CN104456824B - Control method for air conditioner and air conditioner - Google Patents
Control method for air conditioner and air conditioner Download PDFInfo
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- CN104456824B CN104456824B CN201310430852.XA CN201310430852A CN104456824B CN 104456824 B CN104456824 B CN 104456824B CN 201310430852 A CN201310430852 A CN 201310430852A CN 104456824 B CN104456824 B CN 104456824B
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
- F24F11/46—Improving electric energy efficiency or saving
- F24F11/47—Responding to energy costs
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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
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/54—Control or safety arrangements characterised by user interfaces or communication using one central controller connected to several sub-controllers
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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
- F24F2140/00—Control inputs relating to system states
- F24F2140/60—Energy consumption
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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
- F24F2221/00—Details or features not otherwise provided for
- F24F2221/54—Heating and cooling, simultaneously or alternatively
Abstract
The invention discloses a control method for an air conditioner and the air conditioner. The control method for the air conditioner includes the steps that whether the air conditioner is in an energy-saving navigation mode or not is judged, if the air conditioner is in an energy-saving mode, whether the user setting temperature T1 in the energy-saving mode is received or not is judged; if the user setting temperature T1 is received, the user setting temperature T1 is adjusted according to the inner ring of the detected indoor environment temperature T and/or the user setting temperature T1, and the adjusted target temperature T2 is obtained; a compressor is controlled according to the target temperature T2 so as to operate at the operating frequency corresponding to the target temperature T2. The problem that in the prior art, energy of an air conditioner is wasted for no reason at all due to the unreasonable temperature which is set in the air conditioner in a default mode is solved, and a user can adjust the indoor temperature in the energy-saving mode.
Description
Technical field
The application is related to air-conditioner field, in particular to the control method and air-conditioner of a kind of air-conditioner.
Background technology
The energy saver mode of common air-conditioning(By taking refrigeration as an example)It is by directly the design temperature of air-conditioning being fixed on into some
Relatively high numerical value(Such as 27 DEG C), it is to avoid air-conditioning operates in a high frequency to reach the purpose of energy-conservation, now, even if client's setting
16 DEG C, air-conditioning can also only carry out 27 DEG C of design temperature, at this moment room temperature may occur higher, it is impossible to meet the low room of user
Between temperature requirements situation, except non-user cancel power saving function.
In actual use, it is frequently encountered above two situation:Using the air-conditioner room of general power saving function
Temperature drift, it is impossible to the temperature being reduced to required for user;Air-conditioner is in the power save mode due to the temperature of air-conditioner default setting
The unreasonable unnecessary consumption that can cause the energy of degree.
The content of the invention
The main purpose of the application is the control method and air-conditioner for providing a kind of air-conditioner, at least to solve existing skill
In art air-conditioner in the power save mode due to the temperature of air-conditioner default setting it is unreasonable caused by energy unnecessary consumption ask
Topic.
According to the one side of the application, there is provided a kind of control method of air-conditioner, it includes:Whether judge air-conditioner
In energy saver mode, wherein, if air-conditioner is under energy saver mode, judge whether to receive the user's setting under energy saver mode
Temperature TIf 1;If receiving user design temperature TIf 1, then according to the indoor environment temperature T for detectingInternal ringAnd/or user's design temperature
TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2;According to target temperature TIf 2Control compressor
With with target temperature TIf 2Corresponding operating frequency work.
Further, according to the indoor environment temperature T for detectingInternal ringAnd/or user design temperature TIf 1To user's design temperature
TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Work as TIf 1During the >=the first temperature threshold A, TIf 2=TIf 1;Work as TInternal ring>=the
During two temperature threshold B, TIf 2=B-D, wherein, D is the 4th temperature threshold;When(TInternal ring-TIf 1)During the >=the three temperature threshold C, TIf 2=
TInternal ring-C。
Further, according to the indoor environment temperature T for detectingInternal ringAnd/or user design temperature TIf 1To user's design temperature
TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Repeat following steps and exit energy saver mode until receiving
Signal or until receive adjustment user design temperature TIf 1Signal:Judge air-conditioner whether in refrigeration mode;If empty
Adjust device to be in refrigeration mode, then judge TIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=TIf 1;If TIf 1< A, then judge TInternal ringIt is
It is no more than or equal to B;If TInternal ring>=B, then TIf 2=B-D;If TInternal ring< B, then judge(TInternal ring-TIf 1)Whether C is more than or equal to;If(TInternal ring-
TIf 1)>=C, then TIf 2=TInternal ring-C;If(TInternal ring-TIf 1)< C, then TIf 2=TIf 1。
Further, according to the indoor environment temperature T for detectingInternal ringAnd/or user design temperature TIf 1To user's design temperature
TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Work as TIf 1During the≤the five temperature threshold E, TIf 2=TIf 1;Work as TInternal ring≤ the
During six temperature threshold F, TIf 2=F+H, wherein, H is the 8th temperature threshold;When(TIf 1-TInternal ring)During the >=the seven temperature threshold G, TIf 2=
TInternal ring+G。
Further, according to the indoor environment temperature T for detectingInternal ringAnd/or user design temperature TIf 1To user's design temperature
TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Repeat following steps and exit energy saver mode until receiving
Signal or until receive adjustment user design temperature TIf 1Signal:Judge air-conditioner whether in heating mode;If empty
Adjust device to be in heating mode, then judge TIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=T sets 1;If TIf 1> E, then judge TInternal ring
Whether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;If TInternal ring> F, then judge(TIf 1-TInternal ring)Whether G is more than or equal to;If(TIf 1-
TInternal ring)>=G, then TIf 2=TInternal ring+G;If(TIf 1-TInternal ring)< G, then TIf 2=TIf 1。
According to the another aspect of the application, there is provided a kind of air-conditioner, it includes:Master controller, for judging air-conditioner
Whether energy saver mode is in;Wherein, if air-conditioner judges whether to receive the user under energy saver mode under energy saver mode
Design temperature TIf 1;If receiving user design temperature TIf 1, then the indoor environment temperature for being detected according to indoor environment temperature sensor
Degree TInternal ringAnd/or user design temperature TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2;Control
Circuit, for according to target temperature TIf 2Control compressor with target temperature TIf 2Corresponding operating frequency work.
