CN106594979B - The control method of air conditioner, device - Google Patents
The control method of air conditioner, device Download PDFInfo
- Publication number
- CN106594979B CN106594979B CN201611047536.4A CN201611047536A CN106594979B CN 106594979 B CN106594979 B CN 106594979B CN 201611047536 A CN201611047536 A CN 201611047536A CN 106594979 B CN106594979 B CN 106594979B
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- Prior art keywords
- real
- control
- infrared facility
- light sources
- air conditioner
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/20—Humidity
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- 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
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F6/00—Air-humidification, e.g. cooling by humidification
- F24F6/02—Air-humidification, e.g. cooling by humidification by evaporation of water in the air
- F24F6/08—Air-humidification, e.g. cooling by humidification by evaporation of water in the air using heated wet elements
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
Abstract
The invention discloses a kind of control methods of air conditioner, device, wherein, air conditioner includes infrared facility, and infrared facility includes water storage disk and heated light sources, for being heated by heated light sources to water storage disk, this method comprises: obtaining indoor temperature value T where air conditionerIt is real;By indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;According to stating indoor temperature value TIt is realWith the first temperature value TIfComparison result, the course of work of infrared facility is controlled, to control to adjust indoor humidity and/or temperature where air conditioner.The problem of present invention solves user when air conditioner humidifies in the prior art and needs repeatedly manually to switch in humidification and heating process, not smart enoughization, improves the intelligentized control method of air conditioner, further, also improves user experience.
Description
Technical field
The present invention relates to air-conditioning technical fields, control method, device in particular to a kind of air conditioner.
Background technique
Infrared humidifier rapid evaporation, generation clean steam can be used to humidify under the situation that water does not boil, infrared lamp
The infrared radiation of sending can destroy the surface tension of water on the water surface, so that hydrone evaporates to form vapor, to reach
Humidify purpose.
In the prior art, when user heats usually using air conditioner, cause interior more dry, in order to avoid this is asked
Topic, user would generally use humidifier to indoor humidification, however, this needs additional economic cost, also, humidifier can also account for
With the interior space, it is unfavorable for user experience.There are also air conditioner inside to be configured with some simple humidification functions, worked
Heating or refrigerating function of the journey with air conditioner itself are relatively independent, and user needs repeatedly manually to cut in humidification and heating process
It changes, not smart enoughization.
User is needed repeatedly manually to cut in humidification and heating process when being humidified for air conditioner in the related technology
It changes, the problem of not smart enoughization, not yet proposes to efficiently solve scheme at present.
Summary of the invention
The present invention provides a kind of control methods of air conditioner, device, at least to solve air conditioner progress in the prior art
The problem of user needs repeatedly manually to switch in humidification and heating process when humidification, not smart enoughization.
In order to solve the above technical problems, according to an aspect of an embodiment of the present invention, the present invention provides a kind of air conditioners
Control method, wherein air conditioner includes infrared facility, and infrared facility includes water storage disk and heated light sources, for passing through heating
Light source heats water storage disk, this method comprises: obtaining indoor temperature value T where air conditionerIt is real;By indoor temperature value TIt is real
With preset first temperature value TIfIt is compared;According to indoor temperature value TIt is realWith the first temperature value TIfComparison result, control
The course of work of infrared facility, to control to adjust indoor humidity and/or temperature where air conditioner.
Further, according to stating indoor temperature value TIt is realWith setting temperature value TIfComparison result, control infrared facility
The course of work, to control to adjust indoor humidity and/or temperature where air conditioner, comprising: | TIt is real-TIf|≤Tm, and TIt is real< TIf
When, obtain indoor humidity value RH where air conditionerIt is real, wherein TmFor preset first temperature accuracy;By indoor humidity value
RHIt is realWith preset first humidity value RHIfIt is compared;| RHIt is real-RHIf| > RHm, and RHIt is real< RHIfWhen, control air-conditioning, which enters, to be added
Wet model, under humidifying mode, control infrared facility works in the first state, wherein RHmFor preset first humidity essence
Degree.
Further, under humidifying mode, control infrared facility works in the first state, comprising: control infrared facility
The water opened, and the injection of the water storage disk of infrared facility is used to humidify;Open the heated light sources of infrared facility.
