CN109140672A - Air conditioner and its control method and computer readable storage medium - Google Patents
Air conditioner and its control method and computer readable storage medium Download PDFInfo
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- CN109140672A CN109140672A CN201810921085.5A CN201810921085A CN109140672A CN 109140672 A CN109140672 A CN 109140672A CN 201810921085 A CN201810921085 A CN 201810921085A CN 109140672 A CN109140672 A CN 109140672A
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- Prior art keywords
- air conditioner
- duration
- wind speed
- wind
- power
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—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
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—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
- F24F11/65—Electronic processing for selecting an operating mode
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
- F24F11/74—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
-
- 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
- F24F11/88—Electrical aspects, e.g. circuits
Abstract
The invention discloses a kind of control method of air conditioner, the control method of the air conditioner determines the current wind speed of the indoor fan of the air conditioner the following steps are included: after air conditioner enters anion fine-purification mode;When the current wind speed is less than or equal to default wind speed, the energization period and power-off duration of the anion fine-purification device of the air conditioner are determined;The anion fine-purification device is controlled according to the energization period and power-off duration alternate energisation and power-off.The invention also discloses a kind of air conditioner and computer readable storage mediums.The case where present invention avoids the metope of installation air conditioner from blacking.
Description
Technical field
The present invention relates to air conditioner technical field more particularly to a kind of air conditioner and its control method and computer-readable deposit
Storage media.
Background technique
Emphasis with people to living standard quality and health, the air conditioner with air-cleaning function is gradually
Step into each place.
It is existing on the market, air conditioner purifies air using anion, and air conditioner is produced by anion fine-purification device
Raw anion, and anion is sent into room air, so that the particulate matter static electrification in room air, then air conditioner passes through again
Air inlet sucks room air, so that the particulate matter of static electrification is by the strainer filtering inside air conditioner, but air inlet and peace
The metope for filling air conditioner is close, and the continuous service of the anion fine-purification device of air conditioner, and metope can be made to be bonded a large amount of particles
Object causes metope to black.
Summary of the invention
The main purpose of the present invention is to provide a kind of air conditioner and its control method and computer readable storage medium, purports
The metope of installation air conditioner is caused to black in the anion fine-purification air for solving the problems, such as air conditioner.
To achieve the above object, the control method of a kind of air conditioner provided by the invention, the control method of the air conditioner
The following steps are included:
After air conditioner enters anion fine-purification mode, the current wind speed of the indoor fan of the air conditioner is determined;
When the current wind speed is less than or equal to default wind speed, the logical of the anion fine-purification device of the air conditioner is determined
Electric duration and power-off duration;
The anion fine-purification device is controlled according to the energization period and power-off duration alternate energisation and power-off.
Preferably, the control anion fine-purification device is according to the energization period and power-off duration alternate energisation
And include: after the step of power-off
The duration that the air conditioner is in anion fine-purification mode is obtained in real time;
Determine the time interval where the duration;
Determine the corresponding energization period of the time interval and the power-off duration, wherein with described lasting
The increase of duration, the energization period are in step wise reduction;
Current energization period is updated according to the corresponding energization period of the time interval and the power-off duration
And power-off duration, wherein the energization period is less than or equal to 16s, and the power-off duration is less than or equal to 16s.
Preferably, the time interval includes that the first interrupting time section, the second interrupting time section and third are interrupted
Time interval, wherein
The corresponding energization period in first interrupting time section is 16s, and a length of 16s when the power-off;
The corresponding energization period in second interrupting time section is 8s, and a length of 16s when the power-off;
The corresponding energization period in third interrupting time section is 2s, and a length of 16s when the power-off.
Preferably, the control method of the air conditioner, further includes:
After air conditioner enters anion fine-purification mode, obtains the air conditioner and be in holding for the anion fine-purification mode
Continuous duration;
Target Continuous duration is obtained, and judges whether the duration reaches the target Continuous duration;
When the duration reaches the target Continuous duration, the indoor fan of the determination air conditioner is executed
Current wind speed the step of;
When the duration is not up to the target Continuous duration, controls the anion fine-purification device and persistently transport
Row.
Preferably, the target Continuous duration is less than or equal to 30min, and is greater than or equal to 5min.
Preferably, the wind-speed gear of the indoor fan includes the powerful wind file position, high wind gear, weak that wind speed is sequentially reduced
Wind file position, gentle breeze gear and mute wind file position.
Preferably, the default wind speed is less than or equal to the corresponding wind speed in the weak wind file position.
Preferably, the corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear, according to the difference of the highest wind velocity of indoor fan and minimum wind speed, multiplied by
After one proportionality coefficient, in addition the minimum wind speed obtains;
The corresponding wind speed in the weak wind file position, according to the difference multiplied by the second proportionality coefficient after, in addition the minimum wind
Speed obtains, wherein first proportionality coefficient is greater than the second proportionality coefficient;
The corresponding wind speed of the gentle breeze gear, according to the difference multiplied by third proportionality coefficient after, in addition the minimum wind
Speed obtains, wherein second proportionality coefficient is greater than third proportionality coefficient;
The corresponding wind speed in the mute wind file position, according to the difference multiplied by the 4th proportionality coefficient after, in addition described minimum
Wind speed obtains, wherein the third proportionality coefficient is greater than the 4th proportionality coefficient.
