CN103196203A - Air conditioner and control method and device thereof - Google Patents

Abstract

The invention discloses an air conditioner and a control method and device thereof. The control method of the air conditioner comprises the following steps: the method comprises the steps of firstly obtaining current time information and climate information after the air conditioner enters a sleep mode, then determining sleep mode parameters corresponding to the current time information and the climate information, finally sampling the ambient temperature, and controlling the operation of the air conditioner according to the relation between the sleep mode parameters and the ambient temperature. According to the invention, the sleep mode parameters are determined according to the current time information and the climate information, so that the sleep mode parameters of the air conditioner can be intelligently adjusted according to time and place, and the optimum temperature and humidity environment under the current time and climate conditions is provided for a user, thereby improving the humanization and intelligence of the air conditioner and having obvious comfort and energy-saving effects.

Description

Air-conditioner and control method thereof and device

Technical field

The present invention relates to the air-conditioner field, in particular to a kind of air-conditioner and control method and device.

Background technology

Raising along with people's living standard, requirement to the air-conditioner sleep mode comfortableness is more and more higher, the existing market means for air conditioner has multiple sleep pattern and sleep control method, processing method is basic identical: air-conditioner enters sleep pattern post-sampling ambient temperature and humidity, relatively sample temperature and sleep pattern preset temperature T1 determine by refrigeration or dehumidifying or heating operation a period of time t1, later every operation t2 is after the time period, t ℃ of temperature T 1 ± Δ is set, arrange continuously that temperature can add up or tired subtracting during operation, when temperature being set establishing temperature T 2 to the sleep pattern maximum prefetch, sleep pattern finishes.As Chinese patent 200510037281.9.But at a kind of concrete pattern, its default T1, Δ t, t1, t2, T2 is pre-stored in the controller of air-conditioner, fixing parameter, the very difficult user who adapts to different climate types, zones of different type, Various Seasonal.

In order to satisfy the different crowd individual demand, the method that the control air-conditioner according to user-defined curve moves appears again, regulate the temperature curve that is fit to self sleep habit by the user, the requirement that the sleep function of air-conditioner is close to the users more is as Chinese patent 200810220323.6 etc.Though but this method can adjust the requirement of user's comfortable sleep, but Changes in weather, temperature Change have Unpredictability, the user can't regulate custom curve with temperature Change in sleep procedure, and allow the user frequently manually set air-conditioner, higher to user's competency profiling, intelligent degree is not high.

According to the body temperature variations in temperature, for example the user is in sleeping, sound sleep, body temperature difference when different phase such as wakeing up, requirement to environment temperature is also different, obtains popular data by comprehensive statistics, determines that sleep operation curve is as the sleep operation curve of air-conditioner.But this method still is difficult to adapt to the user of different climate types, zones of different type, Various Seasonal.

When being difficult to be implemented in different time with different climate type at the sleep operating mode of air-conditioner in the correlation technique, all can provide the problem of a home from home, not propose effective solution at present as yet.

Summary of the invention

Main purpose of the present invention is to provide a kind of air-conditioner and control method and device, and the problem of a home from home all can be provided when being difficult in different time with different climate type with the sleep operating mode that solves air-conditioner.

To achieve these goals, according to an aspect of the present invention, provide a kind of control method of air-conditioner.

Control method according to air-conditioner of the present invention comprises: after air-conditioner enters sleep pattern, obtain current time information and climatic information; Determine the sleep pattern parameter corresponding with current time information and climatic information, wherein, the sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising; The sampling environment temperature; According to the relation of environment temperature and first preset temperature, determine that air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of air-conditioner operation is first preset temperature; After air-conditioner ran on refrigeration mode, dehumidification mode or heating mode first Preset Time, the target temperature of every interval second Preset Time control air-conditioner operation increased the default temperature of revising; Whether judge the target temperature of air-conditioner operation more than or equal to second preset temperature, wherein, second preset temperature is greater than first preset temperature; During more than or equal to second preset temperature, the control air-conditioner withdraws from sleep pattern at the target temperature of air-conditioner operation.

Further, obtaining current time information comprises: the data that read the clock chip of air-conditioner; And determine current season and current time according to the data of clock chip.

Further, obtaining climatic information comprises: the geography information that receives user's input; And determine climatic information according to geography information.

