CN106352486A - Energy-saving control method and system for air conditioner - Google Patents
Energy-saving control method and system for air conditioner Download PDFInfo
- Publication number
- CN106352486A CN106352486A CN201610839703.2A CN201610839703A CN106352486A CN 106352486 A CN106352486 A CN 106352486A CN 201610839703 A CN201610839703 A CN 201610839703A CN 106352486 A CN106352486 A CN 106352486A
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- China
- Prior art keywords
- conditioning
- air
- homoiothermic speed
- homoiothermic
- indoor environment
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
-
- 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
Abstract
The invention provides an energy-saving control method and system for an air conditioner. The method comprises steps as follows: the initial indoor environment temperature of the air conditioner, the current indoor environment temperature, the temperature adjusting rate gear and the running time of the air conditioner under the temperature adjusting rate gear are acquired; the actual temperature adjusting rate of the air conditioner is calculated according to the initial indoor environment temperature, the current indoor environment temperature and the running time; whether the actual temperature adjusting rate is within a preset fluctuation range of the standard temperature adjusting rate of the temperature adjusting rate gear is judged; if yes, it proves that the indoor environment temperature increases or decreases at the standard temperature adjusting rate, the air conditioner can be controlled to run at the current power at the moment, if no, it proves that the indoor environment temperature does not increase or decrease at the standard temperature adjusting rate, the condition that windows and doors are opened and the indoor environment temperature cannot reach the set temperature all the time exists, the air conditioner is controlled to be in a standby state at the moment, and thus the resource is saved.
Description
Technical field
The present invention relates to air-conditioning technical field, more particularly, it relates to a kind of energy-saving control method of air-conditioning and control system
System.
Background technology
Existing air-conditioned control system can control air-conditioning with certain Power operation according to the design temperature of user setup,
Freezed or heated.During air-conditioning work, the air-conditioning that control system can constantly receive temperature sensor detection is located
The temperature of indoor environment, if its indoor environment temperature reaches design temperature, control system can control air-conditioning to enter holding state,
When indoor environment temperature is higher or lower than design temperature certain numerical value, control system can control air-conditioning to turn back on.
Under normal circumstances, user can close the doors and windows when opening air-conditioning, to reach fast-refrigerating or the purpose heating.But
It is that in a practical situation, user often forgets when opening air-conditioning to close the doors and windows, or, user can open before outgoing
Door and window, but forget to close air-conditioning, so may result in indoor environment temperature and be unable to reach design temperature always, thus leading to sky
Tune is constantly in open state, in turn results in the waste of resource.
Content of the invention
In view of this, the invention provides a kind of energy-saving control method of air-conditioning and control system, to solve due to interior
Ambient temperature is unable to reach design temperature always, and leads to air-conditioning to be chronically at open state, cause the problem of the wasting of resources.
For achieving the above object, the following technical scheme of present invention offer:
A kind of energy-saving control method of air-conditioning, comprising:
The initial indoor environment temperature, current indoor ambient temperature, homoiothermic speed gear and the described air-conditioning that obtain air-conditioning exist
Run time under described homoiothermic speed gear;
Described sky is calculated according to described initial indoor environment temperature, described current indoor ambient temperature and described run time
The actual homoiothermic speed adjusted;
Judge described actual homoiothermic speed whether in the default fluctuation model of the standard homoiothermic speed of described homoiothermic speed gear
In enclosing;
If so, described air-conditioning is then controlled to keep current power to run;
If it is not, then controlling described air-conditioning to enter holding state.
Preferably, according to described initial indoor environment temperature, described current indoor ambient temperature and described run time meter
The actual homoiothermic speed calculating described air-conditioning includes:
Calculate described initial indoor environment temperature and the temperature difference of described current indoor ambient temperature;
Calculate the ratio of described temperature difference and described run time, described ratio is described actual homoiothermic speed.
Preferably, before controlling described air-conditioning to enter holding state, also include:
Described air-conditioning is controlled to send energy-conservation warning;
Whether receive, in certain time after judging to send described energy-conservation warning, the instruction closing described energy-conservation warning;
If so, described air-conditioning is controlled to keep current power to run;
If it is not, controlling described air-conditioning to enter holding state.
Preferably, after controlling described air-conditioning to keep current power to run, also include:
Judge whether the homoiothermic speed calculating in Preset Time is equal to described actual homoiothermic speed;
If so, then described actual homoiothermic speed is stored as the standard homoiothermic speed of described homoiothermic speed gear.