Preferably, the corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear is less than or equal to the 99% of the highest wind velocity, and be greater than or equal to it is described most
The 80% of high wind speed;
The corresponding wind speed in the weak wind file position is less than the 80% of the highest wind velocity, and is greater than or equal to the highest wind velocity
60%;
The corresponding wind speed of the gentle breeze gear is less than the 60% of the highest wind velocity, and is greater than or equal to the highest wind velocity
40%;
The corresponding wind speed in the mute wind file position is less than the 40% of the highest wind velocity, and is greater than or equal to the indoor wind
The minimum wind speed of machine.
Preferably, the control anion fine-purification device is according to the energization period and power-off duration alternate energisation
And after the step of power-off, further includes:
When receiving wind speed regulating command, the energization period is updated according to the corresponding wind speed of the wind speed regulating command
And power-off duration;
It controls indoor fan to be run according to the corresponding wind speed of the wind speed regulating command, and controls the anion fine-purification dress
It sets according to the updated energization period and the updated power-off duration alternate energisation and power-off.
To achieve the above object, the present invention also provides a kind of air conditioner, the air conditioner includes anion fine-purification device, place
Device, memory and the control program for being stored in the air conditioner that can be run on the memory and on the processor are managed, it is described
The control program of air conditioner realizes each step of the control method of air conditioner as described above when being executed by the processor.
To achieve the above object, the present invention also provides a kind of computer readable storage medium, the computer-readable storages
Media storage has the control program of air conditioner, realizes when the control program of the air conditioner is executed by processor as described above empty
Adjust each step of the control method of device.
Air conditioner provided by the invention and its control method and computer readable storage medium enter anion in air conditioner
After purification pattern, the current wind speed of the indoor fan of air conditioner is determined, and when current wind speed is less than or equal to default wind speed, really
Determine the energization period and power-off duration of the anion fine-purification device of air conditioner, then reduces the wind speed of indoor fan and control simultaneously
Anion fine-purification device is according to energization period and power-off duration alternate energisation and power-off;Because air conditioner controls anion fine-purification
Device intermitten operation reduces the particulate matter adsorbed in the unit time of air conditioner, improves the product to particulate matter of air conditioner
Dirt effect avoids the metope of installation air conditioner from the phenomenon that blackening occur to greatly reduce the probability of metope bonding particulate matter.
Detailed description of the invention
Fig. 1 be the present embodiments relate to air conditioner hardware structural diagram;
Fig. 2 is the flow diagram of the control method first embodiment of the air condition of that present invention;
Fig. 3 is the flow diagram of the control method second embodiment of the air condition of that present invention;
Fig. 4 is the flow diagram of the control method 3rd embodiment of the air condition of that present invention;
Fig. 5 is the flow diagram of the control method fourth embodiment of the air condition of that present invention;
Fig. 6 is the flow diagram of the 5th embodiment of control method of the air condition of that present invention;
Fig. 7 is the flow diagram of the control method sixth embodiment of the air condition of that present invention.
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific embodiment
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The primary solutions of the embodiment of the present invention are: after air conditioner enters anion fine-purification mode, determining the sky
Adjust the current wind speed of the indoor fan of device;When the current wind speed is less than or equal to default wind speed, the air conditioner is determined
The energization period and power-off duration of anion fine-purification device;Control the anion fine-purification device according to the energization period with
And power off duration alternate energisation and power-off.
In the prior art, air conditioner purifies air using anion, and air conditioner is produced by anion fine-purification device
Raw anion, and anion is sent into room air, so that the particulate matter static electrification in room air, then air conditioner passes through again
Air inlet sucks room air, so that the particulate matter of static electrification is by the strainer filtering inside air conditioner, but air inlet and peace
The metope for filling air conditioner is close, and the continuous service of the anion fine-purification device of air conditioner, and metope can be made to be bonded a large amount of particles
Object causes metope to black.The present invention provides a solution: because air conditioner controls anion fine-purification device intermitten operation, subtracting
The particulate matter adsorbed in the unit time of air conditioner is lacked, the dust accumulation effect to particulate matter of air conditioner has been improved, thus significantly
The probability for reducing metope bonding particulate matter avoids the metope of installation air conditioner from the phenomenon that blackening occur.
As a kind of implementation, air conditioner can be as shown in Figure 1.
For the embodiment of the present invention what is involved is air conditioner, air conditioner includes: processor 1001, such as CPU, memory
1002, communication bus 1003, anion fine-purification device 1004.Wherein, communication bus 1003 is for realizing between these components
Connection communication.