Further, master controller is used to perform following steps with to user design temperature TIf 1It is adjusted after being adjusted
Target temperature TIf 2:Work as TIf 1During the >=the first temperature threshold A, TIf 2=TIf 1;Work as TInternal ringDuring >=second temperature threshold value B, TIf 2=B-D, its
In, D is the 4th temperature threshold;When(TInternal ring-TIf 1)During the >=the three temperature threshold C, TIf 2=TInternal ring-C。
Further, master controller includes:First control unit, section is exited for repeating following steps until receiving
The signal of energy pattern adjusts user design temperature T until receivingIf 1Signal:Judge air-conditioner whether in refrigeration mould
Formula;If air-conditioner is in refrigeration mode, T is judgedIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=TIf 1;If TIf 1< A, then sentence
Disconnected TInternal ringWhether B is more than or equal to;If TInternal ring>=B, then TIf 2=B-D;If TInternal ring< B, then judge(TInternal ring-TIf 1)Whether C is more than or equal to;If
(TInternal ring-TIf 1)>=C, then TIf 2=TInternal ring-C;If(TInternal ring-TIf 1)< C, then TIf 2=TIf 1。
Further, master controller is used to perform following steps with to user design temperature TIf 1It is adjusted after being adjusted
Target temperature TIf 2:Work as TIf 1During the≤the five temperature threshold E, TIf 2=TIf 1;Work as TInternal ringDuring the≤the six temperature threshold F, TIf 2=F+H, its
In, H is the 8th temperature threshold;When(TIf 1-TInternal ring)During the >=the seven temperature threshold G, TIf 2=TInternal ring+G。
Further, master controller includes:Second control unit, section is exited for repeating following steps until receiving
The signal of energy pattern adjusts user design temperature T until receivingIf 1Signal:Judge whether air-conditioner is in and heat mould
Formula;If air-conditioner is in heating mode, T is judgedIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=TIf 1;If TIf 1> E, then sentence
Disconnected TInternal ringWhether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;If TInternal ring> F, then judge(TIf 1-TInternal ring)Whether G is more than or equal to;If
(TIf 1-TInternal ring)>=G, then TIf 2=TInternal ring+G;If(TIf 1-TInternal ring)< G, then TIf 2=TIf 1。
By the technical scheme of the application, following beneficial effect can be reached:In the technical scheme of the application, air-conditioner
The temperature information that can be set with receive user in the power save mode, and double optimization adjustment is carried out according to user's design temperature,
Then using the target temperature control compressor operating after adjustment, so that air-conditioner in the power save mode can be according to user
The temperature of setting and the temperature control compressor operating of current indoor, it is to avoid air-conditioner is in the power save mode because air-conditioner is silent
Recognize energy unnecessary consumption caused by the unreasonable institute of temperature of setting, and avoid in the power save mode due to air-conditioner default setting
Air-conditioner prolonged high loaded process caused by the unreasonable institute of temperature, realizes the purpose of energy-conservation, and has taken into account user and exist
To the demand of indoor temperature adjustment under energy saver mode.
Description of the drawings
Accompanying drawing described herein is used for providing further understanding of the present application, constitutes the part of the application, this Shen
Schematic description and description please does not constitute the improper restriction to the application for explaining the application.In the accompanying drawings:
Fig. 1 is a kind of optional structural representation of the air-conditioner according to the embodiment of the present application;
Fig. 2 is the optional structural representation of another kind of the air-conditioner according to the embodiment of the present application;
Fig. 3 is a kind of optional flow chart of the control method of the air-conditioner according to the embodiment of the present application;
Fig. 4 is the optional flow chart of another kind of the control method of the air-conditioner according to the embodiment of the present application.
Specific embodiment
Below with reference to accompanying drawing and in conjunction with the embodiments describing the application in detail.It should be noted that not conflicting
In the case of, the feature in embodiment and embodiment in the application can be mutually combined.
As used in this application, term " module ", " component " or " unit " can refer to the software for performing on a processor
Object or routine.Although system and method described herein are preferably realized with software, hardware or software and hardware
The realization of combination be also may and to be contemplated.