Preferably, the initial indoor environment temperature of air-conditioning, current indoor ambient temperature, homoiothermic speed gear and described are obtained
Air-conditioning, before the run time under described homoiothermic speed gear, also includes:
The instruction that receive user sends;
Described air-conditioning is controlled to run according to the homoiothermic speed gear that described instruction comprises, described air-conditioning at least includes 5 tune
Warm speed gear, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
A kind of energy-saving control system of air-conditioning, including acquisition module, computing module, judge module and control module;
Described acquisition module is used for obtaining the initial indoor environment temperature of air-conditioning, current indoor ambient temperature, homoiothermic speed
The gear and described air-conditioning run time under described homoiothermic speed gear;
Described computing module is used for according to described initial indoor environment temperature, described current indoor ambient temperature and described fortune
The actual homoiothermic speed of air-conditioning described in row Time Calculation;
Whether described judge module is used for judging described actual homoiothermic speed in the standard homoiothermic of described homoiothermic speed gear
In the default fluctuation range of speed, if so, produce the first control instruction and send to described control module, if it is not, producing second
Control instruction simultaneously sends to described control module;
Described control module is used for controlling described air-conditioning to keep current power to run according to described first control instruction, according to
Described second control instruction controls described air-conditioning to enter holding state.
Preferably, described computing module includes the first computing unit and the second computing unit;
Described first computing unit is used for calculating described initial indoor environment temperature and described current indoor ambient temperature
Temperature difference;
Described second computing unit is used for calculating the ratio of described temperature difference and described run time, and described ratio is described
Actual homoiothermic speed.
Preferably, also include alarm module;
Described judge module is additionally operable to, before producing described second control instruction, control described alarm module to send energy-conservation
Warning, and judge to send in the certain time after described energy-conservation alerts whether receive the instruction closing described energy-conservation warning, if
It is then to produce the first control instruction and send to described control module, if it is not, then producing the second control instruction and sending to described
Control module.
Preferably, described control module is additionally operable to, after controlling described air-conditioning to keep current power to run, judge default
Whether the homoiothermic speed calculating in the time is equal to described actual homoiothermic speed, if so, then deposits described actual homoiothermic speed
Store up the standard homoiothermic speed for described homoiothermic speed gear.
Preferably, also include receiver module;
Described receiver module is used for the instruction that receive user sends;
Described control module is used for controlling described air-conditioning to run according to the homoiothermic speed gear that described instruction comprises, described sky
It is adjusted to 5 homoiothermic speed gears of few inclusion, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
Compared with prior art, technical scheme provided by the present invention has the advantage that
The energy-saving control method of air-conditioning provided by the present invention and control system, obtain the initial indoor environment temperature of air-conditioning
Degree, current indoor ambient temperature, homoiothermic speed gear and air-conditioning after the run time under described homoiothermic speed gear, according to first
Beginning indoor environment temperature, current indoor ambient temperature and run time calculate the actual homoiothermic speed of air-conditioning, judge actual homoiothermic
Speed, whether in the default fluctuation range of the standard homoiothermic speed of homoiothermic speed gear, if so, then illustrates indoor environment temperature
Rise or fall according to standard homoiothermic speed, now, can control described air-conditioning and keep current power to run, if it is not, room is then described
Interior ambient temperature does not rise or fall according to standard homoiothermic speed, has that door and window is opened, indoor environment temperature cannot reach always
To the situation of design temperature, now, air-conditioning need to be controlled to enter holding state, to reach the purpose of save resources.
Brief description
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
Have technology description in required use accompanying drawing be briefly described it should be apparent that, drawings in the following description be only this
Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis
The accompanying drawing providing obtains other accompanying drawings.
Fig. 1 is a kind of flow chart of the energy-saving control method of air-conditioning provided in an embodiment of the present invention;
Fig. 2 is the flow chart of the energy-saving control method of another kind air-conditioning provided in an embodiment of the present invention;
Fig. 3 is a kind of structural representation of the energy-saving control system of air-conditioning provided in an embodiment of the present invention.
Specific embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation description is it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of not making creative work
Embodiment, broadly falls into the scope of protection of the invention.