Memory 1002 can be high speed RAM memory, be also possible to stable memory (non-
), such as magnetic disk storage volatilememory.As shown in Figure 1, as in a kind of memory 1003 of computer storage medium
It may include the control program of air conditioner;And processor 1001 can be used for calling the control of the air conditioner stored in memory 1002
Processing procedure sequence, and execute following operation:
After air conditioner enters anion fine-purification mode, the current wind speed of the indoor fan of the air conditioner is determined;
When the current wind speed is less than or equal to default wind speed, the logical of the anion fine-purification device of the air conditioner is determined
Electric duration and power-off duration;
The anion fine-purification device is controlled according to the energization period and power-off duration alternate energisation and power-off.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The control anion fine-purification device is according to the energization period and power-off duration alternate energisation and breaks
Include: after the step of electricity
The duration that the air conditioner is in anion fine-purification mode is obtained in real time;
Determine the time interval where the duration;
Determine the corresponding energization period of the time interval and the power-off duration, wherein with described lasting
The increase of duration, the energization period are in step wise reduction;
Current energization period is updated according to the corresponding energization period of the time interval and the power-off duration
And power-off duration, wherein the energization period is less than or equal to 16s, and the power-off duration is less than or equal to 16s.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The time interval includes the first interrupting time section, the second interrupting time section and third interrupting time area
Between, wherein
The corresponding energization period in first interrupting time section is 16s, and a length of 16s when the power-off;
The corresponding energization period in second interrupting time section is 8s, and a length of 16s when the power-off;
The corresponding energization period in third interrupting time section is 2s, and a length of 16s when the power-off.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The control method of the air conditioner, further includes:
After air conditioner enters anion fine-purification mode, obtains the air conditioner and be in holding for the anion fine-purification mode
Continuous duration;
Target Continuous duration is obtained, and judges whether the duration reaches the target Continuous duration;
When the duration reaches the target Continuous duration, the indoor fan of the determination air conditioner is executed
Current wind speed the step of;
When the duration is not up to the target Continuous duration, controls the anion fine-purification device and persistently transport
Row.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The target Continuous duration is less than or equal to 30min, and is greater than or equal to 5min.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The wind-speed gear of the indoor fan include wind speed be sequentially reduced powerful wind file position, high wind gear, weak wind file position,
Gentle breeze gear and mute wind file position.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The default wind speed is less than or equal to the corresponding wind speed in the weak wind file position.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear, according to the difference of the highest wind velocity of indoor fan and minimum wind speed, multiplied by
After one proportionality coefficient, in addition the minimum wind speed obtains;
The corresponding wind speed in the weak wind file position, according to the difference multiplied by the second proportionality coefficient after, in addition the minimum wind
Speed obtains, wherein first proportionality coefficient is greater than the second proportionality coefficient;
The corresponding wind speed of the gentle breeze gear, according to the difference multiplied by third proportionality coefficient after, in addition the minimum wind
Speed obtains, wherein second proportionality coefficient is greater than third proportionality coefficient;
The corresponding wind speed in the mute wind file position, according to the difference multiplied by the 4th proportionality coefficient after, in addition described minimum
Wind speed obtains, wherein the third proportionality coefficient is greater than the 4th proportionality coefficient.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
The corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear is less than or equal to the 99% of the highest wind velocity, and be greater than or equal to it is described most
The 80% of high wind speed;
The corresponding wind speed in the weak wind file position is less than the 80% of the highest wind velocity, and is greater than or equal to the highest wind velocity
60%;
The corresponding wind speed of the gentle breeze gear is less than the 60% of the highest wind velocity, and is greater than or equal to the highest wind velocity
40%;
The corresponding wind speed in the mute wind file position is less than the 40% of the highest wind velocity, and is greater than or equal to the indoor wind
The minimum wind speed of machine.
Further, processor 1001 can be used for calling the control program of the air conditioner stored in memory 1002, and
Execute following operation:
When receiving wind speed regulating command, the energization period is updated according to the corresponding wind speed of the wind speed regulating command
And power-off duration;
It controls indoor fan to be run according to the corresponding wind speed of the wind speed regulating command, and controls the anion fine-purification dress
It sets according to the updated energization period and the updated power-off duration alternate energisation and power-off.
The present embodiment is according to above scheme, after air conditioner enters anion fine-purification mode, determines the indoor wind of air conditioner
The current wind speed of machine, and when current wind speed is less than or equal to default wind speed, determine the logical of the anion fine-purification device of air conditioner
Electric duration and power-off duration, then reduce the wind speed of indoor fan and control simultaneously anion fine-purification device according to energization period with
And power off duration alternate energisation and power-off;Because air conditioner controls anion fine-purification device intermitten operation, reduce air conditioner
The particulate matter adsorbed in unit time, improves the dust accumulation effect to particulate matter of air conditioner, to greatly reduce metope bonding
The probability of particulate matter avoids the metope of installation air conditioner from the phenomenon that blackening occur.