Further, heated light sources are multiple, and under humidifying mode, control infrared facility works in the first state, are wrapped
Include: control infrared facility is opened, and the water that the injection of the water storage disk of infrared facility is used to humidify;In real time by indoor humidity value
RHIt is realWith preset first humidity value RHIfIt is compared;| RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, control multiple heating light
Source is to be all turned on, wherein RHnFor preset second humidity precision, and RHn> RHm;In RHm< | RHIt is real-RHIf|≤RHn, and
RHIt is real< RHIfWhen, the heated light sources for controlling the partial amt of multiple heated light sources are opened.
Further, according to stating indoor temperature value TIt is realWith setting temperature value TIfComparison result, control infrared facility
The course of work, to control to adjust indoor humidity and/or temperature where air conditioner, comprising: | TIt is real-TIf| > Tm, and TIt is real< TIf
When, control air conditioner opens heating mode, and in its heating mode, and control infrared facility works in the second condition.
Further, in its heating mode, control infrared facility works in the second condition, comprising: control infrared facility
The water opened, and the water storage disk of infrared facility is used to humidify is discharged;Open the heated light sources of infrared facility.
Further, heated light sources are multiple, and in its heating mode, control infrared facility works in the second condition,
It include: that control infrared facility is opened, and the water that the water storage disk of infrared facility is used for humidification is discharged;In real time by indoor temperature value
TIt is realWith preset first temperature value TIfIt is compared;| TIt is real-TIf| > Tn, and TIt is real< TIfWhen, it is complete for controlling multiple heated light sources
It opens in portion;In Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen, the heated light sources for controlling the partial amt of multiple heated light sources are opened.
According to another aspect of an embodiment of the present invention, a kind of control device of air conditioner is provided, wherein air conditioner includes
Infrared facility, infrared facility includes water storage disk and heated light sources, for being heated by heated light sources to water storage disk, the device
It include: first acquisition unit, for indoor temperature value T where obtaining air conditionerIt is real;First comparing unit, being used for will be indoor
Temperature value TIt is realWith preset first temperature value TIfIt is compared;First control unit, for according to indoor temperature value TIt is realWith
One temperature value TIfComparison result, control the course of work of infrared facility, with control to adjust indoor humidity where air conditioner and/
Or temperature.
Further, first control unit includes: acquisition module, is used for | TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, it obtains
Indoor humidity value RH where air conditionerIt is real, wherein TmFor preset first temperature accuracy;Comparison module, being used for will be indoor wet
Angle value RHIt is realWith preset first humidity value RHIfIt is compared;First control module is used for | RHIt is real-RHIf| > RHm, and RHIt is real
< RHIfWhen, control air-conditioning enters humidifying mode, and under humidifying mode, control infrared facility works in the first state, wherein
RHmFor preset first humidity precision.
Further, the first control module includes: the first control subelement, is opened for controlling infrared facility, and will be red
Water of the water storage disk injection of outer device for humidification;Second control subelement, for opening the heated light sources of infrared facility.
Further, the first control module includes: third control subelement, is opened for controlling infrared facility, and will be red
Water of the water storage disk injection of outer device for humidification;First comparing subunit, in real time by indoor humidity value RHIt is realWith it is default
The first humidity value RHIfIt is compared;4th control subelement, is used for | RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, control
Multiple heated light sources are to be all turned on, wherein RHnFor preset second humidity precision, and RHn> RHm;5th control subelement,
For in RHm< | RHIt is real-RHIf|≤RHn, and RHIt is real< RHIfWhen, the heated light sources for controlling the partial amt of multiple heated light sources are opened
It opens.
Further, first control unit includes: the second control module, is used for | TIt is real-TIf| > Tm, and TIt is real< TIfWhen,
It controls air conditioner and opens heating mode, and in its heating mode, control infrared facility works in the second condition.
Further, the second control module includes: the 6th control subelement, is opened for controlling infrared facility, and will be red
Water discharge of the water storage disk of outer device for humidification;7th control subelement, for opening the heated light sources of infrared facility.
Further, the second control module includes: the 8th control subelement, is opened for controlling infrared facility, and will be red
Water discharge of the water storage disk of outer device for humidification;Second comparing subunit, in real time by indoor temperature value TIt is realWith it is default
The first temperature value TIfIt is compared;9th control subelement, is used for | TIt is real-TIf| > Tn, and TIt is real< TIfWhen, control multiple add
Thermal light source is to be all turned on;Tenth control subelement, in Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen, control multiple heating
The heated light sources of the partial amt of light source are opened.