Further, before determining the sleep pattern parameter corresponding with current time information and climatic information, this method also comprises: the Weather information that receives user's input, wherein, Weather information comprises fine day, cloudy, rain or snow, wherein, determine that the sleep pattern parameter corresponding with current time information and climatic information comprises: determine the sleep pattern parameter corresponding with current time information, climatic information and Weather information.

Further, before determining the sleep pattern parameter corresponding with current time information and climatic information, this method also comprises: the user profile that receives user's input, wherein, user profile comprises old man, adult or children, wherein, determine that the sleep pattern parameter corresponding with current time information and climatic information comprises: determine the sleep pattern parameter corresponding with current time information, climatic information and user profile.

Further, determine that according to environment temperature and first preset temperature air-conditioner runs on refrigeration mode, dehumidification mode or heating mode and comprises: the size that compares environment temperature and first preset temperature; When environment temperature is less than or equal to the difference of first preset temperature and the default temperature difference, determine that air-conditioner runs on heating mode; When environment temperature greater than the difference of first preset temperature and the default temperature difference and less than first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on dehumidification mode; And when environment temperature more than or equal to first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on refrigeration mode.

To achieve these goals, according to another aspect of the present invention, provide a kind of control device of air-conditioner.The control method that is used for carrying out any one air-conditioner provided by the invention according to the control device of air-conditioner of the present invention.

To achieve these goals, according to another aspect of the present invention, provide a kind of control device of air-conditioner.Control device according to air-conditioner of the present invention comprises: first acquisition module is used for obtaining current time information and climatic information after air-conditioner enters sleep pattern; First determination module is used for determining the sleep pattern parameter corresponding with current time information and climatic information that wherein, the sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising; Sampling module is used for the sampling environment temperature; Second determination module is used for the relation according to environment temperature and first preset temperature, determines that air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of air-conditioner operation is first preset temperature; Correcting module is used for after air-conditioner runs on refrigeration mode, dehumidification mode or heating mode first Preset Time, and the target temperature of every interval second Preset Time control air-conditioner operation increases the default temperature of revising; Judge module, whether the target temperature that is used for judging the air-conditioner operation is more than or equal to second preset temperature, and wherein, second preset temperature is greater than first preset temperature; Control module, when being used for target temperature in the air-conditioner operation more than or equal to second preset temperature, the control air-conditioner withdraws from sleep pattern.

Further, the control device of this air-conditioner also comprises: first receiver module, be used for before determining the sleep pattern parameter corresponding with current time information and climatic information, receive the Weather information of user's input, wherein, Weather information comprises fine day, cloudy, rain or snow, and wherein, first determination module also is used for determining the sleep pattern parameter corresponding with current time information, climatic information and Weather information.

Further, the control device of this air-conditioner also comprises: second receiver module, be used for before determining the sleep pattern parameter corresponding with current time information and climatic information, receive the user profile of user's input, wherein, user profile comprises old man, adult or children, and wherein, first determination module also is used for determining the sleep pattern parameter corresponding with current time information, climatic information and user profile.

To achieve these goals, according to another aspect of the present invention, provide a kind of air-conditioner.

Air-conditioner according to the present invention comprises the control device of any one air-conditioner provided by the invention.

By the present invention, the control method of the air-conditioner that employing may further comprise the steps: at first after air-conditioner enters sleep pattern, obtain current time information and climatic information, determine the sleep pattern parameter corresponding with current time information and climatic information then, the environment temperature of sampling at last, control the operation of air-conditioner according to the relation of sleep pattern parameter and environment temperature, determine the sleep pattern parameter according to current time information and climatic information, make air-conditioner sleep pattern can because of the time, because ground intelligence is adjusted, when the sleep operating mode that has solved air-conditioner is difficult to be implemented in different time with different climate type, all can provide the problem of a home from home, and then reach the effect that air-conditioner can provide optimum humiture environment under current time and the weather conditions for the user.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide further understanding of the present invention, and illustrative examples of the present invention and explanation thereof are used for explaining the present invention, do not constitute improper restriction of the present invention.In the accompanying drawings:

Fig. 1 is the block diagram according to the air-conditioner of the embodiment of the invention;

Fig. 2 is the block diagram according to the control device of the air-conditioner of the embodiment of the invention;

Fig. 3 is the flow chart according to the control method of the air-conditioner of first embodiment of the invention;

Fig. 4 is time, the climatic information relation curve corresponding with the sleep pattern parameter according to the embodiment of the invention;

Fig. 5 is the relation curve corresponding with the sleep pattern parameter according to the human body information of the embodiment of the invention; And

Fig. 6 is the flow chart according to the control method of the air-conditioner of second embodiment of the invention.