Embodiment 1
As shown in figure 1, the air-conditioner in the present embodiment includes:
1)Master controller 102, for judging air-conditioner whether in energy saver mode;Wherein, if air-conditioner is in energy-conservation mould
Under formula, then judge whether to receive the user design temperature T under energy saver modeIf 1;If receiving user design temperature TIf 1, then root
The indoor environment temperature T detected according to indoor environment temperature sensorInternal ringAnd/or user design temperature TIf 1To user's design temperature
TIf 1It is adjusted the target temperature T after being adjustedIf 2;
Optionally, in each embodiment of the application, user design temperature TIf 1Main control can be sent to by remote control
Device 102, certainly, above-mentioned user's design temperature TIf 1Can to be sent to master controller 102 by other equipment such as panel computer,
Each embodiment of the application is not limited this.
Additionally, as a kind of optional implementation, can judge air-conditioner whether in energy-conservation by following steps
Pattern:Master controller reads the energy saver mode status indicator in the memorizer in air-conditioner, if energy saver mode status indicator is " to open
Open ", then judge that air-conditioner is in energy saver mode, if energy saver mode status indicator is " closing ", judge air-conditioner not
In energy saver mode.
Further, as a kind of optional implementation, can by following steps to arrange memorizer in energy-conservation mould
Formula status indicator:If receiving the instruction for indicating into energy saver mode, the instruction is responded by the energy-conservation mould in memorizer
Formula status indicator is set to " unlatching ";If receiving for indicating into the instruction of other patterns or for indicating to cancel energy-conservation
The instruction of pattern, then respond the instruction and be set to the energy saver mode status indicator in memorizer " closing ".
2)Control circuit 104, is connected with master controller 102, for according to the target temperature TIf 2Control compressor with
The target temperature TIf 2Corresponding operating frequency work.
In the technical scheme of the application, the temperature information that air-conditioner can be set in the power save mode with receive user, and
Double optimization adjustment is carried out according to user's design temperature, then using the target temperature control compressor operating after adjustment, this
Sample cause air-conditioner in the power save mode can according to user setting temperature and current indoor temperature control compressor operating,
Air-conditioner is avoided in the power save mode due to energy unnecessary consumption caused by the unreasonable institute of the temperature of air-conditioner default setting, and
Avoid in the power save mode due to the prolonged high load capacity fortune of air-conditioner caused by the unreasonable institute of the temperature of air-conditioner default setting
Turn, realize the purpose of energy-conservation, and taken into account user in the power save mode to the demand of indoor temperature adjustment.
In order to preferably describe the present embodiment, Fig. 2 shows the optional structure of the another kind of the air-conditioner in the present embodiment,
As shown in Fig. 2 the air-conditioner in the present embodiment includes:Master controller 102, control circuit 104, indoor environment sensor 202, room
Environment sensor 204, compressor 208, wherein, master controller 102 and control circuit 104, indoor environment sensor 202, room
Environment sensor 204 connects, and control circuit 104 is connected with compressor 208.Additionally, master controller 102 is additionally operable to reception being located at
The control instruction that remote control 206 outside air-conditioner sends.
It should be noted that above-mentioned outdoor environment sensor 204 is optional, the air-conditioner in the present embodiment can not also
Including outdoor environment sensor 204.
As shown in Fig. 2 indoor environment sensor 202 is used for real-time detection indoor environment temperature;Outdoor environment sensor 204
For real-time detection outdoor environment temperature;Remote control 206 is used to set energy saver mode and setting room target temperature;Master controller
102 are responsible for receiving the input signal of indoor, outdoor environment temperature sensor and remote control, and by correlation computations T is carried outIf 1Two
Suboptimization, the target temperature T after being optimizedIf 2, and according to target temperature TIf 2The instruction of output squeezing machine operating frequency is to control
Circuit 104;Include memory element on master controller 102, for storing energy saver mode status indicator(For example, for indicating sky
Adjust whether device is in the energy saver mode status indicator of energy saver mode);Control circuit 104 is received after the instruction of master controller 102,
Action command is performed to compressor, the operating frequency of compressor is controlled.
By the technical scheme in the present embodiment, following beneficial effect can be reached:1)Can in the power save mode to sky
The design temperature for adjusting device is adjusted;2)Double optimization setting carried out by the design temperature to air-conditioner, it is to avoid air-conditioning
Long-time heavy-duty service, realizes energy-conservation, low noise operating, while taken into account demand of the user to room temperature, it is to avoid nothing
The power consumption of meaning.