In the present invention, installation inside air conditioner is had to the infrared facility of humidification heating function, meanwhile, by the infrared ray
The course of work of humidifier is combined with the working condition of air conditioner, is efficiently solved air conditioner in the prior art and is humidified
When user need repeatedly manually to switch in humidification and heating process, the problem of not smart enoughization, improve the intelligence of air conditioner
Change control, further, also improves user experience.
Detailed description of the invention
Fig. 1 is a kind of optional flow chart of the control method of air conditioner according to an embodiment of the present invention;
Fig. 2 is the optional flow chart of another kind of the control method of air conditioner according to an embodiment of the present invention;
Fig. 3 is a kind of optional flow chart of the control device of air conditioner according to an embodiment of the present invention.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended
The example of device and method being described in detail in claims, some aspects of the invention are consistent.
Embodiment 1
The control method of air conditioner provided by the invention is illustrated with reference to the accompanying drawing.
The control method of air conditioner provided by the invention can be applied on air-conditioner device, such as: domestic air conditioner, quotient
Field air conditioner etc., can the write-in pair by way of installing software on air-conditioning equipment or on the main control chip of air conditioner
The mode that program should be controlled is realized, wherein air conditioner includes infrared facility, and infrared facility includes water storage disk and heated light sources, is used
In being heated by heated light sources to water storage disk, specifically, Fig. 1 shows a kind of optional flow chart of this method, such as Fig. 1 institute
Show, the control method of the air conditioner may comprise steps of:
S102 obtains indoor temperature value T where air conditionerIt is real;
S104, by indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;
S106, according to indoor temperature value TIt is realWith the first temperature value TIfComparison result, control the worked of infrared facility
Journey, to control to adjust indoor humidity and/or temperature where air conditioner.
In above-mentioned preferred embodiment, installation inside air conditioner is had to the infrared facility of humidification heating function, together
When, the course of work of the infrared ray humidifier is combined with the working condition of air conditioner, the prior art can be efficiently solved
The problem of user needs repeatedly manually to switch in humidification and heating process when middle air conditioner is humidified, not smart enoughization,
The intelligentized control method for improving air conditioner further also improves user experience.
When specific implementation, a kind of basis is additionally provided in a preferred embodiment of the invention and states indoor temperature
Value TIt is realWith setting temperature value TIfComparison result, control the course of work of infrared facility, with control to adjust air conditioner institute indoors
Humidity and/or temperature implementation, may include steps of: in | TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, obtain air-conditioning
Indoor humidity value RH where deviceIt is real, wherein TmFor preset first temperature accuracy;By indoor humidity value RHIt is realWith preset
One humidity value RHIfIt is compared;| RHIt is real-RHIf| > RHm, and RHIt is real< RHIfWhen, control air-conditioning enters humidifying mode, is humidifying
Under mode, control infrared facility works in the first state, wherein RHmFor preset first humidity precision.
That is, when air conditioner judgement is currently at heating mode, the room that can will be detected by internal temperature sensor
Interior temperature value TIt is realWith the first temperature value T of user settingIfIt is compared, the object compared is the first temperature accuracy Tm, wherein
User can pass through remote controler or control panel self-setting first temperature accuracy Tm, it is preferable that it can be by TmBe set as 1 DEG C-
10 DEG C, such as 4 DEG C or 10 DEG C.It in some cases, can also be by the first temperature accuracy T of defaultmAir conditioner control system is written
In system.| TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, continue more indoor humidity value RHIt is realWith preset first humidity value RHIf,
|RHIt is real-RHIf| > RHm, and RHIt is real< RHIfWhen, control air-conditioning enters humidifying mode, and under humidifying mode, control infrared facility exists
It works under first state.In the control method provided in above embodiment, when so that air conditioner is to the adjusting of humidity, it can combine
The temperature of room temperature and user setting is controlled, and the frequency of user's manual operation is reduced, and improves intelligent operation.