The specific embodiment

Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

At first introduce the air-conditioner that this specific embodiment provides.

Fig. 1 is the block diagram according to the air-conditioner of the embodiment of the invention, as shown in Figure 1, machine controller and outer machine controller in this air-conditioner comprises, interior machine controller is connected with indoor temperature and humidity temperature-sensitive bag, and outer machine controller is connected with outdoor temperature humidity temperature-sensitive bag.After air-conditioner enters sleep pattern, inside and outside machine controller passes through the temperature and humidity conditions of the inside and outside environment of temperature-sensitive bag sampler chamber of connection separately, and definite sleep pattern parameter corresponding with current time information and climatic information, last controller is according to inner blower and the operation of compressor even load of the relation control air-conditioner of the temperature and humidity conditions of sleep pattern parameter and indoor and outdoor environment, for the user provides suitable sleep environment.Wherein, preferably, air-conditioner also comprises clock module, is connected with interior machine controller.Interior machine controller calculates current information of time from the clock module readout clock.

Adopt this air-conditioner, determine the sleep pattern parameter according to current time information and climatic information, make air-conditioner sleep pattern can because of the time, adjust because of ground intelligence, can provide optimum humiture environment under current time and the weather conditions for the user.

Next introduces the control device of the air-conditioner that this specific embodiment provides.

Fig. 2 is the block diagram according to the control device of the air-conditioner of the embodiment of the invention, and as shown in Figure 2, this control device comprises: first acquisition module 10, first determination module 20, sampling module 30, the second determination modules 40, correcting module 50, judge module 60, control module 70.

First acquisition module 10 obtains current time information and climatic information after air-conditioner enters sleep pattern, wherein, preferably, air-conditioner comprises clock chip, and the data of the clock chip by reading air-conditioner are determined current season and current time; Air-conditioner comprises remote controller or other communication modules, can receive the geography information of user's input, the controller of air-conditioner prestores the information table that geography information and climatic information are complementary, therefore, as long as control receives the information of the geographic location of user's input, air-conditioner just can be determined climatic information.

First determination module 20 is determined the sleep pattern parameter corresponding with current time information and climatic information, wherein, the sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising (are followed successively by T1, T2, t1, t2, Δ t), preferably, air-conditioner prestores different time information, climatic information and different sleep sleep mode parameter information corresponding table or relation curve, after first acquisition module 10 got access to current time information and climatic information, first determination module 20 just can be determined the sleep pattern parameter corresponding with it.

Sampling module 30 sampling environment temperatures, preferably, by temperature-sensitive bag sampling environment temperature.

Second determination module 40 is according to the relation of environment temperature T ring and the first preset temperature T1, determine that air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of air-conditioner operation is the first preset temperature T1, wherein, preferably, when environment temperature is less than or equal to the difference of first preset temperature and the default temperature difference, determine that air-conditioner runs on heating mode; When environment temperature greater than the difference of first preset temperature and the default temperature difference and less than first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on dehumidification mode; And when environment temperature more than or equal to first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on refrigeration mode, wherein, the default temperature difference is preferably 1 ℃, also namely:

When T ring≤T1-1, air-conditioner runs on heating mode;

When T1-1＜T ring＜T1-1, air-conditioner runs on air supply pattern;

When T ring 〉=T1+1, air-conditioner runs on refrigeration mode.

Correcting module 50 is after air-conditioner runs on refrigeration mode, dehumidification mode or heating mode first preset time t 1, and the target temperature of every interval second preset time t, 2 control air-conditioner operations increases the default temperature Δ t that revises, also namely:

After air-conditioner enters the sleep pattern t1 time, T target=T1;

After air-conditioner enters the sleep pattern t1+t2 time, T target=T1+ Δ t;

After air-conditioner enters the sleep pattern t1+2*t2 time, T target=T1+2* Δ t;

……

After air-conditioner enters the sleep pattern t1+n*t2 time, T target=T1+n* Δ t.

