CN104374047A - Control method for air-conditioner - Google Patents

Abstract

The invention discloses a control method for an air-conditioner. According to the method, when temperature Ts set by a user is too low, the air-conditioner operates at higher platform setting temperature, then temperature platforms are lowered one by one to the temperature set by the user, whether the temperature platforms are lowered is judged according to the temperature difference of outdoor temperature T4 and indoor temperature T1, it can be ensured that the indoor temperature T4 will not change too much or fast, and therefore the phenomenon that a user feels uncomfortable is avoided.

Description

The control method of air-conditioner

Technical field

The present invention relates to air-conditioner, especially relate to a kind of control method of air-conditioner.

Background technology

Current air-conditioner decides the running frequency of compressor according to the temperature difference of indoor temperature and user's design temperature.When outdoor temperature too high (heat) or too low (severe winter), when user has just entered indoor unlatching air-conditioning outdoor, indoor temperature is general and outdoor temperature is close, and user's design temperature temperature difference that is general and outdoor temperature is larger, air-conditioner runs with user's design temperature, high frequency runs by compressor, (or liter) rapidly indoor temperature is fallen to user's design temperature, but, indoor temperature changes comparatively large, very fast, user does not easily feel well, and particularly old man is with child, may therefore cause a disease.

Summary of the invention

The present invention is intended at least to solve one of technical problem existed in prior art.For this reason, the present invention needs the control method providing a kind of air-conditioner.

According to the controller of air conditioner control method of better embodiment of the present invention, comprise

S1: set multiple temperature threshold to define multiple temperature platform below the highest described temperature threshold, and set the operational factor of each described temperature platform, described operational factor comprises the temperature difference threshold value of platform design temperature, running time and correspondence, described temperature platform is higher, and corresponding described platform design temperature is higher and the described temperature difference threshold value of correspondence is less;

S2: judge whether user's design temperature is be less than the highest described temperature threshold; If so, enter step S3, if not, enter step S4;

S3: control the described temperature platform that described air-conditioner falls into described user's design temperature from the highest described temperature platform and run successively; The condition dropping to lower described temperature platform from current described temperature platform is: outdoor temperature and the temperature difference of indoor temperature are less than or equal to described temperature difference threshold value corresponding to current described temperature platform and described user's design temperature is less than or equal to described indoor temperature; If described air-conditioner meets the condition dropping to lower described temperature platform after the described temperature platform that described user's design temperature falls into runs, enter step S4; And

S4: then control described air-conditioner and run with described user's design temperature.

The air-conditioner control method of better embodiment of the present invention first runs with higher platform design temperature when user's design temperature Ts is too low, then temperature platform drops to user's design temperature one by one, and judge whether decline temperature platform according to the temperature difference of outdoor temperature T4 and indoor temperature T1, can guarantee that indoor temperature T4 can not change excessive, too fast, thus avoid user not feel well.

In some embodiments, described air-conditioner control method also comprises:

S13: judge whether described outdoor temperature is more than or equal to specific threshold; If so, enter step S2, if not, enter step S4.

In some embodiments, described operational factor also comprises air output.

In some embodiments, described air-conditioner control method also comprises:

S11: setting plurality of operating modes, the described operational factor of the multiple described temperature platform that often kind of described operational mode is corresponding is different; And

S12: determine the described operational factor in described step S3 according to user instruction determination present mode of operation.

In some embodiments, the described platform design temperature of each described temperature platform is the described temperature threshold of the upper limit of described temperature platform.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the schematic flow sheet of the air conditioning control method of better embodiment of the present invention.

Fig. 2 is the schematic flow sheet of the air conditioning control method of another one embodiment of the present invention.

Detailed description of the invention

Be described below in detail embodiments of the present invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present invention.Of the present invention open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the present invention.In addition, the present invention can in different example repeat reference numerals and/or reference letter, this repetition is to simplify and clearly object, itself does not indicate discussed various embodiment and/or relation between setting.In addition, the various specific technique that the invention provides and the example of material, but those of ordinary skill in the art can recognize the application of other techniques and/or the use of other materials.