Further, in of the invention one optional embodiment, above-mentioned infrared facility is additionally provided in the first shape
The specific control mode to work under state, comprising: control infrared facility is opened, and the injection of the water storage disk of infrared facility is used to humidify
Water;Open the heated light sources of infrared facility.It is above-mentioned meeting | RHIt is real-RHIf| > RHm, and RHIt is real< RHIfCondition after, characterization
Current indoor temperature is lower than set temperature without departing from the temperature fluctuation of setting, and current indoor humidity lower than setting humidity and surpasses
The moisture fluctuation range of setting is crossed, control air-conditioning can enter humidifying mode, at this point, the water storage disk of control infrared facility fills
Water, and the heated light sources for controlling infrared facility are opened to be irradiated to the water in the water storage disk of lower section, make water in the shape not boiled
Rapid evaporation under condition generates clean steam and is used to realize to indoor humidification and guarantee that user will not generate bad experience and (such as feel
It is indoor colder) in the case where humidified, greatly improve the intelligence of air-conditioner humidifying.
In of the invention one optional embodiment, another above-mentioned infrared facility is additionally provided in the first state
Work specific control mode, specifically, under its control mode, heated light sources can for it is multiple (two, three or with
On), under humidifying mode, control infrared facility works in the first state, comprising: control infrared facility is opened, and will be infrared
Water of the water storage disk injection of device for humidification;In real time by indoor humidity value RHIt is realWith preset first humidity value RHIfCompared
Compared with;| RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, controlling multiple heated light sources is to be all turned on, wherein RHnIt is preset
Two humidity precision, and RHn> RHm;In RHm< | RHIt is real-RHIf|≤RHn, and RHIt is real< RHIfWhen, control the portion of multiple heated light sources
The heated light sources of dosis refracta are opened.Wherein, the second above-mentioned humidity precision RHnSetting can be rule of thumb adjusted, for example, by RHn
It is equal to 2RHm(the first humidity precision RHmTwo times).Above-mentioned RHnWhole heated light sources whether are opened as control air-conditioning
A threshold condition, in | RHIt is real-RHIf| > RHn(or 2RHm), and RHIt is real< RHIfWhen, illustrate that indoor humidity is wet far below setting
Degree opens whole heated light sources to be humidified.Preferably, heated light sources can be halogen lamp tube (or infrared lamp).On
It states in this control mode of record, humidity and temperature is controlled to closer combination, keep user experience higher, airconditioning control
It is more intelligent.
It should be noted that only recording a threshold level RH in above embodimentn, it is wet that multiple threshold values also can be set
Angle value respectively corresponds the light source for opening corresponding number, e.g., RHm< | RHIt is real-RHIf|≤RHn1, open a heated light sources, RHn1<
|RHIt is real-RHIf|≤RHn2, open two heated light sources, RHn(x-1)< | RHIt is real-RHIf|≤RHnx, X heated light sources etc. are opened, with
The increase of psychrometric difference, open more heated light sources.The present invention is not limited thereto.
If indoor temperature value TIt is realWith setting temperature value TIfComparison result be | TIt is real-TIf| > Tm, and TIt is real< TIfWhen, control
Air conditioner opens heating mode, and in its heating mode, and control infrared facility works in the second condition.That is, |
TIt is real-TIf| > Tm, and TIt is real< TIfWhen, illustrate current indoor temperature lower than set temperature and exceeds the temperature fluctuation set, if this
Shi Jinhang humidification, may reduce demand of the user to temperature, and therefore, control air conditioner works in its heating mode, together
When, the work of control infrared facility is in the second condition.This control mode fully considers demand of the user to temperature, improves user
Experience Degree.
Control is in infrared facility work in the second state, it is preferable that can use following control mode: control is infrared
Device is opened, and the water that the water storage disk of infrared facility is used to humidify is discharged;Open the heated light sources of infrared facility.That is, by red
After water discharge in the water storage disk of outer device, opens heated light sources and heated, it is preferable that radiate, mention using fin
The output of high air-conditioning heat, auxiliary heating, is rapidly achieved room temperature or close to temperature set by user.
In yet another embodiment of the present invention, another control is provided to work in infrared facility in the second state
When, it is preferable that heated light sources are multiple, and use following control mode: control infrared facility is opened, and by infrared facility
Water discharge of the water storage disk for humidification;In real time by indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;|
TIt is real-TIf| > Tn, and TIt is real< TIfWhen, controlling multiple heated light sources is to be all turned on;In Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen,
The heated light sources for controlling the partial amt of multiple heated light sources are opened.That is, | TIt is real-TIf| > TnWhen, illustrate to work as cup
Interior temperature may will be greatly reduced use if humidified at this time far below set temperature and the temperature fluctuation far beyond setting
Demand of the family to temperature, therefore, control air conditioner work in its heating mode, meanwhile, the whole for controlling infrared facility adds
Thermal light source unlatching carries out auxiliary heating, and this control mode fully considers demand of the user to temperature, further increases user's body
Degree of testing.