Whether judge module 60 judges the target temperature T target of air-conditioner operation more than or equal to the second preset temperature T2, and wherein, also namely: judge module 60 judges that whether T1+n* Δ t is more than or equal to T2.

Control module 70 is when T1+n* Δ t 〉=T2, and the control air-conditioner withdraws from sleep pattern.

In this embodiment, after air-conditioner enters sleep pattern, at first obtain current time information and climatic information by first acquisition module 10, first determination module 20 is determined the sleep pattern parameter corresponding with current time information and climatic information then, compare with sleep pattern parameter fixing in the prior art, determine the sleep pattern parameter according to current time information and climatic information, can make air-conditioner because of the time, because adjusting the sleep pattern parameter intelligently in ground, thereby under different time and different climate type conditions, all can provide a home from home, for the user provides optimum humiture environment under current time and the weather conditions, hommization, the intelligent raising, comfortableness and energy-saving effect are obvious.

Preferably, the control device of this air-conditioner also comprises: first receiver module, be used for before determining the sleep pattern parameter corresponding with current time information and climatic information, receive the Weather information of user's input, wherein, air-conditioner comprises remote controller or other communication modules, can receive the Weather information of user's input, this Weather information comprises fine day, cloudy, rain or snow, wherein, first determination module also is used for determining the sleep pattern parameter corresponding with current time information, climatic information and Weather information.By this preferred embodiment, air-conditioner can draw suitable more sleep curve according to the comprehensive climate type of different weather type and seasons such as fine, cloudy, sleet, thereby provides suitable more sleep environment for the user.

Preferably, the control device of this air-conditioner also comprises: second receiver module, be used for before determining the sleep pattern parameter corresponding with current time information and climatic information, receive the user profile of user's input, wherein, air-conditioner comprises remote controller or other communication modules, can receive the user profile of user's input, this user profile comprises old man, adult or children, wherein, first determination module also is used for determining the sleep pattern parameter corresponding with current time information, climatic information and user profile.By this preferred embodiment, air-conditioner can draw suitable more sleep curve according to different user informix climate type and seasons such as old man, adult or children, thereby provides the sleep environment that suits more for the user.

Preferably, the control device of this air-conditioner comprises first receiver module and second receiver module simultaneously, thereby make air-conditioner calculate best sleep pattern parameter value constantly according to different climate types, zones of different type, Various Seasonal, different crowd and sleep, thus realize air-conditioner sleep mode can because of the time, because of ground, because of the people, because of the operation of weather Based Intelligent Control.

Introduce the control method of the air-conditioner that this specific embodiment provides at last.

Fig. 3 is the flow chart according to the control method of the air-conditioner of first embodiment of the invention, and as shown in Figure 3, this method comprises that following step S101 is to step S107.

Step S101: after air-conditioner enters sleep pattern, obtain current time information and climatic information.

Wherein, preferably, air-conditioner comprises clock chip, and the data of the clock chip by reading air-conditioner are determined current season and current time; Air-conditioner comprises remote controller or other communication modules, can receive the geography information of user's input, the controller of air-conditioner prestores the information table that geography information and climatic information are complementary, therefore, as long as control receives the information of the geographic location of user's input, air-conditioner just can be determined climatic information.

Step S102: determine the sleep pattern parameter corresponding with current time information and climatic information.

The sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising (are followed successively by T1, T2, t1, t2, Δ t), preferably, air-conditioner prestores different time information, climatic information and different sleep sleep mode parameter information corresponding table or relation curve, after getting access to current time information and climatic information, just can determine the sleep pattern parameter corresponding with it.Wherein, T1 is preferably 24～26 ℃, and T2 is preferably 27～29 ℃, and t1 is preferably 0～90Min, and t2 is preferably 60～120Min, and Δ t is preferably 0.5～1 ℃.Temporal information, the climatic information relation curve corresponding with different sleep sleep mode parameter as shown in Figure 4, climatic information comprises the subtropical zone, temperate zone and cool temperature zone, Δ t, t1, t2 by sleep constantly to second day early the 7:00 time span determine.

When weather corresponding relation curve is set, consider that the high latitude area people generally are stamped thicker quilt night in bed, and the quilt of low latitudes lid is thinner, therefore, the T1 of low latitudes, the value of setting of T2 are high slightly than the high latitude area.

Step S103: the sampling environment temperature, preferably, by temperature-sensitive bag sampling environment temperature.