Refer to Fig. 1, the air-conditioner control method of better embodiment of the present invention comprises;

S1: set multiple temperature threshold to define multiple temperature platform below the highest temperature threshold, and set the operational factor of each temperature platform, operational factor comprises the temperature difference threshold value of platform design temperature, running time and correspondence, temperature platform is higher, and corresponding platform design temperature is higher and the temperature difference threshold value of correspondence is less;

S2: judge whether user's design temperature Ts is be less than the highest temperature threshold; If so, enter step S3, if not, enter step S4;

S3: the temperature platform that control air-conditioner falls into from the highest temperature platform to user's design temperature Ts runs successively; The condition dropping to lower temperature platform from current temperature platform is: outdoor temperature T4 and the temperature difference of indoor temperature T1 are less than or equal to temperature difference threshold value corresponding to current temperature platform and user's design temperature Ts is less than or equal to indoor temperature T1; If air-conditioner meets the condition dropping to lower temperature platform after the temperature platform that user's design temperature Ts falls into runs, enter step S4; And

S4: then control air-conditioner and run with user's design temperature Ts.

The air-conditioner control method of better embodiment of the present invention first runs with higher platform design temperature when user's design temperature Ts is too low, then temperature platform drops to user's design temperature one by one, and judge whether decline temperature platform according to the temperature difference of outdoor temperature T4 and indoor temperature T1, can guarantee that indoor temperature T4 can not change excessive, too fast, thus avoid user not feel well.

Be appreciated that, run with different platform design temperatures, the operating frequency of the compressor of air-conditioner will change, therefore, air-conditioner belongs to frequency-converting type, and the air-conditioner control method of better embodiment of the present invention is actually the operating frequency of the compressor controlling air-conditioner.

The usability of program fragments that the air-conditioner control method of better embodiment of the present invention can be performed by electronic component or be made up of programming language performs when electronic component runs.The remote controller of air-conditioner can include the button (such as the button of " comfort mode ") triggering the air-conditioner control method performing better embodiment of the present invention, and after user operation, start the air-conditioner control method performing better embodiment of the present invention.

As an example, the air-conditioner control method of present embodiment sets three temperature thresholds TA, TB and TC, and meet: TA > TB > TC > TL, that is to say, TA is the highest temperature threshold, and TL is the temperature lowest limit (such as 16 DEG C) of air-conditioner refrigeration.And therefore define three temperature platforms be [TB, TA), [TC, TB) and [TL, TC).As example more specifically, TA=28 DEG C in present embodiment, TB=26 DEG C and TC=24 DEG C.The setting of certain temperature threshold is also limited to present embodiment, can depending on real needs.

The operational factor of temperature platform should depending on real needs, as an example, in this implementation method, the platform design temperature of each temperature platform is the temperature threshold of the upper limit of temperature platform, in other words, temperature platform [TB, TA) platform design temperature is TA, temperature platform [TC, TB) platform design temperature be TB, temperature platform [TL, TC) platform design temperature be TC.Certainly, the setting of platform design temperature is not limited to present embodiment, is determined by real needs.

In addition, the running time of temperature platform also determines according to the actual requirements, in present embodiment, temperature platform [TB, TA), [TC, TB) and [TL, TC) running time be 5 minutes.

Further, temperature platform be [TB, TA), [TC, TB) and [TL, TC) temperature difference threshold value M1, M2 and M3 be 8 DEG C, 10 DEG C and 12 DEG C respectively.Certainly, the setting of temperature difference threshold value is not limited to present embodiment, is determined by real needs.

User's design temperature Ts is set by the user, such as, set by remote controller.

In present embodiment, if user's design temperature is not less than temperature threshold TA, such as, be 29 DEG C.Then enter step S4 after step S2, in other words air-conditioner directly runs with user's design temperature Ts.

If user's design temperature Ts is less than temperature threshold TA, such as, is 24 DEG C, then enters step S3 after step S2.

The temperature platform fallen into due to user's design temperature Ts (=24 DEG C) for [TC, TB), thus control air-conditioner from temperature platform [TB, TA) drop to temperature platform [TC, TB) finally run with user's design temperature Ts.