It should be noted that only recording a threshold level T in above embodimentn, multiple threshold value temperature also can be set
Angle value respectively corresponds the light source for opening corresponding number, e.g., Tm< | TIt is real-TIf|≤Tn1, open a heated light sources, Tn1< | TIt is real-
TIf|≤Tn2, open two heated light sources, Tn(x-1)< | TIt is real-TIf|≤Tnx, X heated light sources etc. are opened, the present invention is not limited to
This.
With reference to the accompanying drawing 2 and specific example, the above method is further illustrated, to better understand this hair
It is bright:
User starts unit AutoPlay function, and unit is run according to the temperature and humidity and precision of default;Meanwhile user
The setting and temperature essence of the touch screen or key or the independent change temperature of remote keying control, humidity of air-conditioning panel can be used
Degree, humidity precision setting reset rear temperature and humidity and precision according to current setting, are adjusted by infrared facility and compressor
Operation is until meet sets requirement.
As shown in Fig. 2, after unit automatic running, including following workflow:
S201 carries out Temperature and Humidity by Temperature Humidity Sensor, wherein TIfFor user's set temperature, TIt is real: it is indoor practical
Temperature, Tm: the first temperature accuracy, RHIf: setting humidity, RHIt is real: indoor actual humidity, RHm: the first humidity precision;2TmCorrespond to
The second temperature precision T of above-mentioned recordn, second humidity precision RH of the 2RHm corresponding to above-mentioned record |.
S202 judges whether in heating mode | TIt is real-TIf| > Tm, and TIt is real< TIf(preferably, for example, Tm=± 1 DEG C, under
Together);Wherein, if detecting | TIt is real-TIf| > Tm, and TIt is real< TIf, then it is assumed that indoor Current Temperatures, which are lower than set temperature and exceed, to be set
Fixed temperature fluctuation range executes step S203.
S203 opens infrared facility, is exhausted the water of infrared facility water storage disk by discharge outlet into heating mode, into
Row heating.
S204 is continued to determine whether | TIt is real-TIf| > 2Tm;If so, illustrating that room temperature is far below set temperature, and much
The temperature fluctuation range of setting is had exceeded, then in this case, executes step S205, otherwise, illustrates that room temperature is slightly below set
Determine temperature and slightly exceed set temperature accuracy rating, then in this case, executes step S206.
S205, the method for operation of infrared facility are as follows: water storage disk keeps anhydrous state, and three halogen lamp tubes on device are complete
It opens, the heating amount put at this time reaches maximum, room temperature can be made to rise rapidly in the shortest time.
S206, the method for operation of infrared facility are as follows: water storage disk keeps anhydrous state, reduces fluorescent tube and opens quantity, according to reality
Border situation successively reduces fluorescent tube and opens quantity, and control heat investment is, it can be achieved that classification is adjusted, to reach the temperature of group setup
And temperature accuracy range.For example, fluorescent tube, which is opened quantity, is reduced to two by three, heating amount investment is reduced.Then, it returns
Continue to judge to S202.
If be in above-mentioned steps S202 judging result it is no, enter step S207, continue to determine whether | RHIt is real-RHIf| >
RHm, and RHIt is real< RHIf, if so, illustrating that indoor current humidity lower than setting humidity and beyond the moisture fluctuation range set, executes
Step S208;Otherwise, step S212 is executed, unit operates normally;
S208 opens infrared facility, infrared facility water storage disk is filled water, is humidified into humidifying mode;Continue to hold
Row step S209.
S209 judges whether | RHIt is real-RHIf| > 2RHm, if so, executing step S210, otherwise, execute step S211.
S210, | RHIt is real-RHIf| > 2RHm illustrates that indoor humidity is far below setting humidity, and wet far beyond setting
Spend allowable fluctuation range, then in this case, the method for operation of infrared facility are as follows: water storage disk maintains water state, will be on device
Three halogen lamp tube standard-sized sheets, the humidification amount put at this time reaches maximum, can make in the shortest time room humidity it is rapid on
It rises.