Step S104: according to the relation of environment temperature and first preset temperature, determine that air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of air-conditioner operation is first preset temperature.

Preferably, step S104 comprises: the size that compares environment temperature and first preset temperature; When environment temperature is less than or equal to the difference of first preset temperature and the default temperature difference, determine that air-conditioner runs on heating mode; When environment temperature greater than the difference of first preset temperature and the default temperature difference and less than first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on dehumidification mode; And when environment temperature more than or equal to first preset temperature and the default temperature difference and the time, determine that air-conditioner runs on refrigeration mode, wherein, the default temperature difference is preferably 1 ℃, also namely:

When T ring≤T1-1, air-conditioner runs on heating mode;

When T1-1＜T ring＜T1-1, air-conditioner runs on air supply pattern;

When T ring 〉=T1+1, air-conditioner runs on refrigeration mode.

Step S105: after air-conditioner ran on refrigeration mode, dehumidification mode or heating mode first Preset Time, the target temperature of every interval second Preset Time control air-conditioner operation increased the default temperature of revising, also namely:

After air-conditioner enters the sleep pattern t1 time, T target=T1;

After air-conditioner enters the sleep pattern t1+t2 time, T target=T1+ Δ t;

After air-conditioner enters the sleep pattern t1+2*t2 time, T target=T1+2* Δ t;

……

After air-conditioner enters the sleep pattern t1+n*t2 time, T target=T1+n* Δ t.

Step S106: judge that whether the target temperature of air-conditioner operation is more than or equal to second preset temperature, wherein, second preset temperature is greater than first preset temperature, also be, when the target temperature of air-conditioner operation was constantly revised, whether real-time judge T1+n* Δ t more than or equal to T2, when T1+n* Δ t 〉=T2, execution in step S107 continues the revise goal temperature otherwise return step S105.

Step S107: at the target temperature of air-conditioner operation during more than or equal to second preset temperature, namely during T1+n* Δ t 〉=T2, the control air-conditioner withdraws from sleep pattern.

In this embodiment, after air-conditioner enters sleep pattern, at first obtain current time information and climatic information, determine the sleep pattern parameter corresponding with current time information and climatic information then, compare with sleep pattern parameter fixing in the prior art, determine the sleep pattern parameter according to current time information and climatic information, can make air-conditioner because of the time, because adjusting the sleep pattern parameter intelligently in ground, thereby under different time and different climate type conditions, all can provide a home from home, for the user provides optimum humiture environment under current time and the weather conditions, hommization, the intelligent raising, comfortableness and energy-saving effect are obvious.

Preferably, before step S102, this method also comprises: the Weather information that receives user's input, wherein, air-conditioner comprises remote controller or other communication modules, can receive the Weather information of user input, and this Weather information comprises fine day, cloudy, rain or snow, wherein, step S102 is: determine the sleep pattern parameter corresponding with current time information, climatic information and Weather information.By this preferred embodiment, air-conditioner can draw suitable more sleep curve according to the comprehensive climate type of different weather type and seasons such as fine, cloudy, sleet, thereby provides suitable more sleep environment for the user.

Preferably, before step S102, this method also comprises: the user profile that receives user's input, wherein, air-conditioner comprises remote controller or other communication modules, can receive the user profile of user's input, and this user profile comprises old man, adult or children, wherein, step S102 is: determine the sleep pattern parameter corresponding with current time information, climatic information and user profile.Wherein, temperature with the user type variation tendency as shown in Figure 5.By this preferred embodiment, air-conditioner can draw suitable more sleep curve according to different user informix climate type and seasons such as old man, adult or children, thereby provides the sleep environment that suits more for the user.

Preferably, before step S102, this method also comprises: receive Weather information and the user profile of user's input, step S102 is: determine the sleep pattern parameter corresponding with current time information, climatic information, Weather information and user profile.By this preferred embodiment, make air-conditioner calculate best sleep pattern parameter value constantly according to different climate types, zones of different type, Various Seasonal, different crowd and sleep, thus realize air-conditioner sleep mode can because of the time, because of ground, because of the people, because of the operation of weather Based Intelligent Control.