Used as a kind of optional embodiment, the master controller 102 is used to perform following steps to set the user
Constant temperature degree TIf 1It is adjusted the target temperature T after being adjustedIf 2:
Work as TIf 1During the >=the first temperature threshold A, TIf 2=TIf 1;
Work as TInternal ringDuring >=second temperature threshold value B, TIf 2=B-D, wherein, D is the 4th temperature threshold;
When(TInternal ring-TIf 1)During the >=the three temperature threshold C, TIf 2=TInternal ring-C。
Used as a kind of optional embodiment, the master controller 102 includes:First control unit, for repeating
Following steps are until receiving the signal that exits the energy saver mode or until receiving adjustment user's design temperature TIf 1
Signal:
Judge the air-conditioner whether in refrigeration mode;
If the air-conditioner is in the refrigeration mode, T is judgedIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=
TIf 1;
If TIf 1< A, then judge TInternal ringWhether B is more than or equal to;If TInternal ring>=B, then TIf 2=B-D;
If TInternal ring< B, then judge(TInternal ring-TIf 1)Whether C is more than or equal to;If(TInternal ring-TIf 1)>=C, then TIf 2=TInternal ring-C;
If(TInternal ring-TIf 1)< C, then TIf 2=TIf 1。
Used as a kind of optional embodiment, the master controller is used to perform following steps with to user setting temperature
Degree TIf 1It is adjusted the target temperature T after being adjustedIf 2:
Work as TIf 1During the≤the five temperature threshold E, TIf 2=TIf 1;
Work as TInternal ringDuring the≤the six temperature threshold F, TIf 2=F+H, wherein, H is the 8th temperature threshold;
When(TIf 1-TInternal ring)During the >=the seven temperature threshold G, TIf 2=TInternal ring+G。
Used as a kind of optional embodiment, the master controller includes:Second control unit, it is following for repeating
Step is until receiving the signal that exits the energy saver mode or until receiving adjustment user's design temperature TIf 1Letter
Number:
Judge the air-conditioner whether in heating mode;
If the air-conditioner is in the heating mode, T is judgedIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=
TIf 1;
If TIf 1> E, then judge TInternal ringWhether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;
If TInternal ring> F, then judge(TIf 1-TInternal ring)Whether G is more than or equal to;If(TIf 1-TInternal ring)>=G, then TIf 2=TInternal ring+G;
If(TIf 1-TInternal ring)< G, then TIf 2=TIf 1。
Preferably, in the present embodiment, the span of the A is:10≤A≤40, unit for DEG C;
In the present embodiment, the span of the B is:10≤B≤50, unit for DEG C;
In the present embodiment, the span of the C is:0≤C≤40, unit for DEG C;
In the present embodiment, the span of the D is:0≤D≤20, unit for DEG C;
In the present embodiment, the span of the E is:10≤E≤40, unit for DEG C;
In the present embodiment, the span of the F is:- 30≤F≤40, unit for DEG C;
In the present embodiment, the span of the G is:0≤G≤70, unit for DEG C;
In the present embodiment, the span of the H is:0≤H≤20, unit for DEG C.
Embodiment 2
On the basis of the air-conditioner shown in Fig. 1-Fig. 2, present invention also provides a kind of control method of air-conditioner, such as schemes
Shown in 3, the control method of the air-conditioner of the present embodiment is comprised the following steps:
S302, judges that air-conditioner, whether in energy saver mode, if air-conditioner is under energy saver mode, judges whether to receive
User design temperature T under energy saver modeIf 1;
S304, if receiving user design temperature TIf 1, then according to the indoor environment temperature T for detectingInternal ringAnd/or user sets
Constant temperature degree TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2;
Optionally, in each embodiment of the application, user design temperature TIf 1Main control can be sent to by remote control
Device 102, certainly, above-mentioned user's design temperature TIf 1Can to be sent to master controller 102 by other equipment such as panel computer,
Each embodiment of the application is not limited this.
Additionally, as a kind of optional implementation, can judge air-conditioner whether in energy-conservation by following steps
Pattern:Master controller reads the energy saver mode status indicator in the memorizer in air-conditioner, if energy saver mode status indicator is " to open
Open ", then judge that air-conditioner is in energy saver mode, if energy saver mode status indicator is " closing ", judge air-conditioner not
In energy saver mode.
Further, as a kind of optional implementation, can by following steps to arrange memorizer in energy-conservation mould
Formula status indicator:If receiving the instruction for indicating into energy saver mode, the instruction is responded by the energy-conservation mould in memorizer
Formula status indicator is set to " unlatching ";If receiving for indicating into the instruction of other patterns or for indicating to cancel energy-conservation
The instruction of pattern, then respond the instruction and be set to the energy saver mode status indicator in memorizer " closing ".
S306, according to target temperature TIf 2Control compressor with target temperature TIf 2Corresponding operating frequency work.
In the technical scheme of the application, the temperature information that air-conditioner can be set in the power save mode with receive user, and
Double optimization adjustment is carried out according to user's design temperature, then using the target temperature control compressor operating after adjustment, this
Sample cause air-conditioner in the power save mode can according to user setting temperature and current indoor temperature control compressor operating,
Air-conditioner is avoided in the power save mode due to energy unnecessary consumption caused by the unreasonable institute of the temperature of air-conditioner default setting, and
Avoid in the power save mode due to the prolonged high load capacity fortune of air-conditioner caused by the unreasonable institute of the temperature of air-conditioner default setting
Turn, realize the purpose of energy-conservation, and taken into account user in the power save mode to the demand of indoor temperature adjustment.