The embodiment provides a kind of energy-saving control method of air-conditioning, it is applied to convertible frequency air-conditioner or fixed frequency air conditioner,
As shown in figure 1, this energy-saving control method includes:
S101: obtain initial indoor environment temperature, current indoor ambient temperature, homoiothermic speed gear and the described sky of air-conditioning
Adjust the run time under described homoiothermic speed gear;
S102: calculated according to described initial indoor environment temperature, described current indoor ambient temperature and described run time
The actual homoiothermic speed of described air-conditioning;
S103: judge described actual homoiothermic speed whether in the default ripple of the standard homoiothermic speed of described homoiothermic speed gear
In dynamic scope, if so, enter s104, if it is not, entering s105;
S104: control described air-conditioning to keep current power to run;
S105: control described air-conditioning to enter holding state.
Air-conditioning initial power-on start shooting, or air-conditioning from shut down enter open state, or air-conditioning from standby entrance open state when,
The temperature sensor of air-conditioning air inlet can be detected and stored the initial indoor environment temperature of air-conditioning place environment.In operation of air conditioner
During, air-conditioning can be freezed according to the design temperature of the design temperature that user sets or acquiescence or be heated, meanwhile, temperature
Sensor also can constantly detect the current indoor ambient temperature of storage air-conditioning.
After air-conditioning is started shooting and is run certain time, indoors ambient temperature be not up to design temperature before, the control of air-conditioning
System processed can obtain the initial indoor environment temperature of air-conditioning, the current indoor ambient temperature of air-conditioning, homoiothermic speed gear and air-conditioning
Run time under described homoiothermic speed gear, according to when initial indoor environment temperature, current indoor ambient temperature and operation
Between calculate the actual homoiothermic speed of air-conditioning, judge actual homoiothermic speed whether homoiothermic speed gear standard homoiothermic speed pre-
If in fluctuation range, if so, then explanation indoor environment temperature rises or falls according to standard homoiothermic speed, now, controllable institute
Stating air-conditioning keeps current power to run, if it is not, then explanation indoor environment temperature does not rise or fall according to standard homoiothermic speed,
Have that door and window is opened, indoor environment temperature is unable to reach the situation of design temperature always, therefore, air-conditioning need to be controlled to enter standby shape
State, to reach the purpose of save resources.
It should be noted that if air-conditioning is fixed frequency air conditioner, after control system controls air-conditioning to enter holding state, air-conditioning is straight
Connect shutdown, if air-conditioning is convertible frequency air-conditioner, after control system controls air-conditioning to enter holding state, air-conditioning can low-frequency operation.Additionally,
Homoiothermic speed in the embodiment of the present invention for cooling rate or can heat speed that is to say, that when air-conditioning is in system
During chill formula, homoiothermic speed is cooling rate, and when air-conditioning is in heating mode, homoiothermic speed is to heat speed.
Wherein, calculated according to described initial indoor environment temperature, described current indoor ambient temperature and described run time
The actual homoiothermic speed of described air-conditioning includes:
Calculate described initial indoor environment temperature and the temperature difference of described current indoor ambient temperature;
Calculate the ratio of described temperature difference and described run time, described ratio is described actual homoiothermic speed.
Under normal circumstances be door and window close in the case of, air-conditioning can make indoor environment temperature from initial indoor environment temperature to
Reach standby after design temperature, based on this, standard homoiothermic speed is exactly to be in the case that door and window is closed under normal circumstances, initially indoor
The temperature difference of ambient temperature and design temperature and air-conditioning make indoor environment temperature reach design temperature from initial indoor environment temperature
Run time ratio.
Under normal circumstances, before indoor environment temperature is not up to design temperature, the actual homoiothermic speed calculating is approximate
Equal to standard homoiothermic speed, that is, actual homoiothermic speed is in the default fluctuation range of standard homoiothermic speed.And open in door and window
In the case of, the time that indoor environment temperature reaches design temperature is longer, or, indoor environment temperature is unable to reach setting temperature always
Degree, the actual homoiothermic speed calculating can be far smaller than standard homoiothermic speed, now, in order to avoid the waste of resource, needs to control
Air-conditioning enters holding state.Afterwards, air-conditioning can turn back in separated in time Auto Power On or under control of the user.