Fig. 6 is the flow chart according to the control method of the air-conditioner of second embodiment of the invention, and as shown in Figure 6, air-conditioner is after powering on, and the program initialization in the controller need to judge whether start.After air-conditioner receives power-on command, the start of control air-conditioner, otherwise air-conditioner is in holding state.After the air-conditioner start, judge whether to enter the sleep pattern operation, need not to enter sleep pattern then according to other mode operations.If air-conditioner need enter sleep pattern, controller is read clock chip, calculates present located season and moment point, and by information such as remote controller reception climate type, area type and user types, and calculating and climate type, area type, user type and the suitableeest constantly corresponding sleep parameters of sleeping, comprise T1, T2, t1, t2, Δ t, T1:24～26 ℃ wherein, T2:27～29 ℃, t1:30～90Min, t2:60～120Min, Δ t:0.5～1 ℃.The information that the inside and outside humiture temperature-sensitive bag of sampler chamber detects, the magnitude relationship of comparison indoor temperature and T1 is when T ring≤T1-1, air-conditioner runs on heating mode, and when T1-1＜T ring＜T1+1, air-conditioner runs on air supply pattern, when T ring 〉=T1+1, air-conditioner runs on refrigeration mode.After determining operational mode, judge the time t of operation and the magnitude relationship of t1, when t＜t1, continue the operational mode that operation is determined, behind operation a period of time t1, the magnitude relationship that compares t and t2, every operation t2 arranges temperature T 1+ Δ t after the time period, and target temperature adds up when moving continuously, when target temperature was established temperature T 2 to the sleep pattern maximum prefetch, sleep pattern finished.

Adopt the control method of the air-conditioner that this embodiment provides, the user can directly import climatic information and season by remote controller, and human body information, Weather information, air-conditioner can be according to different weather informix climatic information and seasons such as the different human body information of old man, children, adult and fine day, cloudy, sleet, draw suitable more sleep curve, make air-conditioner sleep mode can because of the time, because of ground, because of the people, because of weather Based Intelligent Control operation, make air-conditioner run on best sleep curve, a home from home of best humiture is provided for the user.

Wherein, the variation characteristic of T1, T2 by air conditioner user make land used climatic information, season information, etc. common the decision, wherein, arrange temperature with season information and weather change in information trend as shown in Figure 4, temperature is set with the human body information variation tendency as shown in Figure 5, early the 7:00 time span was definite to second day constantly by sleep for Δ t, t1, t2 etc.When climatic information, temporal information, human body information and sleep change constantly, and the sleep pattern parameter that calculates (comprise T1, Δ t, t1, t2, T2) difference obtains best sleep curve.

For example: the area, Guangzhou in subtropical zone July, 10 of evenings begin sleep, calculate T1=26 ℃, Δ t=0.5 ℃, t1=60Min, t2=120Min, T2=28 ℃ is more suitable, removes sleep pattern, 9 hours lengths of one's sleep in second day early 7 o'clock.

And for example: the Northeast in subfrigid zone December, 9 of evenings begin sleep, calculate T1=24 ℃, Δ t=0.5 ℃, t1=70Min, t2=130Min, T2=26 ℃ is more suitable, removes sleep pattern, about 10 hours of the length of one's sleep in second day early 7 o'clock.

From above description, as can be seen, the present invention has realized following technique effect: determine the sleep pattern parameter according to current time information and climatic information, can make air-conditioner because of the time, because adjusting the sleep pattern parameter intelligently in ground, thereby under different time and different climate type conditions, all can provide a home from home, for the user provides optimum humiture environment under current time and the weather conditions, hommization, the intelligent raising, comfortableness and energy-saving effect are obvious.

Need to prove, can in the computer system such as one group of computer executable instructions, carry out in the step shown in the flow chart of accompanying drawing, and, though there is shown logical order in flow process, but in some cases, can carry out step shown or that describe with the order that is different from herein.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with the general calculation device, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the storage device and be carried out by calculation element, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. the control method of an air-conditioner is characterized in that, comprising:

After air-conditioner enters sleep pattern, obtain current time information and climatic information;

Determine the sleep pattern parameter corresponding with described current time information and described climatic information, wherein, described sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising;

The sampling environment temperature;

According to the relation of described environment temperature and described first preset temperature, determine that described air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of described air-conditioner operation is described first preset temperature;

After described air-conditioner ran on described first Preset Time of refrigeration mode, dehumidification mode or heating mode, the target temperature that described second Preset Time in every interval is controlled described air-conditioner operation increased described default correction temperature;

Whether judge the target temperature of described air-conditioner operation more than or equal to described second preset temperature, wherein, described second preset temperature is greater than described first preset temperature;

, control described air-conditioner and withdraw from described sleep pattern during more than or equal to described second preset temperature at the target temperature of described air-conditioner operation.