Concrete, step S3 comprises:

S31: judge whether user's design temperature Ts (=24 DEG C) is less than temperature threshold TB (=26 DEG C), if enter step S34, enters step S32 if not;

S32: control air-conditioner temperature platform [TB, TA) run (and with temperature threshold TA (=28 DEG C) run);

S33: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 28 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TB, TA) corresponding temperature difference threshold value M1 (=8 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=28 DEG C), if enter step S4, return step S32 if not;

S34: judge whether user's design temperature Ts (=24 DEG C) is less than temperature threshold TC (=24 DEG C), if enter step S39, enters step S35 if not;

S35: control air-conditioner temperature platform [TB, TA) run (namely with temperature threshold TA (=28 DEG C) run); ;

S36: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 28 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TB, TA) corresponding temperature difference threshold value M1 (=8 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=28 DEG C), if enter step S37, return step S35 if not;

S37: control air-conditioner temperature platform [TC, TB) run (namely with temperature threshold TB (=26 DEG C) run);

S38: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 26 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TC, TB) corresponding temperature difference threshold value M2 (=10 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=26 DEG C), if enter step S4, return step S37 if not;

S39: control air-conditioner temperature platform [TB, TA) run (namely with temperature threshold TA (=28 DEG C) run); ;

S40: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 28 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TB, TA) corresponding temperature difference threshold value M1 (=8 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=28 DEG C), if enter step S41, return step S39 if not;

S41: control air-conditioner temperature platform [TC, TB) run (namely with temperature threshold TB (=26 DEG C) run);

S42: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 26 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TC, TB) corresponding temperature difference threshold value M2 (=10 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=26 DEG C), if enter step S43, return step S41 if not;

S43: control air-conditioner temperature platform [TL, TC) run (namely with temperature threshold TC (=24 DEG C) run); And

S44: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 24 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform [TL, TC) corresponding temperature difference threshold value M3 (=12 DEG C) and user's design temperature Ts (=24 DEG C) is less than or equal to indoor temperature T1 (=24 DEG C), if enter step S43, return step S41 if not.

Certainly, the setting of the idiographic flow apparent temperature threshold value of step S3 and determining, is not limited to present embodiment.

Concrete, the air-conditioner control method of better embodiment of the present invention also comprises:

S13: judge whether outdoor temperature T4 is more than or equal to specific threshold X; If so, enter step S2, if not, enter step S4.

Specific threshold X is used for judging that whether outdoor temperature T4 is too high, and the mode if so, then needing to adopt temperature platform one by one to decline, if not, then can directly run with user's design temperature Ts.In present embodiment, specific threshold X is 35 DEG C.Certainly, the setting of specific threshold X is not limited to present embodiment, is determined by real needs.

Operational factor also comprises air output.Be appreciated that air output also can affect the change of indoor temperature T1.

Air-conditioner control method also comprises:

S11: setting plurality of operating modes, the operational factor of multiple temperature platforms that often kind of operational mode is corresponding is different; And

S12: the operational factor according to user instruction determination present mode of operation thus in determining step S3.

Be appreciated that operational factor difference can cause the change of indoor temperature T1 different.This mainly considers that different crowds is different for the adaptive capacity of the change of indoor temperature T1, therefore sets up different operational modes.Such as, young people is in vigorous health, and resistance is strong, and therefore indoor temperature T1 can comparatively fast decline.Child's resistance is poor, and therefore indoor temperature T1 declines and should slow down.And for the elderly, health is weak, resistance is poor, and therefore indoor temperature T1 will slowly decline.Therefore, the operational mode of present embodiment can comprise " young people ", " child " and " the elderly ", and concrete operational factor is as shown in table 1 below:

Table 1

In other words, in present embodiment, running time and the air output of each temperature platform are identical, in other embodiments also can be different.In practical application, the setting of operational factor, depending on real needs, is not limited to present embodiment.

Embodiment above mainly explains the application of air conditioning control method of the present invention under air conditioner refrigerating pattern, but is appreciated that air conditioning control method of the present invention and is limited to and be applied in refrigeration mode, also can be applicable in heating mode.The air conditioning control method of heating mode has corresponding technical characteristic to the air conditioning control method of refrigeration mode.