Based on above-mentioned hardware architecture, the embodiment of the control method of the air condition of that present invention is proposed.
It is the first embodiment of the control method of the air condition of that present invention, the control method of the air conditioner referring to Fig. 2, Fig. 2
The following steps are included:
Step S10 determines the current wind of the indoor fan of the air conditioner after air conditioner enters anion fine-purification mode
Speed, and when the current wind speed is less than or equal to default wind speed, determine the energization of the anion fine-purification device of the air conditioner
Duration and power-off duration;
In the present invention, air conditioner is equipped with anion fine-purification mode, and in this mode, air conditioner controls anion fine-purification dress
Set it is in the open state, to be purified to room air.
When air conditioner is in anion fine-purification mode, since anion fine-purification device is persistently opened, so that air conditioner
It can continue for anion and indoor particulate matter to be combined, so that particulate matter is negatively charged, air conditioner is passing through air inlet
Mouth sucks electronegative particulate matter, and these particulate matter centralized collections are played purification to reduce the particulate matter in room air
The effect of air, but since anion persistently exports, so that air inlet persistently sucks electronegative particulate matter, can make according to sky
Electronegative particulate matter can be adsorbed by adjusting the metope (air inlet of metope and air conditioner is located proximate to) of device, so that causing metope
Black.
Based on this, air conditioner is born by control anion fine-purification device intermitten operation so that anion fine-purification device interrupts
Anion fine-purification device (is run a period of time, stops a period of time, as a week by the output of ion in one cycle
Phase), since the output of anion is limited, can make the air conditioner unit time suck electronegative particulate matter reduce (with bear from
Sub- purification device continuous service is compared) so that air conditioner can be improved the dust collecting effect of particulate matter, so that metope is inhaled
Attached particulate matter greatly reduces.
Based on air conditioner can air cleaning demand of the fast purification room air to guarantee user while, avoid metope
Black, the energization period and power-off duration to anion fine-purification device are tested, and are energized duration and are powered off duration
(energization period can be any appropriate numerical value, such as 16s to preferred value;Powering off duration can be any appropriate numerical value, such as
16s), and by energization period and the corresponding preferred value of power-off duration it is stored in air conditioner.
After air conditioner enters anion fine-purification mode, air conditioner directly acquires the logical of the anion fine-purification mode of storage
Electric duration and power-off duration.
Step S20, control the anion fine-purification device according to the energization period and power-off duration alternate energisation with
And power-off;
Air conditioner needs indoor fan to cooperate when carrying out dust to particulate matter, and the wind speed of indoor fan is bigger, when unit
The particulate matter of interior air conditioner sucking is more, and the particulate matter sucked is more, and the particulate matter of wall-attached also can be more, are based on
This, air conditioner can reduce the wind speed of indoor fan when running anion fine-purification mode, to reduce air conditioner unit time interior suction
The particulate matter entered;Further, if indoor fan wind speed is higher, because of the large amount of adsorption of particulate matter, the collection of air conditioner can be made
Dirt efficiency reduces, for example, air conditioner is 95% to the collection efficiency of the particulate matter of sucking under normal mode, if indoor fan
Wind speed is larger, at this point, collection efficiency is 80%, so that the particulate matter that will lead to wall-attached increases, therefore, reduce indoor fan
The wind speed that wind speed should establish blower indoors is larger, is based on this, and default wind speed is arranged to the wind speed of indoor fan, is lower than in wind speed
When default wind speed, then the wind speed of indoor fan is not adjusted, that is, this programme is to be lower than under default wind speed based on wind speed in fact
It applies.In addition, air conditioner is provided with, powerful wind, high wind, weak wind, (wind speed successively drops five wind-speed gears of gentle breeze and mute wind
It is low) namely default wind speed be less than or equal to the corresponding wind speed in weak wind file position, be in weak wind, gentle breeze when the wind speed of indoor fan
And when mute, anion fine-purification device is during intermitten operation, and air conditioner is without reducing the wind speed of indoor fan.
