler or colder, to superpower windscreen and high wind file into
Row revolving speed reduces, and wind file when comfortable to tube temperature and higher not adjusts.
When interior is in relatively warm area, tube temperature is low, i.e., when outlet air is colder, carries out the processing of turn reducing speed to superpower and high wind file;Pipe
Temperature is lower, i.e., when outlet air is cool breeze, carries out turn reducing speed to superpower shelves, carry out adding revolving speed to low windscreen;Tube temperature is moderate, i.e. outlet air is relaxed
In due course, the following wind file of the high wind file of centering increases revolving speed, and tube temperature is higher, i.e., when outlet air is relatively warm or hotter, to the following wind file of high wind file
Increase revolving speed.
It is in when indoor compared with hot-zone, and tube temperature is low, i.e., when outlet air is colder, superpower shelves and high wind file is carried out at drop revolving speed
Reason;Tube temperature is lower, when outlet air is cooler, adjusts without revolving speed;Tube temperature is moderate, i.e., when outlet air is comfortable, only adds to low wind file
Revolving speed processing;Tube temperature is higher, i.e., when leaving air temp is relatively warm, the revolving speed of the following wind file of wind file in increase;Tube temperature is high, i.e. leaving air temp
When hotter, the revolving speed of the high following wind file of wind file in increase.
It as shown in Figure 10, is the control device of the present invention disclosed another kind air-conditioning on the basis of the embodiment
Embodiment 5 structural schematic diagram, described device further includes reception device 501, in which:
Wind deflector of the reception device 501 for transmission and reception apparatus to be sent fixes signal;
Make when user wants to fix wind deflector in current location or a certain specific location, user can be sent by sending device
Wind deflector fixes signal.Sending device may include button and remote controler etc. on air-conditioning.
First control module 502 be also used to based on wind deflector fix signal control wind deflector fix;
It receives wind deflector to fix after signal, can be fixed according to the content-control wind deflector of signal in current location or a certain
Specific position.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with it is other
The difference of embodiment, the same or similar parts in each embodiment may refer to each other.
The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention.
Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention
It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one
The widest scope of cause.
Claims (14)
1. a kind of control method of air-conditioning, which is characterized in that be applied to air conditioning control device, the method includes following steps
It is rapid:
Temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
Wind-guiding plate control signal is generated based on the temperature information, the operational mode and the wind deflector operation information;
The wind deflector work that the air-conditioning is controlled based on the wind-guiding plate control signal, is fixed on a certain position shape for wind deflector
State specifically includes: in refrigeration mode, wind deflector is fixed on a certain location status in multiple default refrigeration location status,
When heating mode, wind deflector is fixed on a certain location status in multiple default heating location status.
2. the method as described in claim 1, which is characterized in that the temperature information includes indoor environment temperature Ta, heat exchanger
Tube temperature Tt and set temperature Ts, the operational mode of the air-conditioning include refrigeration mode or heating mode;It is described to be based on the temperature
Information, the operational mode and the wind deflector operation information generate wind-guiding plate control signal
The first warm area information is generated based on the operational mode, the environment temperature Ta and the set temperature Ts;
The wind deflector control is generated based on the first warm area information, the heat exchanger tube temperature Tt and the wind deflector operation information
Signal processed.
3. method according to claim 2, which is characterized in that in the operational mode of the air-conditioning further include sleep pattern;Institute
It states and wind-guiding plate control signal is generated based on the temperature information, the operational mode and the wind deflector operation information further include:
Judge whether the operational mode includes refrigeration mode;
When the operational mode includes refrigeration mode, judge whether the operational mode includes sleep pattern;
When the operational mode includes sleep pattern, the first wind-guiding plate control signal, the first wind deflector control letter are generated
Number for control the wind deflector be in sleep gear.
4. the method according to claim 1, which is characterized in that the method also includes:
Acquire the blower gear information of the air-conditioning;
Air-blower control signal is generated based on the temperature information, the operational mode and the blower gear information;
The revolving speed of the blower is adjusted based on the air-blower control signal.
5. method as claimed in claim 4, which is characterized in that described to be based on the temperature information, the operational mode and institute
Stating blower gear information generation air-blower control signal includes:
The second warm area information is generated based on the operational mode, the environment temperature Ta and the set temperature Ts;
The air-blower control letter is generated based on the second warm area information, the heat exchanger tube temperature Tt and the blower gear information
Number.
6. method as claimed in claim 5, which is characterized in that in the operational mode of the air-conditioning further include silent mode;Institute
It states and air-blower control signal is generated based on the temperature information, the operational mode and the blower gear information further include:
Judge whether the operational mode includes silent mode;
When the operational mode includes silent mode, the first air-blower control signal is generated, the first air-blower control signal is used
It is constant in the revolving speed for controlling the blower.
7. method as claimed in claim 4, which is characterized in that the method also includes:
The wind deflector that transmission and reception apparatus is sent fixes signal;
It controls the wind deflector based on the wind deflector signal that fixes and fixes.
8. a kind of control device of air-conditioning, which is characterized in that described device includes acquisition device, the first generation module and
One control module, in which:
The acquisition device is used for temperature collection information, the operational mode of air-conditioning and wind deflector operation information;
First generation module is used to generate based on the temperature information, the operational mode and the wind deflector operation information
Wind-guiding plate control signal;
First control module is used to control the wind deflector work of the air-conditioning based on the wind-guiding plate control signal, by wind-guiding
Plate is fixed on a certain location status, specifically includes: in refrigeration mode, wind deflector being fixed on multiple default refrigeration location status
In a certain location status wind deflector is fixed on a certain location status in multiple default heating location status in heating mode.