Additionally, obtaining the initial indoor environment temperature of air-conditioning, current indoor ambient temperature, homoiothermic speed gear and described sky
Adjusted before the run time under described homoiothermic speed gear, also include:
The instruction that receive user sends;
Described air-conditioning is controlled to run according to the homoiothermic speed gear that described instruction comprises, described air-conditioning at least includes 5 tune
Warm speed gear, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
That is, during air-conditioning start, user can be according to a number of room-size and air-conditioning, from least 5 homoiothermics
Select a homoiothermic speed gear in speed gear, and control air-conditioning according to the standard homoiothermic speed of selected homoiothermic speed gear
Run.It should be noted that if the user while during air-conditioning runs according to a certain homoiothermic speed gear, resetting homoiothermic
Speed gear, then initial indoor environment temperature is the indoor environment temperature when resetting homoiothermic speed gear.
In the present embodiment, different homoiothermic speed gears can correspond to different wind shelves, and for example, standard homoiothermic speed is relatively low
Homoiothermic speed gear can correspond to low wind shelves, the higher homoiothermic speed gear of standard homoiothermic speed can correspond to apoplexy shelves, mark
Quasi- homoiothermic speed highest homoiothermic speed gear can correspond to high wind shelves.Low wind shelves, apoplexy shelves and the corresponding air-conditioning of high wind shelves
The wind speed of air outlet increases successively.
Wherein, the standard homoiothermic speed in different homoiothermic speed gears and default fluctuation range are air-conditioning developers according to sky
Adjust the homoiothermic speed that the experimental data of unit sets, but, different indoor environment homoiothermic speed can be different.Based on this, in control
After making described air-conditioning holding current power operation, also include:
Judge whether the homoiothermic speed calculating in Preset Time is equal to described actual homoiothermic speed;
If so, then described actual homoiothermic speed is stored as the standard homoiothermic speed of described homoiothermic speed gear.
That is, during operation of air conditioner, constantly homoiothermic speed can be calculated in real time, if repeatedly counting in Preset Time
The homoiothermic speed calculating is equal to described actual homoiothermic speed, then illustrate that described actual homoiothermic speed is exactly air-conditioning in current environment
Under normal homoiothermic speed be standard homoiothermic speed, now, described actual homoiothermic speed can be stored as described homoiothermic speed shelves
The standard homoiothermic speed of position, so that in the running of follow-up air-conditioning, with described actual homoiothermic speed and its default fluctuation model
Enclose for basis for estimation, such that it is able to improve judgement degree of accuracy.Wherein, the minima of the default fluctuation range of standard homoiothermic speed is
The difference of standard homoiothermic speed and a constant, maximum be standard homoiothermic speed with a constant and.
In one embodiment of the invention, as shown in Fig. 2 before entering step s105, also including:
S1030: control described air-conditioning to send energy-conservation warning;
S1031: whether receive in the certain time after judging to send described energy-conservation warning and close described energy-conservation warning
Instruction, if so, enters s104, if it is not, entering s105;
S104: control described air-conditioning to keep current power to run;
S105: control described air-conditioning to enter holding state.
After controlling air-conditioning to send energy-conservation warning, if receiving the instruction closing energy-conservation warning within a certain period of time, illustrate
User indoors, the operation such as it can carry out closing the doors and windows, if being not received by within a certain period of time closing the instruction of energy-conservation warning,
Then explanation user not indoors, gone out, now, can directly control air-conditioning enter holding state, during avoiding user to go out
The problem of the wasting of resources forgotten to close air-conditioning and lead to.
The energy-saving control method of air-conditioning provided by the present invention, obtain air-conditioning start when initial indoor environment temperature, when
After run time after front indoor environment temperature, homoiothermic speed gear and air-conditioning start, according to initial indoor environment temperature, currently
Whether indoor environment temperature and the actual homoiothermic speed of run time calculating air-conditioning, judge actual homoiothermic speed in homoiothermic speed shelves
In the default fluctuation range of standard homoiothermic speed of position, if so, then explanation indoor environment temperature rises according to standard homoiothermic speed
Or decline, now, can control described air-conditioning and keep current power to run, if it is not, then explanation indoor environment temperature is not according to mark
Quasi- homoiothermic speed rises or falls, and has that door and window is opened, indoor environment temperature is unable to reach the situation of design temperature always, because
This, need to control air-conditioning to enter holding state, to reach the purpose of save resources.