As a kind of optional embodiment, according to the indoor environment temperature T for detectingInternal ringAnd/or user's design temperature
TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Work as TIf 1>=the first temperature threshold A
When, TIf 2=TIf 1;Work as TInternal ringDuring >=second temperature threshold value B, TIf 2=B-D, wherein, D is the 4th temperature threshold;When(TInternal ring-TIf 1)>=the
During three temperature threshold C, TIf 2=TInternal ring-C。
As a kind of optional embodiment, according to the indoor environment temperature T for detectingInternal ringAnd/or user's design temperature
TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Following steps are repeated until connecing
Receive the signal that exits energy saver mode or until receiving adjustment user design temperature TIf 1Signal:Whether judge air-conditioner
In refrigeration mode;If air-conditioner is in refrigeration mode, T is judgedIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=TIf 1;If
TIf 1< A, then judge TInternal ringWhether B is more than or equal to;If TInternal ring>=B, then TIf 2=B-D;If TInternal ring< B, then judge(TInternal ring-TIf 1)Whether
More than or equal to C;If(TInternal ring-TIf 1)>=C, then TIf 2=TInternal ring-C;If(TInternal ring-TIf 1)< C, then TIf 2=TIf 1。
As a kind of optional embodiment, according to the indoor environment temperature T for detectingInternal ringAnd/or user's design temperature
TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Work as TIf 1≤ the five temperature threshold E
When, TIf 2=TIf 1;Work as TInternal ringDuring the≤the six temperature threshold F, TIf 2=F+H, wherein, H is the 8th temperature threshold;When(TIf 1-TInternal ring)>=the
During seven temperature threshold G, TIf 2=TInternal ring+G。
As a kind of optional embodiment, according to the indoor environment temperature T for detectingInternal ringAnd/or user's design temperature
TIf 1To user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Following steps are repeated until connecing
Receive the signal that exits energy saver mode or until receiving adjustment user design temperature TIf 1Signal:Whether judge air-conditioner
In heating mode;If air-conditioner is in heating mode, T is judgedIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=TIf 1;If
TIf 1> E, then judge TInternal ringWhether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;If TInternal ring> F, then judge(TIf 1-TInternal ring)Whether
More than or equal to G;If(TIf 1-TInternal ring)>=G, then TIf 2=TInternal ring+G;If(TIf 1-TInternal ring)< G, then TIf 2=TIf 1。
Preferably, in the present embodiment, the span of the A is:10≤A≤40, unit for DEG C;
In the present embodiment, the span of the B is:10≤B≤50, unit for DEG C;
In the present embodiment, the span of the C is:0≤C≤40, unit for DEG C;
In the present embodiment, the span of the D is:0≤D≤20, unit for DEG C;
In the present embodiment, the span of the E is:10≤E≤40, unit for DEG C;
In the present embodiment, the span of the F is:- 30≤F≤40, unit for DEG C;
In the present embodiment, the span of the G is:0≤G≤70, unit for DEG C;
In the present embodiment, the span of the H is:0≤H≤20, unit for DEG C.
In order to preferably describe above-described embodiment, Fig. 4 shows the control method of another kind of air-conditioner.As shown in figure 4, this
The control method of the air-conditioner that embodiment is provided comprises the steps:
Step 1:After air-conditioner start operation, master controller first detect whether to receive remote control sends for indicate into
Enter the instruction of energy saver mode, if being not detected by the instruction for indicating into energy saver mode, by the memorizer of air-conditioner
Energy saver mode status indicator is set to " closing ", and continues waiting for next detection moment;If detecting for indicating to enter section
The instruction of energy pattern, then be set to energy saver mode status indicator in the memorizer of air-conditioner " unlatching ", and proceeds to step 2;
Step 2:Whether the operational mode for judging air-conditioner is refrigeration mode, if it is, proceeding to step 3;If not
Refrigeration mode, then proceed to step 6;
Step 3:Judge room temperature T that user setsIf 1Whether A is more than or equal to, if TIf 1>=A, then after double optimization
Design temperature TIf 2Just directly take the room temperature of family setting, i.e. TIf 2=TIf 1, while logic return to step 1;If TIf 1< A, then
Proceed to step 4;
Step 4:Determine whether indoor environment temperature TInternal ringWhether B is more than or equal to, if TInternal ring>=B, then after double optimization
Design temperature TIf 2Value is B-D, i.e. TIf 2=B-D, while logic return to step 1;If TInternal ring< B, then proceed to step 5;
Step 5:Further judge indoor environment temperature TInternal ringWith user design temperature TIf 1Difference whether be more than or equal to
C, if TInternal ring-TIf 1>=C, then the design temperature T after double optimizationIf 2Value is TInternal ring- C, i.e.,
Step TIf 2=TInternal ring- C, while logic return to step 1;If TInternal ring-TIf 1< C, then the design temperature T after double optimizationIf 2
Just take the room temperature of family setting, i.e. TIf 2=TIf 1, while logic return to step 1;
Step 6:Whether the operational mode for judging air-conditioner is heating mode, if it is, proceeding to step 7;If not
Heating mode, then air-conditioner is according to former logic operation;
Step 7:Judge room temperature T that user setsIf 1Whether E is less than or equal to, if TIf 1≤ E, then after double optimization
Design temperature TIf 2Just directly take the room temperature of family setting, i.e. TIf 2=TIf 1, while logic return to step 1;If TIf 1> E, then
Proceed to step 8;
Step 8:Determine whether indoor environment temperature TInternal ringWhether F is less than or equal to, if TInternal ring≤ F, then after double optimization
Design temperature TIf 2Value is F+H, i.e. TIf 2=F+H, while logic return to step 1;If TInternal ring> F, then proceed to step 9;
Step 9:Further judge user design temperature TIf 1With indoor environment temperature TInternal ringDifference whether be more than or equal to
G, if TIf 1-TInternal ring>=G, then the design temperature T after double optimizationIf 2Value is TInternal ring+ G, i.e.,
TIf 2=TInternal ring+ G, while logic return to step 1;If TIf 1-TInternal ring< G, then the design temperature T after double optimizationIf 2Just take
The room temperature of user's setting, i.e. TIf 2=TIf 1, while logic return to step 1.