(wind speed is by user setting)., for example, the wind speed of indoor fan is adjusted to the corresponding wind speed in mute wind file position.It should be noted that
The corresponding wind speed in powerful wind file position is the highest wind velocity of indoor fan;
The corresponding wind speed of high wind gear, according to the difference of the highest wind velocity of indoor fan and minimum wind speed, multiplied by the first ratio
After example coefficient, in addition minimum wind speed obtains;
The corresponding wind speed in weak wind file position, according to difference multiplied by the second proportionality coefficient after, in addition minimum wind speed obtains, wherein
First proportionality coefficient is greater than the second proportionality coefficient;
The corresponding wind speed of gentle breeze gear, according to difference multiplied by third proportionality coefficient after, in addition minimum wind speed obtains, wherein
Second proportionality coefficient is greater than third proportionality coefficient;
The corresponding wind speed in mute wind file position, according to difference multiplied by the 4th proportionality coefficient after, in addition minimum wind speed obtains,
In, third proportionality coefficient is greater than the 4th proportionality coefficient;First to fourth proportionality coefficient respectively can for 0.8,0.6,0.4 and
0.01。
Certainly, five powerful wind, high wind, weak wind, gentle breeze and mute wind wind-speed gears can also be divided with wind speed range,
Specifically, the corresponding wind speed in powerful wind file position is the highest wind velocity of indoor fan;
The corresponding wind speed of high wind gear is less than or equal to the 99% of highest wind velocity, and is greater than or equal to highest wind velocity
80%;
The corresponding wind speed in weak wind file position is less than the 80% of highest wind velocity, and is greater than or equal to the 60% of highest wind velocity;
The corresponding wind speed of gentle breeze gear is less than the 60% of highest wind velocity, and is greater than or equal to the 40% of highest wind velocity;
The corresponding wind speed in mute wind file position is less than the 40% of highest wind velocity, and is greater than or equal to the minimum wind of indoor fan
Speed.
In technical solution provided in this embodiment, after air conditioner enters anion fine-purification mode, air conditioner is determined
The current wind speed of indoor fan determines the anion fine-purification device of air conditioner when current wind speed is less than or equal to default wind speed
Energization period and power-off duration, then reduce the wind speed of indoor fan and control simultaneously anion fine-purification device according to be powered when
Long and power-off duration alternate energisation and power-off;Because air conditioner controls anion fine-purification device intermitten operation, reduce air-conditioning
The particulate matter adsorbed in the unit time of device, improves the dust accumulation effect to particulate matter of air conditioner, to greatly reduce metope
It is bonded the probability of particulate matter, the metope of installation air conditioner is avoided the phenomenon that blackening occur.
It is the second embodiment of the control method of the air condition of that present invention referring to Fig. 3, Fig. 3, is based on first embodiment, the step
After rapid S20, further includes:
Step S30 obtains the duration that the air conditioner is in anion fine-purification mode in real time;
Step S40 determines the time interval where the duration;
Step S50 determines the corresponding energization period of the time interval and the power-off duration, wherein with
The increase of the duration, the energization period are in step wise reduction;
Step S60 updates currently according to the corresponding energization period of the time interval and the power-off duration
Energization period and power-off duration, wherein the energization period is less than or equal to 16s, and the power-off duration is less than or equal to
16s;
When running anion fine-purification mode, the particulate matter of room air is gradually reduced air conditioner, if air conditioner is with solid
Fixed energization period and power-off duration alternate energisation and power-off, can make air conditioner waste energy consumption, be based on this, air conditioner is set
Determine air conditioner and be in the duration of anion fine-purification mode to be inversely proportional with energization period so that the energization period of anion with
The increase of duration and reduce, but because duration is continually changing, if being determined according to the duration of real-time update
Energization period requires height to the computing resource of air conditioner, therefore divides time interval to duration, each time interval is equipped with
Corresponding energization period, so that the mapping relations in air conditioner storage time section and energization period;It is understood that in this reality
It applies in example, with the increase of duration, energization period is in step wise reduction.For example, in the present embodiment, time interval is drawn
It is divided into the first interrupting time section, the second interrupting time section and third interrupting time section, wherein each interrupting time area
Between corresponding duration be preferably 5min-30min;
The corresponding energization period in first interrupting time section is 16s, and a length of 16s when the power-off;
The corresponding energization period in second interrupting time section is 8s, and a length of 16s when the power-off;
The corresponding energization period in third interrupting time section is 2s, and a length of 16s when the power-off.
When air conditioner determine current duration (when air conditioner enters anion fine-purification mode, start timing, meter
Shi Shichang is duration) where time interval, to be determined according to time interval (interrupting time section) corresponding logical
Electric duration (the corresponding power-off duration of each time interval can be consistent), further according to the corresponding power-off duration of time interval and
Energization period updates current energization period and power-off duration, so that air conditioner controls anion fine-purification device in each time
According to the corresponding energization period of each time interval and power-off duration alternate energisation and power-off in section.
It should be noted that air conditioner can also be defined for power-off duration with duration, duration is longer, breaks
Electric duration is longer;Certainly, duration, power-off duration, energization period can also be directed to simultaneously to be defined, duration is longer,
Energization period is shorter, and power-off duration is longer, and (power-off duration and energization period are equipped with upper limit value and lower limit value, for example, being powered
Duration is less than or equal to 16s, and power-off duration is less than or equal to 16s).
In technical solution provided in this embodiment, anion fine-purification device alternate energisation and power-off are controlled in air conditioner
Afterwards, the duration that air conditioner is in anion fine-purification mode is obtained in real time, and determines the time interval where duration, by
This determines the energization period and power-off duration of anion fine-purification device according to time interval, corresponding logical further according to time interval
Electric duration and power-off duration update current energization period and power-off duration, so that anion fine-purification device is in each time
According to the corresponding energization period of each time interval and power-off duration alternate energisation and power-off in section, so that air-conditioning
Device can be run in conjunction with the control anion fine-purification device of indoor air quality situation intelligence.