One embodiment of the present of invention additionally provides a kind of energy-saving control system of air-conditioning, can be applicable to convertible frequency air-conditioner or fixed
Frequency air-conditioning, as shown in figure 3, this energy-saving control system includes acquisition module 30, computing module 31, judge module 32 and control module
33;
Described acquisition module 30 be used for obtain air-conditioning start when initial indoor environment temperature, the current indoor of described air-conditioning
Ambient temperature, homoiothermic speed gear and described run time under described homoiothermic speed gear;
Described computing module 31 is used for according to described initial indoor environment temperature, described current indoor ambient temperature and described
Run time calculates the actual homoiothermic speed of described air-conditioning;
Whether described judge module 32 is used for judging described actual homoiothermic speed in the standard tune of described homoiothermic speed gear
In the default fluctuation range of warm speed, if so, produce the first control instruction and send to described control module 33, if it is not, producing
Second control instruction simultaneously sends to described control module 33;
Described control module 33 is used for controlling described air-conditioning to keep current power to run according to described first control instruction, root
Described air-conditioning is controlled to enter holding state according to described second control instruction.
Wherein, described computing module 31 includes the first computing unit and the second computing unit;
Described first computing unit is used for calculating described initial indoor environment temperature and described current indoor ambient temperature
Temperature difference;
Described second computing unit is used for calculating the ratio of described temperature difference and described run time, and described ratio is described
Actual homoiothermic speed.
Described control module 33 is additionally operable to, after controlling described air-conditioning to keep current power to run, judge in Preset Time
Whether the homoiothermic speed calculating is equal to described actual homoiothermic speed, if so, then described actual homoiothermic speed is stored as institute
State the standard homoiothermic speed of homoiothermic speed gear.
Control system also includes receiver module;
Described receiver module is used for the instruction that receive user sends;
Described control module is used for controlling described air-conditioning to run according to the homoiothermic speed gear that described instruction comprises, described sky
It is adjusted to 5 homoiothermic speed gears of few inclusion, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
In another embodiment of the invention, this control system also includes alarm module;
Described judge module 32 is additionally operable to, before producing described second control instruction, control described alarm module to send section
Can alert, and judge to send in the certain time after described energy-conservation alerts whether receive the instruction closing described energy-conservation warning,
If so, then produce the first control instruction and send to described control module 33, if it is not, then produce the second control instruction and send to
Described control module 33.
The energy-saving control system of air-conditioning provided by the present invention, acquisition module obtains initial indoor environment during air-conditioning start
After run time after temperature, current indoor ambient temperature, homoiothermic speed gear and air-conditioning start, computing module is according to initial room
Interior ambient temperature, current indoor ambient temperature and run time calculate the actual homoiothermic speed of air-conditioning, and judge module judges actual
Homoiothermic speed, whether in the default fluctuation range of the standard homoiothermic speed of homoiothermic speed gear, if so, then illustrates indoor environment
Temperature rises or falls according to standard homoiothermic speed, now, can control described air-conditioning and keeps current power to run, if it is not, then saying
Bright indoor environment temperature does not rise or fall according to standard homoiothermic speed, exist door and window open, indoor environment temperature always no
Method reaches the situation of design temperature, therefore, air-conditioning need to be controlled to enter holding state, to reach the purpose of save resources.
In this specification, each embodiment is described by the way of going forward one by one, and what each embodiment stressed is and other
The difference of embodiment, between each embodiment identical similar portion mutually referring to.For device disclosed in embodiment
For, because it corresponds to the method disclosed in Example, so description is fairly simple, say referring to method part in place of correlation
Bright.
Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention.
Multiple modifications to these embodiments will be apparent from for those skilled in the art, as defined herein
General Principle can be realized without departing from the spirit or scope of the present invention in other embodiments.Therefore, the present invention
It is not intended to be limited to the embodiments shown herein, and be to fit to and principles disclosed herein and features of novelty phase one
The scope the widest causing.
Claims (10)
1. a kind of energy-saving control method of air-conditioning is it is characterised in that include:
The initial indoor environment temperature, current indoor ambient temperature, homoiothermic speed gear and the described air-conditioning that obtain air-conditioning are described
Run time under homoiothermic speed gear;
Described air-conditioning is calculated according to described initial indoor environment temperature, described current indoor ambient temperature and described run time
Actual homoiothermic speed;
Judge described actual homoiothermic speed whether in the default fluctuation range of the standard homoiothermic speed of described homoiothermic speed gear;
If so, described air-conditioning is then controlled to keep current power to run;
If it is not, then controlling described air-conditioning to enter holding state.