In above-mentioned steps, master controller by being optimized secondary setting to the room temperature that user sets, by room
Temperature is divided into several continuous little temperature difference with the temperature difference of design temperature, because room temperature is stepping, so room
The temperature difference is also a variable, the characteristics of the room temperature differential after the setting of design temperature double optimization has the little temperature difference, therefore can be kept away
Exempt from the operation of system long-time high frequency, with low energy consumption, the advantage of low noise;Simultaneously the continuous little temperature difference will not change the reality of user
The actual set temperature of border design temperature, the final design temperature of system or user will not become, and so both meet the low of user
Room temperature demand, and the operation of energy energy-conservation.
Additionally, determining TIf 2Afterwards, master controller is according to the design temperature T after double optimization settingIf 2Calculate compressor
Optimum operation frequency is simultaneously sent to control circuit execution compressor operation frequency.
In the above-described embodiments, master controller collection indoor environment temperature, outdoor environment temperature, user's design temperature and according to
Calculating is analyzed to this according to certain algorithm, and then double optimization setting is carried out to design temperature;Setting after double optimization
Temperature TIf 2The characteristics of there is the little temperature difference with the temperature difference of room temperature;Design temperature after double optimization is a dynamic change value, it
With indoor environment temperature, the change of user's design temperature and change;Setting temperature after the double optimization of several dynamic changes
Degree TIf 2The temperature difference of room initial temperature and user's design temperature is divided into into the little temperature difference of several continuous changes;Remote control can
To set, energy-conservation navigation feature is opened or energy-conservation navigation feature is closed, and master controller remembers the switching-state information of energy-conservation navigation feature
In master controller memory element, call automatically after start, without the need for repeating to arrange.
Embodiment 3
On the basis of the air-conditioner shown in Fig. 1-Fig. 2, present invention also provides a kind of control method of air-conditioner, this reality
The control method for applying the air-conditioner of example is comprised the following steps:
Step 1:After air-conditioner start operation, master controller first detect whether to receive remote control sends for indicate into
Enter the instruction of energy saver mode, if being not detected by the instruction for indicating into energy saver mode, by the memorizer of air-conditioner
Energy saver mode status indicator is set to " closing ", and continues waiting for next detection moment;If detecting for indicating to enter section
The instruction of energy pattern, then be set to energy saver mode status indicator in the memorizer of air-conditioner " unlatching ", and proceeds to step 2;
Step 2:Whether the operational mode for judging air-conditioner is refrigeration mode, if it is, proceeding to step 3;If not
Refrigeration mode, then proceed to step 6;
Step 3:Judge room temperature T that user setsIf 1Whether 27 are more than or equal to, if TIf 1>=27, then after double optimization
Design temperature TIf 2Just directly take the room temperature of family setting, i.e. TIf 2=TIf 1, while logic return to step 1;If TIf 1< 27,
Then proceed to step 4;
Step 4:Determine whether indoor environment temperature TInternal ringWhether 29 are more than or equal to, if TInternal ring>=29, then double optimization
Design temperature T afterwardsIf 2Value is 29-2, i.e. TIf 2=27, while logic return to step 1;If TInternal ring< 29, then proceed to step 5;
Step 5:Further judge indoor environment temperature TInternal ringWith user design temperature TIf 1Difference whether be more than or equal to
2, if TInternal ring-TIf 1>=2, then the design temperature T after double optimizationIf 2Value is TInternal ring- 2, i.e.,
Step TIf 2=TInternal ring- 2, while logic return to step 1;If TInternal ring-TIf 1< 2, then the design temperature T after double optimization set
2 room temperatures for just taking family setting, i.e. TIf 2=TIf 1, while logic return to step 1;
Step 6:Whether the operational mode for judging air-conditioner is heating mode, if it is, proceeding to step 7;If not
Heating mode, then air-conditioner is according to former logic operation;
Step 7:Judge room temperature T that user setsIf 1Whether 25 are less than or equal to, if TIf 1≤ 25, then after double optimization
Design temperature TIf 2Just directly take the room temperature of family setting, i.e. TIf 2=TIf 1, while logic return to step 1;If TIf 1> 25,
Then proceed to step 8;
Step 8:Determine whether indoor environment temperature TInternal ringWhether 23 are less than or equal to, if TInternal ring≤ 23, then double optimization
Design temperature T afterwardsIf 2Value is F+H, i.e. TIf 2=23+2, i.e. TIf 2=25, while logic return to step 1;If TInternal ring> 23, then turn
Enter step 9;
Step 9:Further judge user design temperature TIf 1With indoor environment temperature TInternal ringDifference whether be more than or equal to
2, if TIf 1-TInternal ring>=2, then the design temperature T after double optimizationIf 2Value is TInternal ring+ 2, i.e.,
TIf 2=TInternal ring+ 2, while logic return to step 1;If TIf 1-TInternal ring< 2, then the design temperature T after double optimizationIf 2Just take
The room temperature of user's setting, i.e. TIf 2=TIf 1, while logic return to step 1.