The usability of program fragments that different patterns can be performed by electronic component or be made up of programming language performs when electronic component runs.The remote controller of air-conditioner can include the button (button of such as " young people ", " child ", " the elderly ", " refrigeration " and " heating ") triggering and perform different mode, and after user operation, start the pattern performing correspondence.

Concrete, the air conditioning control method of another embodiment of the present invention comprises:

S1 ': set multiple temperature threshold to define multiple temperature platform above minimum temperature threshold, and set the operational factor of each temperature platform, operational factor comprises the temperature difference threshold value of platform design temperature, running time and correspondence, temperature platform is higher, and corresponding platform design temperature is higher and the temperature difference threshold value of correspondence is larger;

S2 ': judge whether user's design temperature Ts is be greater than minimum temperature threshold; If so, enter step S3 ', if not, enter step S4 ';

S3 ': the temperature platform that control air-conditioner falls into from minimum temperature platform to user's design temperature Ts runs successively; The condition rising to higher temperature platform from current temperature platform is: outdoor temperature T4 and the temperature difference of indoor temperature T1 are less than or equal to temperature difference threshold value corresponding to current temperature platform and user's design temperature Ts is more than or equal to indoor temperature T1; If air-conditioner meets the condition rising to higher temperature platform after the temperature platform that user's design temperature Ts falls into runs, enter step S4 '; And

S4 ': then control air-conditioner and run with user's design temperature Ts.

The air-conditioner control method of better embodiment of the present invention first runs with lower platform design temperature when user's design temperature Ts is too high, then temperature platform rises to user's design temperature one by one, and judge whether ascending temperature platform according to the temperature difference of outdoor temperature T4 and indoor temperature T1, can guarantee that indoor temperature T4 can not change excessive, too fast, thus avoid user not feel well.

Be appreciated that, run with different platform design temperatures, the operating frequency of the compressor of air-conditioner will change, therefore, air-conditioner belongs to frequency-converting type, and the air-conditioner control method of better embodiment of the present invention is actually the operating frequency of the compressor controlling air-conditioner.

The usability of program fragments that the air-conditioner control method of better embodiment of the present invention can be performed by electronic component or be made up of programming language performs when electronic component runs.The remote controller of air-conditioner can include the button (such as the button of " comfort mode ") triggering the air-conditioner control method performing better embodiment of the present invention, and after user operation, start the air-conditioner control method performing better embodiment of the present invention.

As an example, the air-conditioner control method of present embodiment sets three temperature threshold TA ', TB ' and TC ', and meet: TA ' < TB ' < TC ' < TH, that is to say, TA ' is minimum temperature threshold, and TH is the temperature upper limit (such as 30 DEG C) of air conditioner heat-production.And therefore define three temperature platforms be (TA ', TB '], (TB ', TC '] and (TC ', TH], wherein TH is the temperature lowest limit (such as 16 DEG C) of air-conditioner refrigeration.As example more specifically, TA '=18 in present embodiment DEG C, TB '=22 DEG C and TC '=28 DEG C.The setting of certain temperature threshold is also limited to present embodiment, can depending on real needs.

The operational factor of temperature platform should depending on real needs, as an example, in this implementation method, the platform design temperature of each temperature platform is the temperature threshold of the lower limit as temperature platform, in other words, temperature platform (TA ', TB '] platform design temperature be TA ', temperature platform (TB ', TC '] platform design temperature be TB ', temperature platform (TC ', TH] platform design temperature be TC '.Certainly, the setting of platform design temperature is not limited to present embodiment, is determined by real needs.

In addition, the running time of temperature platform also determines according to the actual requirements, in present embodiment, temperature platform (TA ', TB '], (TB ', TC '] and (TC ', TH] running time be 5 minutes.

Further, temperature platform be (TA ', TB '], (TB ', TC '] and (TC ', TH] temperature difference threshold value M1 ', M2 ' and M3 ' be 18 DEG C, 22 DEG C and 28 DEG C respectively.Certainly, the setting of temperature difference threshold value is not limited to present embodiment, is determined by real needs.