S211, if | RHIt is real-RHIf| it is not more than 2RHm, illustrates that indoor humidity slightly below sets humidity, and slightly permit beyond humidity
Perhaps fluctuation range, then in this case, the method for operation of infrared facility are as follows: water storage disk maintains water state, reduces fluorescent tube and opens
Quantity for example, fluorescent tube, which is opened quantity, is reduced to two by three, and can successively reduce fluorescent tube according to the actual situation and open number
Amount, control quantity of steam investment is, it can be achieved that classification is adjusted, to reach the humidity and humidity accuracy rating of group setup.Then,
It is back to step S207, continues to judge.
In above-mentioned preferred embodiment, installation inside air conditioner is had to the infrared facility of humidification heating function, together
When, the course of work of the infrared ray humidifier is combined with the working condition of air conditioner, the prior art can be efficiently solved
The problem of user needs repeatedly manually to switch in humidification and heating process when middle air conditioner is humidified, not smart enoughization,
The intelligentized control method for improving air conditioner further also improves user experience.
Embodiment 2
The control method of the air conditioner provided in 1 based on the above embodiment, optional embodiment 2 of the present invention additionally provide one
The control device of kind of air conditioner, specifically, Fig. 3 shows a kind of optional structural block diagram of the device, wherein air conditioner includes
Infrared facility, infrared facility includes water storage disk and heated light sources, for being heated by heated light sources to water storage disk, such as Fig. 3
Shown, which includes: first acquisition unit 32, for indoor temperature value T where obtaining air conditionerIt is real;First comparing unit
34, it is used for indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;First control unit 36, for according to room
Interior temperature value TIt is realWith the first temperature value TIfComparison result, the course of work of infrared facility is controlled, to control to adjust air conditioner
The indoor humidity in place and/or temperature.
Further, first control unit includes: acquisition module, is used for | TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, it obtains
Indoor humidity value RH where air conditionerIt is real, wherein TmFor preset first temperature accuracy;Comparison module, being used for will be indoor wet
Angle value RHIt is realWith preset first humidity value RHIfIt is compared;First control module is used for | RHIt is real-RHIf| > RHm, and RHIt is real
< RHIfWhen, control air-conditioning enters humidifying mode, and under humidifying mode, control infrared facility works in the first state, wherein
RHmFor preset first humidity precision.
Further, the first control module includes: the first control subelement, is opened for controlling infrared facility, and will be red
Water of the water storage disk injection of outer device for humidification;Second control subelement, for opening the heated light sources of infrared facility.
Further, the first control module includes: third control subelement, is opened for controlling infrared facility, and will be red
Water of the water storage disk injection of outer device for humidification;First comparing subunit, in real time by indoor humidity value RHIt is realWith it is default
The first humidity value RHIfIt is compared;4th control subelement, is used for | RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, control
Multiple heated light sources are to be all turned on, wherein RHnFor preset second humidity precision, and RHn> RHm;5th control subelement,
For in RHm< | RHIt is real-RHIf|≤RHn, and RHIt is real< RHIfWhen, the heated light sources for controlling the partial amt of multiple heated light sources are opened
It opens.
Further, first control unit includes: the second control module, is used for | TIt is real-TIf| > Tm, and TIt is real< TIfWhen,
It controls air conditioner and opens heating mode, and in its heating mode, control infrared facility works in the second condition.
Further, the second control module includes: the 6th control subelement, is opened for controlling infrared facility, and will be red
Water discharge of the water storage disk of outer device for humidification;7th control subelement, for opening the heated light sources of infrared facility.
Further, the second control module includes: the 8th control subelement, is opened for controlling infrared facility, and will be red
Water discharge of the water storage disk of outer device for humidification;Second comparing subunit, in real time by indoor temperature value TIt is realWith it is default
The first temperature value TIfIt is compared;9th control subelement, is used for | TIt is real-TIf| > Tn, and TIt is real< TIfWhen, control multiple add
Thermal light source is to be all turned on;Tenth control subelement, in Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen, control multiple heating
The heated light sources of the partial amt of light source are opened.
About the device in above-described embodiment, wherein each unit, module execute the concrete mode of operation related
It is described in detail in the embodiment of this method, no detailed explanation will be given here.