Obviously, those skilled in the art should be understood that each module or each step of above-mentioned the application can be with general
Computing device realizing, they can be concentrated on single computing device, or are distributed in multiple computing devices and are constituted
Network on, alternatively, they can be realized with the executable program code of computing device, it is thus possible to they are stored
Performed by computing device in the storage device, and in some cases, can be shown to perform different from order herein
The step of going out or describe, or they are fabricated to respectively each integrated circuit modules, or by the multiple modules in them or
Step is fabricated to single integrated circuit module to realize.So, the application is not restricted to any specific hardware and software combination.
The preferred embodiment of the application is the foregoing is only, the application is not limited to, for the skill of this area
For art personnel, the application can have various modifications and variations.It is all within spirit herein and principle, made any repair
Change, equivalent, improvement etc., should be included within the protection domain of the application.
Claims (10)
1. a kind of control method of air-conditioner, it is characterised in that include:
Judge air-conditioner whether in energy saver mode;
If the air-conditioner is under the energy saver mode, judge whether to receive the user's setting temperature under the energy saver mode
Degree TIf 1;
If receiving user's design temperature TIf 1, then according to the indoor environment temperature T for detectingInternal ringWith user setting temperature
Degree TIf 1To user's design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2, wherein, the target temperature TIf 2
It is a dynamic change value, it is with indoor environment temperature TInternal ring, user design temperature TIf 1Change and change, the target temperature
TIf 2Move closer to user's design temperature TIf 1;
According to the target temperature TIf 2Control compressor with the target temperature TIf 2Corresponding operating frequency work.
2. method according to claim 1, it is characterised in that according to the indoor environment temperature T for detectingInternal ringWith the use
Family design temperature TIf 1To user's design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:
If the air-conditioner is in the refrigeration mode, T is judgedIf 1Whether the first temperature threshold A is more than or equal to;
Work as TIf 1During the >=the first temperature threshold A, TIf 2=TIf 1;
If TIf 1<A, then judge TInternal ringWhether second temperature threshold value B is more than or equal to;
Work as TInternal ringDuring >=second temperature threshold value B, TIf 2=B-D, wherein, D is the 4th temperature threshold;
If TInternal ring<B, then judge (TInternal ring-TIf 1) whether it is more than or equal to the 3rd temperature threshold C;
As (TInternal ring-TIf 1During) >=the 3rd temperature threshold C, TIf 2=TInternal ring-C;
If (TInternal ring-TIf 1)<C, then TIf 2=TIf 1。
3. method according to claim 2, it is characterised in that according to the indoor environment temperature T for detectingInternal ringWith the use
Family design temperature TIf 1To user's design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Repeat
Following steps are until receiving the signal that exits the energy saver mode or until receiving adjustment user's design temperature TIf 1
Signal:
Judge the air-conditioner whether in refrigeration mode;
If the air-conditioner is in the refrigeration mode, T is judgedIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=TIf 1;
If TIf 1<A, then judge TInternal ringWhether B is more than or equal to;If TInternal ring>=B, then TIf 2=B-D;
If TInternal ring<B, then judge (TInternal ring-TIf 1) whether it is more than or equal to C;If (TInternal ring-TIf 1) >=C, then TIf 2=TInternal ring-C;
If (TInternal ring-TIf 1)<C, then TIf 2=TIf 1。
4. method according to claim 1, it is characterised in that according to the indoor environment temperature T for detectingInternal ringWith the use
Family design temperature TIf 1To user's design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:
If the air-conditioner is in the heating mode, T is judgedIf 1Whether the 5th temperature threshold E is less than or equal to;
Work as TIf 1During the≤the five temperature threshold E, TIf 2=TIf 1;
If TIf 1>E, then judge TInternal ringWhether the 6th temperature threshold F is less than or equal to;
Work as TInternal ringDuring the≤the six temperature threshold F, TIf 2=F+H, wherein, H is the 8th temperature threshold;
If TInternal ring>F, then judge (TIf 1-TInternal ring) whether it is more than or equal to the 7th temperature threshold G;
As (TIf 1-TInternal ringDuring) >=the 7th temperature threshold G, TIf 2=TInternal ring+G;
If (TIf 1-TInternal ring)<G, then TIf 2=TIf 1。
5. method according to claim 4, it is characterised in that according to the indoor environment temperature T for detectingInternal ringWith the use
Family design temperature TIf 1To user's design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2Including:Repeat
Following steps are until receiving the signal that exits the energy saver mode or until receiving adjustment user's design temperature TIf 1
Signal:
Judge the air-conditioner whether in heating mode;
If the air-conditioner is in the heating mode, T is judgedIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=TIf 1;
If TIf 1>E, then judge TInternal ringWhether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;
If TInternal ring>F, then judge (TIf 1-TInternal ring) whether it is more than or equal to G;If (TIf 1-TInternal ring) >=G, then TIf 2=TInternal ring+G;
If (TIf 1-TInternal ring)<G, then TIf 2=TIf 1。
6. a kind of air-conditioner, it is characterised in that include:
Master controller, for judging air-conditioner whether in energy saver mode;If the air-conditioner is under the energy saver mode,
Judge whether to receive the user design temperature T under the energy saver modeIf 1;If receiving user's design temperature TIf 1, then root
The indoor environment temperature T detected according to indoor environment temperature sensorInternal ringWith user's design temperature TIf 1The user is set
Constant temperature degree TIf 1It is adjusted the target temperature T after being adjustedIf 2, wherein, the target temperature TIf 2It is a dynamic change value, it
With indoor environment temperature TInternal ring, user design temperature TIf 1Change and change, the target temperature TIf 2Move closer to the use
Family design temperature TIf 1;
Control circuit, for according to the target temperature TIf 2Control compressor with the target temperature TIf 2Corresponding operating frequency
Rate works.