User's design temperature Ts is set by the user, such as, set by remote controller.

In present embodiment, if user's design temperature is not more than temperature threshold TA ', such as, be 16 DEG C.Then enter step S4 ' after step S2, in other words air-conditioner directly runs with user's design temperature Ts.

If user's design temperature Ts is greater than temperature threshold TA ', such as, is 28 DEG C, then enters step S3 ' after step S2.

The temperature platform fallen into due to user's design temperature Ts (=28 DEG C) for (TB ', TC '], so control air-conditioner from temperature platform (TA ', TB '] rise to temperature platform (TB ', TC '] finally run with user's design temperature Ts.

Concrete, step S3 ' comprising:

S31 ': judge whether user's design temperature Ts (=28 DEG C) is greater than temperature threshold TB ' (=22 DEG C), if enter step S34 ', enters step S32 ' if not;

S32 ': control air-conditioner temperature platform (TA ', TB '] run (and with temperature threshold TA ' (=18 DEG C) run);

S33 ': judge that outdoor temperature T4 (being assumed to be 0 DEG C) and indoor temperature T1 (are assumed to be 18 DEG C, namely rise to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TA ', TB '] corresponding temperature difference threshold value M1 ' (=18 DEG C) and user's design temperature Ts (=28 DEG C) is more than or equal to indoor temperature T1 (=18 DEG C), if enter step S4 ', return step S32 ' if not;

S34 ': judge whether user's design temperature Ts (=28 DEG C) is less than temperature threshold TC ' (=28 DEG C), if enter step S40 ', enters step S35 ' if not;

S35 ' control air-conditioner temperature platform (TA ', TB '] run (namely with temperature threshold TA ' (=18 DEG C) run); ;

S36: judge that outdoor temperature T4 (being assumed to be 0 DEG C) and indoor temperature T1 (are assumed to be 18 DEG C, namely rise to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TA ', TB '] corresponding temperature difference threshold value M1 ' (=18 DEG C) and user's design temperature Ts (=28 DEG C) is less than or equal to indoor temperature T1 (=18 DEG C), if enter step S37 ', return step S35 ' if not;

S37: control air-conditioner temperature platform (TB ', TC '] run (namely with temperature threshold TB ' (=22 DEG C) run);

S38: judge that outdoor temperature T4 (being assumed to be 36 DEG C) and indoor temperature T1 (are assumed to be 22 DEG C, namely rise to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TB ', TC '] corresponding temperature difference threshold value M2 ' (=22 DEG C) and user's design temperature Ts (=28 DEG C) is less than or equal to indoor temperature T1 (=22 DEG C), if enter step S4 ', return step S37 ' if not;

S39 ': control air-conditioner temperature platform (TA ', TB '] run (namely with temperature threshold TA ' (=18 DEG C) run);

S40 ': judge that outdoor temperature T4 (being assumed to be 0 DEG C) and indoor temperature T1 (are assumed to be 18 DEG C, namely drop to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TA ', TB '] corresponding temperature difference threshold value M1 ' (=18 DEG C) and user's design temperature Ts (=28 DEG C) is less than or equal to indoor temperature T1 (=18 DEG C), if enter step S41 ', return step S39 ' if not;

S41 ': control air-conditioner temperature platform (TB ', TC '] run (namely with temperature threshold TB ' (=22 DEG C) run);

S42 ': judge that outdoor temperature T4 (being assumed to be 0 DEG C) and indoor temperature T1 (are assumed to be 22 DEG C, namely rise to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TB ', TC '] corresponding temperature difference threshold value M2 ' (=22 DEG C) and user's design temperature Ts (=28 DEG C) is less than or equal to indoor temperature T1 (=22 DEG C), if enter step S43 ', return step S41 ' if not;

S43 ': control air-conditioner temperature platform (TC ', TH] run (namely with temperature threshold TC ' (=28 DEG C) run); And

S44 ': judge that outdoor temperature T4 (being assumed to be 0 DEG C) and indoor temperature T1 (are assumed to be 28 DEG C, namely rise to platform design temperature) the temperature difference whether be less than or equal to temperature platform (TC ', TH] corresponding temperature difference threshold value M3 ' (=28 DEG C) and user's design temperature Ts (=28 DEG C) is less than or equal to indoor temperature T1 (=28 DEG C), if enter step S43 ', return step S41 ' if not.

