CN103245032B - Air-conditioner and control method thereof and device - Google Patents

Abstract

The invention discloses a kind of air-conditioner and control method thereof and device.Wherein, the control method of air-conditioner comprises: the control instruction receiving user's input; Search the airconditioning control pattern corresponding with control instruction, wherein, in air-conditioner, store multiple airconditioning control pattern, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different airconditioning control patterns, different Energy Saving Controls is carried out to air-conditioner; And according to finding airconditioning control pattern, Energy Saving Control is carried out to air-conditioner.By the present invention, solve air-conditioner of the prior art and cannot provide the problem of comfortableness and energy-conservation adjustment easily for user, and then reach the comfortableness requirement that air-conditioner can either meet user, user operation can be simplified again, save the effect of energy consumption.

Description

Air-conditioner and control method thereof and device

Technical field

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

Background technology

Under normal circumstances, transducer air conditioning more saves the energy consumption of air-conditioner than air-conditioner with fixed frequency, if but the parameter that in use arranges of user is unreasonable, and not only can cause that user's is uncomfortable, but also can energy consumption be wasted.

Often there are the following problems in use for existing air-conditioner:

1, during just start, the design temperature of air-conditioner is lower, and user feels cold and usually improves the several years again;

2, directly select the pattern of acquiescence every day after opening air-conditioner, do not consider whether this kind of scheme wastes energy consumption;

3, wind deflector just fixes on and blows on one's body by user's sensible heat, feels cold and just wind deflector angle is directly turned down;

4, some user is in order to power saving, continuous switching on and shutting down, and feel cold and just closed by air-conditioner, sensible heat is opened again, and now, the usefulness of air-conditioner itself does not rationally play.Therefore, need design button, user selects this button just to have selected best operational version.

The comfortable control model of the existing refrigerated energy-saving of air-conditioner only considers temperature, do not consider running frequency, wind speed, lead angle, the factors such as temperature fluctuation are on the impact of running energy consumption, existing transducer air conditioning refrigeration is relatively good, Energy Efficiency Ratio is also higher, but in view of the complexity arranged, usually rationally can not arrange parameters in user's use procedure, now, what may occur in use procedure is not energy-conservation.

In the use procedure of air-conditioner, how can be more reasonable, more energy-conservation use, air-conditioner producer can not provide clear and definite method usually, operation manual also only shows the using method of each button, and also do not tell how user is rationally arranged and can realize comfortable and energy-conservation energy consumption.

The problem of comfortableness and energy-conservation adjustment easily cannot be provided for user for the air-conditioner in correlation technique, not yet propose effective solution at present.

Summary of the invention

Main purpose of the present invention is to provide a kind of air-conditioner and control method thereof and device, cannot provide the problem of comfortableness and energy-conservation adjustment easily to solve air-conditioner in correlation technique for user.

To achieve these goals, according to an aspect of the present invention, provide a kind of control method of air-conditioner, comprising: the control instruction receiving user's input; Search the airconditioning control pattern corresponding with control instruction, wherein, in air-conditioner, store multiple airconditioning control pattern, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different airconditioning control patterns, different Energy Saving Controls is carried out to air-conditioner; And according to finding airconditioning control pattern, Energy Saving Control is carried out to air-conditioner.

Further, the control instruction receiving user's input comprises: the different control instructions being received user's input by the same button on air-conditioner.

Further, comprised by the different control instructions of the same button reception user input on air-conditioner: detect button by the number of times selected; Search the control instruction corresponding with the number of times detected, wherein, in air-conditioner, store button by the number of times selected and the corresponding relation between different control instruction.

Further, airconditioning control pattern to comprise in the first control model, the second control model and the 3rd control model one of at least, wherein: under the first control model, first indoor temperature is detected, then the temperature difference size between indoor temperature and inner first design temperature of control logic is judged, wherein, when the temperature difference is greater than the first preset value, controlling air-conditioner adopts fixed operational mode frequently to run, at air-conditioner after determining frequency operational mode and running the first Preset Time or when detecting that the temperature difference is less than the first preset value, exit and determine frequency operational mode, under the second control model, first indoor temperature is detected, then the temperature difference size between indoor temperature and inner second design temperature of control logic is judged, wherein, when the temperature difference is greater than the second preset value, controlling air-conditioner adopts fixed operational mode frequently to run, at air-conditioner after determining frequency operational mode and running the second Preset Time or when detecting that the temperature difference is less than the second preset value, exit and determine frequency operational mode, then converting operation pattern is entered, to control the mode operation that air-conditioner fluctuates up and down according to the second preset value, under the 3rd control model, receive multiple parameters of user's input to control air-conditioner according to the parameter operation after arranging, or reading the first operational factor is run according to the first operational factor to control air-conditioner, wherein, first operational factor is the operational factor stored in air-conditioner, namely, 3rd control model can be defined as the pattern allowing user manually to input operational factor, also the parameters reading the user that stores in air-conditioner memory module and arrange when using air-condition device can be defined as, the most used parameters value is found out by Logic judgment, run according to the operational factor that user is the most used to control air-conditioner.