It is the 3rd embodiment of the control method of the air condition of that present invention referring to Fig. 4, Fig. 4, is based on first or second embodiments,
The control method of the air conditioner, further includes:
Step S70 obtains the air conditioner and is in the anion fine-purification after air conditioner enters anion fine-purification mode
The duration of mode;
Step S80 obtains target Continuous duration, and judges whether the duration reaches the target Continuous duration;
Step S90, the step of executing the current wind speed of the indoor fan of the determination air conditioner, determine the air-conditioning
The energization period and power-off duration of the anion fine-purification device of device;
Step S100 controls the anion fine-purification dress when the duration is not up to the target Continuous duration
Set continuous service;
Air conditioner is in just starting anion fine-purification mode, since indoor air quality is poor, in order to promote air
Quality, air conditioner need quickly to reduce indoor particulate matter, are based on this, air conditioner is opened when starting anion fine-purification mode
Then beginning timing, then obtains target Continuous duration (mesh to obtain the duration that air conditioner is in anion fine-purification mode
Marking duration can be any appropriate numerical value, for example, target Continuous duration is less than or equal to 30min and is greater than or equal to
5min), and judge whether duration reaches target Continuous duration, if reaching, then show air conditioner by indoor air quality
Grade be promoted to it is excellent, at this point, energization period and the power-off of the anion fine-purification device of the determination air conditioner can be performed
The step of duration, is to control anion fine-purification device intermitten operation;If not up to, showing that indoor air quality is poor,
It still needs to quickly carry out dust to particulate matter, at this point, control anion fine-purification device continuous service is with fast lifting air quality etc.
Grade (wind speed of indoor fan not being reduced, to guarantee the purification rate of air conditioner).
It should be noted that target Continuous duration can be calculated according to air quality parameters and default duration
Arrive, specifically, be provided with default duration in air conditioner, air conditioner control anion fine-purification device continuous service when it is a length of
When default duration, air quality grade is promoted to good or excellent, and presetting duration due to this is the air matter with setting
Gain of parameter is measured, if indoor actual air mass parameter is greater than the air quality parameters of setting, preset duration persistently should
Increase, if actual air mass is less than the air quality parameters of setting, default duration should shorten, and be based on this, air-conditioning
Device needs to correct default duration according to actual air quality parameters, and holds using modified default duration as target
Continuous duration, air conditioner can obtain air quality parameters (in the present invention, air quality parameters by particulate matter detection sensor
Refer to that the concentration of particulate matter, particulate matter detection sensor can be PM2.5 sensor).
In technical solution provided in this embodiment, air conditioner obtains at air conditioner after entering anion fine-purification mode
In the duration and target Continuous duration of anion fine-purification mode, then when judging whether duration reaches default and continue
It is long, to determine the operational mode of anion fine-purification device according to judging result, enable the operation of anion fine-purification device
Meet current air quality situation, the intelligence degree of air conditioner is high.
It is the fourth embodiment of the control method of the air condition of that present invention referring to Fig. 5, Fig. 5, it is any into third based on first
Embodiment, the step S10 include:
Step S11, the air quality parameters in space where obtaining the air conditioner;
Step S12 determines the energization period and the power-off duration according to the air quality parameters, wherein institute
It is directly proportional to the energization period to state air quality parameters;
The energization period and power-off duration stored in air conditioner is to be obtained according to reference air mass parameter, and reality is empty
Gas mass parameter and reference air parameter are different, if air conditioner is only negative with the energization period of storage and power-off duration control
Ionic decontamination devices alternate energisation and power-off, the anion of anion fine-purification device output simultaneously mismatch current room air
Quality condition, to will cause waste or low (the actual air mass parameter height of air purification efficiency of the energy consumption of air conditioner
In reference mass parameter, cause air purification efficiency low;Actual air mass parameter is lower than reference mass parameter, causes anion
The anion of purification device output is excessive, and air conditioner is caused to waste energy consumption).For the situation, setting anion is logical in air conditioner
The mapping relations of electric duration and air quality parameters, air conditioner only need to can be true according to the mapping relations and air quality parameters
Energization period is determined, so that anion fine-purification device is run with suitable energization period.It should be noted that air quality is joined
Number is higher, and energization period is longer namely air quality parameters are directly proportional to energization period;In addition, not making an amendment in energization period
In the case where, breakpoint duration can be adjusted based on air quality parameters, air quality parameters are higher, and power-off duration is got over
It is low, but consider the problem of metope blacks, the restriction that lower limit value need to be carried out to power-off duration (it is too short to power off duration, can reduce sky
The collection efficiency for adjusting device, leads to the particulate matter that wall-attached is more).
In technical solution provided in this embodiment, air conditioner determines anion fine-purification device by air quality parameters
Energization period, so that the operation of anion fine-purification device can meet current air quality situation, the intelligent journey of air conditioner
Degree is high.