Certainly, the setting of the idiographic flow apparent temperature threshold value of step S3 ' and determining, is not limited to present embodiment.

Concrete, the air-conditioner control method of better embodiment of the present invention also comprises:

S13 ': judge whether outdoor temperature T4 is less than or equal to specific threshold X; If so, enter step S2 ', if not, enter step S4 '.

Specific threshold X is used for judging that whether outdoor temperature T4 is too low, and the mode if so, then needing to adopt temperature platform one by one to decline, if not, then can directly run with user's design temperature Ts.In present embodiment, specific threshold X is 2 DEG C.Certainly, the setting of specific threshold X is not limited to present embodiment, is determined by real needs.

Operational factor also comprises air output.Be appreciated that air output also can affect the change of indoor temperature T1.

Air-conditioner control method also comprises:

S11 ': setting plurality of operating modes, the operational factor of multiple temperature platforms that often kind of operational mode is corresponding is different; And

S12 ': the operational factor according to user instruction determination present mode of operation thus in determining step S3 '.

Be appreciated that operational factor difference can cause the change of indoor temperature T1 different.This mainly considers that different crowds is different for the adaptive capacity of the change of indoor temperature T1, therefore sets up different operational modes.Such as, young people is in vigorous health, and resistance is strong, and therefore indoor temperature T1 can comparatively fast rise.Child's resistance is poor, and therefore indoor temperature T1 rises and should slow down.And for the elderly, health is weak, resistance is poor, and therefore indoor temperature T1 will slowly rise.Therefore, the operational mode of present embodiment can comprise " young people ", " child " and " the elderly ", and concrete operational factor is as shown in table 2 below:

Table 2

In other words, in present embodiment, running time and the air output of each temperature platform are identical, in other embodiments also can be different.In practical application, the setting of operational factor, depending on real needs, is not limited to present embodiment.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " exemplary embodiment ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with described embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the present invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (5)

1. an air-conditioner control method, is characterized in that, comprises

S1: set multiple temperature threshold to define multiple temperature platform below the highest described temperature threshold, and set the operational factor of each described temperature platform, described operational factor comprises the temperature difference threshold value of platform design temperature, running time and correspondence, described temperature platform is higher, and corresponding described platform design temperature is higher and the described temperature difference threshold value of correspondence is less;

S2: judge whether user's design temperature is be less than the highest described temperature threshold; If so, enter step S3, if not, enter step S4;

S3: control the described temperature platform that described air-conditioner falls into described user's design temperature from the highest described temperature platform and run successively; The condition dropping to lower described temperature platform from current described temperature platform is: outdoor temperature and the temperature difference of indoor temperature are less than or equal to described temperature difference threshold value corresponding to current described temperature platform and described user's design temperature is less than or equal to described indoor temperature; If described air-conditioner meets the condition dropping to lower described temperature platform after the described temperature platform that described user's design temperature falls into runs, enter step S4; And

S4: then control described air-conditioner and run with described user's design temperature.

2. air-conditioner control method as claimed in claim 1, it is characterized in that, described air-conditioner control method also comprises:

S13: judge whether described outdoor temperature is more than or equal to specific threshold; If so, enter step S2, if not, enter step S4.

3. air-conditioner control method as claimed in claim 1, it is characterized in that, described operational factor also comprises air output.

4. air-conditioner control method as claimed in claim 1, it is characterized in that, described air-conditioner control method also comprises:

S11: setting plurality of operating modes, the described operational factor of the multiple described temperature platform that often kind of described operational mode is corresponding is different; And

S12: determine the described operational factor in described step S3 according to user instruction determination present mode of operation.

5. air-conditioner control method as claimed in claim 1, it is characterized in that, the described platform design temperature of each described temperature platform is the described temperature threshold of the upper limit of described temperature platform.