7. air-conditioner according to claim 6, it is characterised in that the master controller is used to perform following steps with to institute
State user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2:
If the air-conditioner is in the refrigeration mode, T is judgedIf 1Whether the first temperature threshold A is more than or equal to;
Work as TIf 1During the >=the first temperature threshold A, TIf 2=TIf 1;
If TIf 1<A, then judge TInternal ringWhether second temperature threshold value B is more than or equal to;
Work as TInternal ringDuring >=second temperature threshold value B, TIf 2=B-D, wherein, D is the 4th temperature threshold;
If TInternal ring<B, then judge (TInternal ring-TIf 1) whether it is more than or equal to the 3rd temperature threshold C;
As (TInternal ring-TIf 1During) >=the 3rd temperature threshold C, TIf 2=TInternal ring-C;
If (TInternal ring-TIf 1)<C, then TIf 2=TIf 1。
8. air-conditioner according to claim 7, it is characterised in that the master controller includes:First control unit, is used for
Repeat following steps to set until receiving the signal that exits the energy saver mode or until receiving the adjustment user
Constant temperature degree TIf 1Signal:
Judge the air-conditioner whether in refrigeration mode;
If the air-conditioner is in the refrigeration mode, T is judgedIf 1Whether A is more than or equal to;If TIf 1>=A, then TIf 2=TIf 1;
If TIf 1<A, then judge TInternal ringWhether B is more than or equal to;If TInternal ring>=B, then TIf 2=B-D;
If TInternal ring<B, then judge (TInternal ring-TIf 1) whether it is more than or equal to C;If (TInternal ring-TIf 1) >=C, then TIf 2=TInternal ring-C;
If (TInternal ring-TIf 1)<C, then TIf 2=TIf 1。
9. air-conditioner according to claim 6, it is characterised in that the master controller is used to perform following steps with to institute
State user design temperature TIf 1It is adjusted the target temperature T after being adjustedIf 2:
If the air-conditioner is in the heating mode, T is judgedIf 1Whether the 5th temperature threshold E is less than or equal to;
Work as TIf 1During the≤the five temperature threshold E, TIf 2=TIf 1;
If TIf 1>E, then judge TInternal ringWhether the 6th temperature threshold F is less than or equal to;
Work as TInternal ringDuring the≤the six temperature threshold F, TIf 2=F+H, wherein, H is the 8th temperature threshold;
If TInternal ring>F, then judge (TIf 1-TInternal ring) whether it is more than or equal to the 7th temperature threshold G;
As (TIf 1-TInternal ringDuring) >=the 7th temperature threshold G, TIf 2=TInternal ring+G;
If (TIf 1-TInternal ring)<G, then TIf 2=TIf 1。
10. air-conditioner according to claim 9, it is characterised in that the master controller includes:Second control unit, uses
In repeating following steps until receiving the signal that exits the energy saver mode or until receiving the adjustment user
Design temperature TIf 1Signal:
Judge the air-conditioner whether in heating mode;
If the air-conditioner is in the heating mode, T is judgedIf 1Whether E is less than or equal to;If TIf 1≤ E, then TIf 2=TIf 1;
If TIf 1>E, then judge TInternal ringWhether F is less than or equal to;If TInternal ring≤ F, then TIf 2=F+H;
If TInternal ring>F, then judge (TIf 1-TInternal ring) whether it is more than or equal to G;If (TIf 1-TInternal ring) >=G, then TIf 2=TInternal ring+G;
If (TIf 1-TInternal ring)<G, then TIf 2=TIf 1。
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CN104613598B (en) * | 2015-01-22 | 2019-12-10 | 北京博锐尚格节能技术股份有限公司 | energy-saving monitoring method and device for air conditioner |
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CN111308900A (en) * | 2020-02-28 | 2020-06-19 | Oppo(重庆)智能科技有限公司 | Intelligent electric appliance, control method and storage medium |
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