It can be seen from the foregoing description that in an embodiment of the present invention, installation inside air conditioner is had humidification heating
The infrared facility of function, meanwhile, the course of work of the infrared ray humidifier is combined with the working condition of air conditioner, can be had
Effect ground solves user when air conditioner is humidified in the prior art and needs repeatedly manually to switch in humidification and heating process, no
Enough intelligentized problems, improve the intelligentized control method of air conditioner, further, also improve user experience.
Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to of the invention its
Its embodiment.This application is intended to cover any variations, uses, or adaptations of the invention, these modifications, purposes or
The common knowledge in the art that person's adaptive change follows general principle of the invention and do not invent including the present invention
Or conventional techniques.The description and examples are only to be considered as illustrative, and true scope and spirit of the invention are by following
Claim is pointed out.
It should be understood that the present invention is not limited to the precise structure already described above and shown in the accompanying drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is limited only by the attached claims.
Claims (12)
1. a kind of control method of air conditioner, which is characterized in that the air conditioner includes infrared facility, and the infrared facility includes
Water storage disk and heated light sources, for being heated by the heated light sources to the water storage disk, which comprises
Indoor temperature value T where obtaining air conditionerIt is real;
By the indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;
According to the indoor temperature value TIt is realWith the first temperature value TIfComparison result, control the worked of the infrared facility
Journey, to control to adjust indoor humidity and/or temperature where the air conditioner;
The basis states indoor temperature value TIt is realWith setting temperature value TIfComparison result, control the worked of the infrared facility
Journey, to control to adjust indoor humidity and/or temperature where the air conditioner, comprising:
| TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, obtain indoor humidity value RH where air conditionerIt is real, wherein the TmIt is preset
First temperature accuracy;
By the indoor humidity value RHIt is realWith preset first humidity value RHIfIt is compared;
| RHIt is real-RHIf| > RHm, and RHIt is real< RHIfWhen, control air-conditioning enters humidifying mode, under the humidifying mode, controls institute
It states infrared facility to work in the first state, wherein the RHmFor preset first humidity precision.
2. the method according to claim 1, wherein described under the humidifying mode, the control infrared dress
It sets and works in the first state, comprising:
The water for controlling the infrared facility to open, and the injection of the water storage disk of the infrared facility being used to humidify;
Open the heated light sources of the infrared facility.
3. the method according to claim 1, wherein the heated light sources be it is multiple, under the humidifying mode,
The infrared facility is controlled to work in the first state, comprising:
The water for controlling the infrared facility to open, and the injection of the water storage disk of the infrared facility being used to humidify;
In real time by the indoor humidity value RHIt is realWith preset first humidity value RHIfIt is compared;
| RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, controlling multiple heated light sources is to be all turned on, wherein the RHn
For preset second humidity precision, and RHn> RHm;
In RHm< | RHIt is real-RHIf|≤RHn, and RHIt is real< RHIfWhen, control the heating light of the partial amt of multiple heated light sources
It opens in source.
4. the method according to claim 1, wherein the basis states indoor temperature value TIt is realWith setting temperature value
TIfComparison result, control the course of work of the infrared facility, with indoor humidity where controlling to adjust the air conditioner and/
Or temperature, comprising:
| TIt is real-TIf| > Tm, and TIt is real< TIfWhen, control air conditioner opens heating mode, and in its heating mode, controls described red
Outer device works in the second condition.
5. according to the method described in claim 4, it is characterized in that, it is described in its heating mode, control the infrared facility and exist
It works under second state, comprising:
The water that the infrared facility is opened, and the water storage disk of the infrared facility is used to humidify is controlled to be discharged;
Open the heated light sources of the infrared facility.
6. according to the method described in claim 4, it is characterized in that, the heated light sources be it is multiple, described in heating mode
Under, it controls the infrared facility and works in the second condition, comprising:
The water that the infrared facility is opened, and the water storage disk of the infrared facility is used to humidify is controlled to be discharged;
In real time by the indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;
| TIt is real-TIf| > Tn, and TIt is real< TIfWhen, controlling multiple heated light sources is to be all turned on;
In Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen, the heated light sources for controlling the partial amt of multiple heated light sources are opened.