Further, the temperature range of the first design temperature is 24-28 degree, the temperature range of the second design temperature is 26-28 degree, the time range of the first Preset Time is 10-60 minute, the time range of the second Preset Time is 10-60 minute, and the scope of the range value that the second preset value fluctuates up and down is 1-3 degree.

Further, the first design temperature is 28 degree, and the second design temperature is 28 degree, and the first Preset Time is 15 minutes, and the second Preset Time is 15 minutes, and the range value that the second preset value fluctuates up and down is 2 degree.

Further, the first control model and the second control model corresponding determine frequency operational mode under, the wind deflector controlling air-conditioner is horizontal, wind speed is high wind speed, wherein, and the wind speed corresponding to high windscreen that high wind speed is air-conditioner, air-conditioner exit determine frequency operational mode time, the wind speed controlling air-conditioner is middle wind speed, wherein, and the wind speed corresponding to middle windscreen that middle wind speed is air-conditioner.

Further, the first control model corresponding determine frequency operational mode under, air-conditioner according to preset first frequency run, the second control model corresponding determine frequency operational mode under, air-conditioner according to preset second frequency run.

Further, the frequency range of first frequency is 40-65HZ, and the frequency range of second frequency is 35-70HZ.

Further, first frequency is 45HZ, and second frequency is 50HZ.

To achieve these goals, according to a further aspect in the invention, a kind of control device of air-conditioner is provided, for performing the control method of any one air-conditioner that foregoing of the present invention provides.

To achieve these goals, according to a further aspect in the invention, provide a kind of control device of air-conditioner, comprising: receiver module, for receiving the control instruction of user's input; Search module, for searching the airconditioning control pattern corresponding with control instruction, wherein, multiple airconditioning control pattern is stored in air-conditioner, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different Energy Saving Control patterns, different Energy Saving Controls is carried out to air-conditioner; And control module, for carrying out Energy Saving Control according to finding airconditioning control pattern to air-conditioner.

Further, receiver module is for receiving the different control instructions of user's input by the same button on air-conditioner, receiver module comprises: detection sub-module, for detecting button by the number of times selected; And search submodule, for the control instruction that the number of times searched with detect is corresponding, wherein, in air-conditioner, store button by the number of times selected and the corresponding relation between different control instruction.

To achieve these goals, according to a further aspect in the invention, provide a kind of air-conditioner, comprise the control device of any one air-conditioner that foregoing of the present invention provides.

By the present invention, adopt the control instruction receiving user's input; Search the airconditioning control pattern corresponding with control instruction, wherein, in air-conditioner, store multiple airconditioning control pattern, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different airconditioning control patterns, different Energy Saving Controls is carried out to air-conditioner; And according to finding airconditioning control pattern, Energy Saving Control is carried out to air-conditioner, by storing different airconditioning control patterns in air-conditioner, different airconditioning control patterns can carry out different Energy Saving Controls to air-conditioner automatically, achieving user only needs input control order that air-conditioner just can be made to carry out Energy Saving Control, solve air-conditioner of the prior art and cannot provide the problem of comfortableness and energy-conservation adjustment easily for user, and then reach the comfortableness requirement that air-conditioner can either meet user, user operation can be simplified again, save the effect of energy consumption.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of the control device according to the embodiment of the present invention;

Fig. 2 is the flow chart of the control method according to the embodiment of the present invention;

Fig. 3 and Fig. 4 is the effect contrast figure of the different control models according to the embodiment of the present invention;

Fig. 5 is the position view controlling air conditioner wind deflector according to the control method of the embodiment of the present invention; And

Fig. 6 is the fluctuation schematic diagram of preset temperature in the control method according to the embodiment of the present invention.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

Fig. 1 is the schematic diagram of the control device according to the embodiment of the present invention, and as shown in Figure 1, the control device of this embodiment comprises receiver module 10, searches module 20 and control module 30.

Receiver module 10, for receiving the control instruction of user's input.Particularly, receiver module 10 can receive the different control instructions of user's input by the same button on air-conditioner.

Search module 20, for searching the airconditioning control pattern corresponding with control instruction, wherein, multiple airconditioning control pattern is stored in air-conditioner, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different Energy Saving Control patterns, different Energy Saving Controls is carried out to air-conditioner.

Control module 30, for carrying out Energy Saving Control according to finding airconditioning control pattern to air-conditioner.

Wherein, receiver module 10 comprises: detection sub-module and search submodule.Detection sub-module, for detecting button by the number of times selected; And search submodule, for the control instruction that the number of times searched with detect is corresponding, wherein, in air-conditioner, store button by the number of times selected and the corresponding relation between different control instruction.