It is the 5th embodiment of the control method of the air condition of that present invention referring to Fig. 6, Fig. 6, is based on any in first to fourth
Embodiment, after the step S20, further includes:
Step S110 updates institute according to the corresponding wind speed of the wind speed regulating command when receiving wind speed regulating command
State energization period and the power-off duration;
Step S120 controls the indoor fan and is run according to the wind speed regulating command, and it is net to control the anion
Makeup is set according to the updated energization period and the updated power-off duration alternate energisation and power-off;
When air conditioner is in anion fine-purification mode, user may think that air conditioner current air volume needs adjust, base
In this, user sends wind speed regulating command to air conditioner, but the adjusting of wind speed can change sucking of the air conditioner to particulate matter
Amount, in order to maintain air conditioner particulate matter soakage (under the soakage, the integrated efficiency of air conditioner is higher), air conditioner need
Energization period and power-off duration to anion fine-purification device adjust.
If the wind speed regulating command that air conditioner receives is the wind speed for improving indoor fan, at this point, the soakage of particulate matter
Be it is increased, need to reduce anion fine-purification device anion output, to need to reduce the energization of anion fine-purification device
Duration;
If the wind speed regulating command that air conditioner receives is the wind speed for reducing indoor fan, at this point, the soakage of particulate matter
It is to reduce, needs to increase the anion output of anion fine-purification device, to need to increase the energization of anion fine-purification device
Duration;
In view of energization period have upper limit value and lower limit value, air conditioner can by energization period reach lower limit value or
When upper limit value, power-off duration is adjusted, for example, when energization period is reduced to lower limit value, it is possible to increase power-off duration.Certainly,
Energization period, power-off duration can also be adjusted simultaneously, power-off duration also has upper limit value and lower limit value, and wind speed is got over
Height, power-off duration are higher.
In technical solution provided in this embodiment, air conditioner is after receiving wind speed regulating command, according to air rate adjustment
Instruct corresponding wind speed to update energization period and power-off duration so that anion fine-purification device according to the energization period of update with
And long running when power-off, so that air conditioner be maintained to avoid metope from blacking the collection efficiency of particulate matter.
It is the sixth embodiment of the control method of the air condition of that present invention referring to Fig. 7, Fig. 7, is based on any in the first to the 5th
Embodiment, after the step S20, further includes:
Step S130, air conditioner described in timing acquisition are in the duration of the anion fine-purification mode, and according to institute
State the wind speed that duration determines indoor fan, wherein the duration is inversely proportional with the wind speed;
Step S140 controls the indoor fan and runs according to determining wind speed;
Air conditioner is equipped with automatic wind mode, and air conditioner can change indoor fan according to current air cleaning situation
Wind speed, it is to be understood that the duration that air conditioner is in anion fine-purification mode is longer, and the particulate matter of air conditioner processing is got over
Height, indoor air quality is better, and air conditioner can also reduce the soakage of particulate matter, therefore the wind speed of indoor fan gradually decreases,
Namely duration is inversely proportional with wind speed.
When receiving the entrance mode of automatic wind mode when air conditioner, air conditioner obtains duration, and according to lasting
Duration determines the wind speed of indoor fan, is run to control indoor fan with determining wind speed.
In addition, because air conditioner operation anion fine-purification mode after, air quality is preferable, and the wind speed of indoor fan compared with
Low, user is without high wind speed demand, at this point, indoor fan can reduce its wind speed, to reduce the energy consumption of air conditioner.
In technical solution provided in this embodiment, air conditioner timing acquisition air conditioner is in holding for anion fine-purification mode
Continue duration, and determine the wind speed of indoor fan according to duration, and control indoor fan and run according to determining wind speed, saves
The energy consumption of air conditioner.
The present invention also provides a kind of air conditioner, the air conditioner includes anion fine-purification device, processor, memory and deposits
Store up the control program for the air conditioner that can be run on the memory and on the processor, the control program of the air conditioner
Each step of the control method of air conditioner described in embodiment as above is realized when being executed by the processor.
The present invention also provides a kind of computer readable storage medium, the computer-readable recording medium storage has air conditioner
Control program, the control program of the air conditioner realizes the control of air conditioner described in embodiment as above when being executed by processor
Each step of method.
The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.
It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row
His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do
There is also other identical elements in the process, method of element, article or device.
Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side
Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases
The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art
The part contributed out can be embodied in the form of software products, which is stored in one as described above
In storage medium (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that terminal device (it can be mobile phone,
Computer, server, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.
The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills
Art field, is included within the scope of the present invention.
Claims (12)
1. a kind of control method of air conditioner, which is characterized in that the control method of the air conditioner the following steps are included:
After air conditioner enters anion fine-purification mode, the current wind speed of the indoor fan of the air conditioner is determined;
When the current wind speed is less than or equal to default wind speed, when determining the energization of anion fine-purification device of the air conditioner
Long and power-off duration;
The anion fine-purification device is controlled according to the energization period and power-off duration alternate energisation and power-off.