7. a kind of control device of air conditioner, which is characterized in that the air conditioner includes infrared facility, and the infrared facility includes
Water storage disk and heated light sources, for being heated by the heated light sources to the water storage disk, described device includes:
First acquisition unit, for indoor temperature value T where obtaining air conditionerIt is real;
First comparing unit is used for the indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;
First control unit, for according to the indoor temperature value TIt is realWith the first temperature value TIfComparison result, described in control
The course of work of infrared facility, to control to adjust indoor humidity and/or temperature where the air conditioner;
The first control unit includes:
Module is obtained, is used for | TIt is real-TIf|≤Tm, and TIt is real< TIfWhen, obtain indoor humidity value RH where air conditionerIt is real, wherein
The TmFor preset first temperature accuracy;
Comparison module is used for the indoor humidity value RHIt is realWith preset first humidity value RHIfIt is compared;
First control module is used for | RHIt is real-RHIf| > RHm, and RHIt is real< RHIfWhen, control air-conditioning enters humidifying mode, described
Under humidifying mode, controls the infrared facility and work in the first state, wherein the RHmFor preset first humidity precision.
8. device according to claim 7, which is characterized in that first control module includes:
First control subelement, is opened for controlling the infrared facility, and the injection of the water storage disk of the infrared facility is used for
The water of humidification;
Second control subelement, for opening the heated light sources of the infrared facility.
9. device according to claim 7, which is characterized in that first control module includes:
Third controls subelement, opens for controlling the infrared facility, and the injection of the water storage disk of the infrared facility is used for
The water of humidification;
First comparing subunit, in real time by the indoor humidity value RHIt is realWith preset first humidity value RHIfCompared
Compared with;
4th control subelement, is used for | RHIt is real-RHIf| > RHn, and RHIt is real< RHIfWhen, it is complete for controlling multiple heated light sources
It opens in portion, wherein the RHnFor preset second humidity precision, and RHn> RHm;
5th control subelement, in RHm< | RHIt is real-RHIf|≤RHn, and RHIt is real< RHIfWhen, control multiple heated light sources
Partial amt heated light sources open.
10. device according to claim 7, which is characterized in that the first control unit includes:
Second control module is used for | TIt is real-TIf| > Tm, and TIt is real< TIfWhen, control air conditioner opens heating mode, and is heating
Under mode, controls the infrared facility and work in the second condition.
11. device according to claim 10, which is characterized in that second control module includes:
6th control subelement, is opened, and the water storage disk of the infrared facility is used to humidify for controlling the infrared facility
Water discharge;
7th control subelement, for opening the heated light sources of the infrared facility.
12. device according to claim 10, which is characterized in that second control module includes:
8th control subelement, is opened, and the water storage disk of the infrared facility is used to humidify for controlling the infrared facility
Water discharge;
Second comparing subunit, in real time by the indoor temperature value TIt is realWith preset first temperature value TIfIt is compared;
9th control subelement, is used for | TIt is real-TIf| > Tn, and TIt is real< TIfWhen, controlling multiple heated light sources is all to open
It opens;
Tenth control subelement, in Tm< | TIt is real-TIf|≤Tn, and TIt is real< TIfWhen, control the part of multiple heated light sources
The heated light sources of quantity are opened.
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CN201611047536.4A CN106594979B (en) | 2016-11-11 | 2016-11-11 | The control method of air conditioner, device |
CN201910138190.6A CN109916026A (en) | 2016-11-11 | 2016-11-11 | Infrared humidifier and air conditioner |
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CN201611047536.4A CN106594979B (en) | 2016-11-11 | 2016-11-11 | The control method of air conditioner, device |
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CN201910138190.6A Division CN109916026A (en) | 2016-11-11 | 2016-11-11 | Infrared humidifier and air conditioner |
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CN201611047536.4A Active CN106594979B (en) | 2016-11-11 | 2016-11-11 | The control method of air conditioner, device |
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CN109959121B (en) * | 2019-03-31 | 2020-11-24 | 广东美的制冷设备有限公司 | Humidification control method, humidification control device, air conditioner and computer readable storage medium |
CN109959111B (en) * | 2019-03-31 | 2021-06-18 | 广东美的制冷设备有限公司 | Humidification control method, air conditioning apparatus, and computer-readable storage medium |
CN112097325A (en) * | 2020-09-22 | 2020-12-18 | 苏州英维克温控技术有限公司 | Air conditioner and humidifying method of air conditioner |
CN113190069B (en) * | 2021-05-08 | 2022-03-04 | 青岛市中心医院 | Ultraviolet medical equipment control circuit with humidification function |
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CN106594979A (en) | 2017-04-26 |
CN109916026A (en) | 2019-06-21 |
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