2. the control method of air-conditioner according to claim 1 is characterized in that, obtains current time information and comprises:

Read the data of the clock chip of described air-conditioner; And

Determine current season and current time according to the data of described clock chip.

3. the control method of air-conditioner according to claim 1 is characterized in that, obtains climatic information and comprises:

Receive the geography information of user's input; And

Determine climatic information according to described geography information.

4. the control method of air-conditioner according to claim 1 is characterized in that,

Before determining the sleep pattern parameter corresponding with described current time information and described climatic information, described method also comprises: receive the Weather information that the user imports, wherein, described Weather information comprises fine day, cloudy, rain or snow,

Wherein, determine that the sleep pattern parameter corresponding with described current time information and described climatic information comprises: determine the sleep pattern parameter corresponding with described current time information, described climatic information and described Weather information.

5. the control method of air-conditioner according to claim 1 is characterized in that,

Before determining the sleep pattern parameter corresponding with described current time information and described climatic information, described method also comprises: receive the user profile of user's input, wherein, described user profile comprises old man, adult or children,

Wherein, determine that the sleep pattern parameter corresponding with described current time information and described climatic information comprises: determine the sleep pattern parameter corresponding with described current time information, described climatic information and described user profile.

6. the control method of air-conditioner according to claim 1 is characterized in that, determines that according to described environment temperature and described first preset temperature described air-conditioner runs on refrigeration mode, dehumidification mode or heating mode and comprises:

The size of more described environment temperature and described first preset temperature;

When described environment temperature is less than or equal to the difference of described first preset temperature and the default temperature difference, determine that described air-conditioner runs on heating mode;

When described environment temperature greater than the difference of described first preset temperature and the described default temperature difference and less than described first preset temperature and the described default temperature difference and the time, determine that described air-conditioner runs on dehumidification mode; And

When described environment temperature more than or equal to described first preset temperature and the described default temperature difference and the time, determine that described air-conditioner runs on refrigeration mode.

7. the control device of an air-conditioner is characterized in that, comprising:

First acquisition module is used for obtaining current time information and climatic information after air-conditioner enters sleep pattern;

First determination module is used for determining the sleep pattern parameter corresponding with described current time information and described climatic information, wherein, described sleep pattern parameter comprises first preset temperature, second preset temperature, first Preset Time, second Preset Time and the default temperature of revising;

Sampling module is used for the sampling environment temperature;

Second determination module is used for the relation according to described environment temperature and described first preset temperature, determines that described air-conditioner runs on refrigeration mode, dehumidification mode or heating mode, and the target temperature of described air-conditioner operation is described first preset temperature;

Correcting module is used for after described air-conditioner runs on described first Preset Time of refrigeration mode, dehumidification mode or heating mode, and the target temperature that described second Preset Time in every interval is controlled described air-conditioner operation increases described default correction temperature;

Judge module, whether the target temperature that is used for judging described air-conditioner operation is more than or equal to described second preset temperature, and wherein, described second preset temperature is greater than described first preset temperature;

Control module is used for, controlling described air-conditioner and withdrawing from described sleep pattern during more than or equal to described second preset temperature at the target temperature of described air-conditioner operation.

8. the control device of air-conditioner according to claim 7 is characterized in that, also comprises:

First receiver module is used for receiving the Weather information that the user imports before determining the sleep pattern parameter corresponding with described current time information and described climatic information, and wherein, described Weather information comprises fine day, cloudy, rain or snow,

Wherein, described first determination module also is used for determining the sleep pattern parameter corresponding with described current time information, described climatic information and described Weather information.

9. the control device of air-conditioner according to claim 7 is characterized in that, also comprises:

Second receiver module is used for receiving the user profile of user's input before determining the sleep pattern parameter corresponding with described current time information and described climatic information, and wherein, described user profile comprises old man, adult or children,

Wherein, described first determination module also is used for determining the sleep pattern parameter corresponding with described current time information, described climatic information and described user profile.

10. an air-conditioner is characterized in that, comprising: the control device of each described air-conditioner in the claim 7 to 9.

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