2. method according to claim 1 is it is characterised in that according to described initial indoor environment temperature, described work as cup
The actual homoiothermic speed of interior ambient temperature and the described run time described air-conditioning of calculating includes:
Calculate described initial indoor environment temperature and the temperature difference of described current indoor ambient temperature;
Calculate the ratio of described temperature difference and described run time, described ratio is described actual homoiothermic speed.
3., before method according to claim 1 is it is characterised in that control described air-conditioning to enter holding state, also include:
Described air-conditioning is controlled to send energy-conservation warning;
Whether receive, in certain time after judging to send described energy-conservation warning, the instruction closing described energy-conservation warning;
If so, described air-conditioning is controlled to keep current power to run;
If it is not, controlling described air-conditioning to enter holding state.
4. after method according to claim 1 is it is characterised in that control described air-conditioning to keep current power to run, also
Including:
Judge whether the homoiothermic speed calculating in Preset Time is equal to described actual homoiothermic speed;
If so, then described actual homoiothermic speed is stored as the standard homoiothermic speed of described homoiothermic speed gear.
5. method according to claim 1 is it is characterised in that obtain the initial indoor environment temperature of air-conditioning, current indoor
Ambient temperature, homoiothermic speed gear and described air-conditioning, before the run time under described homoiothermic speed gear, also include:
The instruction that receive user sends;
Described air-conditioning is controlled to run according to the homoiothermic speed gear that described instruction comprises, described air-conditioning at least includes 5 homoiothermic speed
Rate gear, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
6. a kind of energy-saving control system of air-conditioning is it is characterised in that include acquisition module, computing module, judge module and control
Module;
Described acquisition module is used for obtaining the initial indoor environment temperature of air-conditioning, current indoor ambient temperature, homoiothermic speed gear
With run time under described homoiothermic speed gear for the described air-conditioning;
Described computing module is used for according to when described initial indoor environment temperature, described current indoor ambient temperature and described operation
Between calculate the actual homoiothermic speed of described air-conditioning;
Whether described judge module is used for judging described actual homoiothermic speed in the standard homoiothermic speed of described homoiothermic speed gear
Default fluctuation range in, if so, produce the first control instruction and send to described control module, if it is not, produce second control
Instruct and send to described control module;
Described control module is used for controlling described air-conditioning to keep current power to run according to described first control instruction, according to described
Second control instruction controls described air-conditioning to enter holding state.
7. control system according to claim 6 is it is characterised in that described computing module includes the first computing unit and
Two computing units;
Described first computing unit is used for calculating described initial indoor environment temperature and the temperature of described current indoor ambient temperature
Difference;
Described second computing unit is used for calculating the ratio of described temperature difference and described run time, and described ratio is described reality
Homoiothermic speed.
8. system according to claim 6 is it is characterised in that also include alarm module;
Described judge module is additionally operable to, before producing described second control instruction, control described alarm module to send energy-conservation police
Accuse, and judge to send whether receive the instruction closing described energy-conservation warning in the certain time after described energy-conservation alerts, if so,
Then produce the first control instruction and send to described control module, if it is not, then producing the second control instruction and sending to described control
Molding block.
9. system according to claim 6 is it is characterised in that described control module is additionally operable to controlling described air-conditioning to keep
After current power is run, judge whether the homoiothermic speed calculating in Preset Time is equal to described actual homoiothermic speed, if
It is then described actual homoiothermic speed to be stored as the standard homoiothermic speed of described homoiothermic speed gear.
10. system according to claim 6 is it is characterised in that also include receiver module;
Described receiver module is used for the instruction that receive user sends;
Described control module is used for controlling described air-conditioning to run according to the homoiothermic speed gear that described instruction comprises, and described air-conditioning is extremely
Include 5 homoiothermic speed gears less, the standard homoiothermic speed of described 5 homoiothermic speed gears increases successively.
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CN107490124A (en) * | 2017-07-21 | 2017-12-19 | 广东美的环境电器制造有限公司 | Heating system and room ventilation detection method and detection means |
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CN114279119A (en) * | 2021-12-13 | 2022-04-05 | 江苏凤凰新云网络科技有限公司 | Control method for energy regulation of data center precision air conditioner |
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CN114413419B (en) * | 2021-12-21 | 2023-02-28 | 珠海格力电器股份有限公司 | Prompting method and device, electronic equipment, air conditioner and storage medium thereof |
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