2. the control method of air conditioner as described in claim 1, which is characterized in that the control anion fine-purification device
Include: later according to the step of energization period and power-off duration alternate energisation and power-off
The duration that the air conditioner is in anion fine-purification mode is obtained in real time;
Determine the time interval where the duration;
Determine the corresponding energization period of the time interval and the power-off duration, wherein with the duration
Increase, the energization period be in step wise reduction;
According to the corresponding energization period of the time interval and the power-off duration update current energization period and
Power off duration, wherein the energization period is less than or equal to 16s, and the power-off duration is less than or equal to 16s.
3. the control method of air conditioner as claimed in claim 2, which is characterized in that when the time interval includes first interrupted
Between section, the second interrupting time section and third interrupting time section, wherein
The corresponding energization period in first interrupting time section is 16s, and a length of 16s when the power-off;
The corresponding energization period in second interrupting time section is 8s, and a length of 16s when the power-off;
The corresponding energization period in third interrupting time section is 2s, and a length of 16s when the power-off.
4. the control method of air conditioner as described in claim 1, which is characterized in that the control method of the air conditioner is also wrapped
It includes:
After air conditioner enters anion fine-purification mode, obtain the air conditioner be in the anion fine-purification mode it is lasting when
It is long;
Target Continuous duration is obtained, and judges whether the duration reaches the target Continuous duration;
When the duration reaches the target Continuous duration, working as the indoor fan of the determination air conditioner is executed
The step of preceding wind speed;
When the duration is not up to the target Continuous duration, the anion fine-purification device continuous service is controlled.
5. the control method of air conditioner as claimed in claim 4, which is characterized in that the target Continuous duration is less than or equal to
30min, and it is greater than or equal to 5min.
6. the control method of air conditioner as described in claim 1, which is characterized in that the wind-speed gear of the indoor fan includes
Powerful wind file position, high wind gear, weak wind file position, gentle breeze gear and the mute wind file position that wind speed is sequentially reduced.
7. the control method of air conditioner as claimed in claim 6, which is characterized in that the default wind speed is less than or equal to described
The corresponding wind speed in weak wind file position.
8. the control method of air conditioner as claimed in claim 6, which is characterized in that
The corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear, according to the difference of the highest wind velocity of indoor fan and minimum wind speed, multiplied by the first ratio
After example coefficient, in addition the minimum wind speed obtains;
The corresponding wind speed in the weak wind file position, according to the difference multiplied by the second proportionality coefficient after, in addition the minimum wind speed obtains
It arrives, wherein first proportionality coefficient is greater than the second proportionality coefficient;
The corresponding wind speed of the gentle breeze gear, according to the difference multiplied by third proportionality coefficient after, in addition the minimum wind speed obtains
It arrives, wherein second proportionality coefficient is greater than third proportionality coefficient;
The corresponding wind speed in the mute wind file position, according to the difference multiplied by the 4th proportionality coefficient after, in addition the minimum wind speed
It obtains, wherein the third proportionality coefficient is greater than the 4th proportionality coefficient.
9. the control method of air conditioner as claimed in claim 6, which is characterized in that
The corresponding wind speed in the powerful wind file position is the highest wind velocity of the indoor fan;
The corresponding wind speed of the high wind gear is less than or equal to the 99% of the highest wind velocity, and is greater than or equal to the highest wind
The 80% of speed;
The corresponding wind speed in the weak wind file position is less than the 80% of the highest wind velocity, and is greater than or equal to the highest wind velocity
60%;
The corresponding wind speed of the gentle breeze gear is less than the 60% of the highest wind velocity, and is greater than or equal to the highest wind velocity
40%;
The corresponding wind speed in the mute wind file position is less than the 40% of the highest wind velocity, and is greater than or equal to the indoor fan
Minimum wind speed.
10. as the described in any item air conditioners of claim 1-9 control method, which is characterized in that it is described control it is described bear from
Sub- purification device according to the energization period and power-off duration alternate energisation and power-off the step of after, further includes:
When receiving wind speed regulating command, according to the corresponding wind speed of the wind speed regulating command update the energization period and
Power off duration;
It controls indoor fan to be run according to the corresponding wind speed of the wind speed regulating command, and controls the anion fine-purification device and press
According to the updated energization period and the updated power-off duration alternate energisation and power-off.
11. a kind of air conditioner, which is characterized in that the air conditioner includes anion fine-purification device, processor, memory and storage
On the memory and the control program of air conditioner that can run on the processor, the control program quilt of the air conditioner
Each step of the control method such as the described in any item air conditioners of claim 1-10 is realized when the processor executes.
12. a kind of computer readable storage medium, which is characterized in that the computer-readable recording medium storage has air conditioner
Program is controlled, such as claim 1-10 described in any item air-conditionings are realized when the control program of the air conditioner is executed by processor
Each step of the control method of device.
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