9. device as claimed in claim 8, which is characterized in that the temperature information includes indoor environment temperature Ta, heat exchanger
Tube temperature Tt and set temperature Ts, the operational mode of the air-conditioning include one of refrigeration mode or heating mode;Described first generates
Module includes the first generation unit and the second generation unit, in which:
First generation unit is used to generate the based on the operational mode, the environment temperature Ta and the set temperature Ts
One warm area information;
Second generation unit is used for based on the first warm area information, the heat exchanger tube temperature Tt and wind deflector operation
Information generates the wind-guiding plate control signal.
10. device as claimed in claim 9, which is characterized in that in the operational mode of the air-conditioning further include sleep pattern;Institute
Stating the first generation module further includes the first judging unit and second judgment unit, in which:
First judging unit is for judging whether the operational mode includes refrigeration mode;
The second judgment unit be used for when the operational mode includes refrigeration mode, judge the operational mode whether include
Sleep pattern;
Second generation unit is also used to when the operational mode includes sleep pattern, generates the first wind deflector control letter
Number, the first wind-guiding plate control signal is in sleep gear for controlling the wind deflector.
11. such as the described in any item devices of claim 8-10, which is characterized in that described device further include the second generation module and
Second control module, in which:
The acquisition device is also used to acquire the blower gear information of the air-conditioning;
Second generation module is used to generate wind based on the temperature information, the operational mode and the blower gear information
Machine control signal;
Second control module is used to adjust the revolving speed of the blower based on the air-blower control signal.
12. device as claimed in claim 11, which is characterized in that second generation module includes third generation unit and
Four generation units, in which:
The third generation unit is used to generate the based on the operational mode, the environment temperature Ta and the set temperature Ts
Two warm area information;
4th generation unit is used for based on the second warm area information, the heat exchanger tube temperature Tt and blower gear letter
Breath generates the air-blower control signal.
13. device as claimed in claim 12, which is characterized in that in the operational mode of the air-conditioning further include silent mode;
Second generation module further includes third judging unit, in which:
The third judging unit is for judging whether the operational mode includes silent mode;
4th generation unit is also used to when the operational mode includes silent mode, generates the first air-blower control signal,
The revolving speed that the first air-blower control signal is used to control the blower is constant.
14. device as claimed in claim 11, which is characterized in that described device further includes reception device, in which:
Wind deflector of the reception device for transmission and reception apparatus to be sent fixes signal;
First control module signal that is also used to be fixed based on the wind deflector is controlled the wind deflector and fixes.
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Families Citing this family (11)
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CN108413587B (en) * | 2018-03-09 | 2021-06-25 | 广东美的制冷设备有限公司 | Air conditioner, control method and device thereof, and computer-readable storage medium |
CN109373535B (en) * | 2018-10-26 | 2020-09-01 | 广东美的制冷设备有限公司 | Air outlet control method and device of air conditioner, air conditioner and storage medium |
CN109114765B (en) * | 2018-10-26 | 2021-05-28 | 广东美的制冷设备有限公司 | Air outlet control method and device of air conditioner, air conditioner and storage medium |
CN109140712B (en) * | 2018-10-26 | 2021-04-27 | 广东美的制冷设备有限公司 | Air outlet control method and device of air conditioner, air conditioner and storage medium |
CN111720983B (en) * | 2019-03-19 | 2022-03-29 | 青岛海尔空调电子有限公司 | Method and device for controlling air conditioner in air conditioning system and computer storage medium |
CN110701751B (en) * | 2019-10-23 | 2021-05-18 | 广东美的制冷设备有限公司 | Operation control method and device, air conditioner and storage medium |
CN111706981A (en) * | 2020-05-27 | 2020-09-25 | 广东纽恩泰新能源科技发展有限公司 | Cold air prevention control method and system for air source heat pump air heater unit |
CN111720972B (en) * | 2020-06-19 | 2021-12-10 | 海信(山东)空调有限公司 | Control method of air conditioner |
CN114543315B (en) * | 2020-11-25 | 2024-04-26 | 广东美的制冷设备有限公司 | Air conditioner control method, air conditioner and storage medium |
CN113531651A (en) * | 2021-06-08 | 2021-10-22 | 青岛海信日立空调***有限公司 | Air conditioner and control method of air deflector |
CN113915726B (en) * | 2021-11-25 | 2023-04-07 | 宁波奥克斯电气股份有限公司 | Control method and device of air conditioner, air conditioner and storage medium |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3399195B2 (en) * | 1995-11-24 | 2003-04-21 | 松下電器産業株式会社 | Control device for air conditioner |
JP2006078080A (en) * | 2004-09-09 | 2006-03-23 | Matsushita Electric Ind Co Ltd | Air conditioner |
JP2008281247A (en) * | 2007-05-09 | 2008-11-20 | Matsushita Electric Ind Co Ltd | Operation control method of air conditioner |
CN105318483B (en) * | 2014-05-27 | 2018-06-26 | 美的集团股份有限公司 | Air-conditioner sleep mode control method and air-conditioner sleep mode control device |
CN104964403B (en) * | 2015-05-14 | 2018-04-13 | 珠海格力电器股份有限公司 | Method, device and system for controlling wind deflector of dehumidifier |
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