By the control device of the embodiment of the present invention, different airconditioning control patterns is stored in air-conditioner, different airconditioning control patterns can carry out different Energy Saving Controls to air-conditioner automatically, user only need press by different number of times the button being arranged on air-conditioner just can to receiver module sending controling instruction, corresponding control model is selected to make control device, and then make air-conditioner carry out Energy Saving Control, solve air-conditioner of the prior art and cannot provide the problem of comfortableness and energy-conservation adjustment easily for user, and then reach the comfortableness requirement that air-conditioner can either meet user, user operation can be simplified again, save the effect of energy consumption.

For problems of the prior art, the embodiment of the present invention additionally provides a kind of control method of air-conditioner, and the control device of the air-conditioner provided by the embodiment of the present invention is performed.Fig. 2 is the flow chart of the control method according to the embodiment of the present invention, and as shown in Figure 2, the control method of this embodiment comprises step S202 to step S206.

S202: the control instruction receiving user's input.Particularly, the different control instructions of user's input can be received by the same button on air-conditioner.Further, comprised by the different control instructions of the same button reception user input on air-conditioner: detect button by the number of times selected; Search the control instruction corresponding with the number of times detected, wherein, in air-conditioner, store button by the number of times selected and the corresponding relation between different control instruction.

S204: search the airconditioning control pattern corresponding with control instruction, wherein, multiple airconditioning control pattern is stored in air-conditioner, and multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different airconditioning control patterns, different Energy Saving Controls is carried out to air-conditioner.

S206: Energy Saving Control is carried out to air-conditioner according to finding airconditioning control pattern.

By the control method of the embodiment of the present invention, different airconditioning control patterns is stored in air-conditioner, different airconditioning control patterns can carry out different Energy Saving Controls to air-conditioner automatically, when user selects certain to control mould, the cryogenic temperature of air-conditioning, fluctuation range, frequency, lead angle, air-out speed etc. has carried out reasonable setting all, achieve user in the maximum energy-saving of use procedure and comfortableness, a key operation pattern of this convenient type, old man and child also oneself the most reasonably can arrange air-conditioning.Achieving user only needs input control order that air-conditioner just can be made to carry out Energy Saving Control, solve air-conditioner of the prior art and cannot provide the problem of comfortableness and energy-conservation adjustment easily for user, and then reach the comfortableness requirement that air-conditioner can either meet user, user operation can be simplified again, save the effect of energy consumption.

The airconditioning control pattern provided in the control method of the embodiment of the present invention can be tested by analysis of experiments, draw the comfortableness temperature of air-conditioning, the frequency control system of air-conditioning, the lead angle position of air-conditioning, wind speed size, temperature fluctuation frequency and scope regulate, by test of many times comparative analysis, find best energy-conservation comfortable control program, the comfortable control model of the maximum energy-saving drawn by verification experimental verification and the original refrigeration comfort mode of air-conditioning carry out contrast verification, pass through contrast test, can see that the control model that makes new advances more can save the energy consumption of user than original comfort mode, and comfort level is good.

Following scheme is enumerate explanation to the airconditioning control pattern in the embodiment of the present invention:

Scheme 1 (energy-conservation comfort mode): during refrigeration, when user selects energy-conservation comfortable button once, air-conditioning controls according to scheme 1 control logic of saving comfortable control model, first the temperature in sensing chamber, by judging that indoor temperature is carried out different control logics from control logic inner setting temperature extent and run; When detection of air-conditioning is very large to the temperature difference (being more than or equal to 3 degree), air-conditioning adopts fixed operational mode frequently to run, temperature runs 15 minutes according to T1 (temperature of setting in control logic), then 15 minutes are run according to T1-2 degree, wind deflector is in the air-out position with ground level, and high wind speed runs; Running constantly detects indoor temperature; when detecting that the temperature difference set in indoor temperature and control logic is less than or equal to 3 degree; or detect that running time reaches half an hour; control logic is run according to the second step in control program 1; cancel fixed operational mode frequently; according to the original converting operation mode operation of air-conditioning; running temperature is run according to the T1 write in control logic; wind deflector is in and ground level; during wind speed adopts, wind speed runs; no matter run or the converting operation stage determining frequency, after receiving halt command, out of service.

Scheme 2 (the most energy-conservation comfort mode): during refrigeration, when user selects energy-conservation comfortable button, button secondary simultaneously, control to run according to the scheme 2 of energy-conservation comfortable control model, first the temperature in sensing chamber is detected, by judging that indoor temperature is carried out different control methods from control logic inner setting temperature extent and run, when detection of air-conditioning is very large to the temperature difference (being more than or equal to 3 degree), air-conditioning adopts fixed operational mode frequently to run, temperature runs 15 minutes according to T1 (temperature of setting in control logic), then 15 minutes are run according to T1-2 degree, wind deflector is in the air-out position with ground level, and high wind speed runs, running constantly detects indoor temperature, when detecting that the temperature difference set in indoor temperature and control logic is less than 3 degree, or detect that running time reaches half an hour, control logic is run according to the second step in control program 2, cancel fixed operational mode frequently, according to the original converting operation mode operation of air-conditioning, running temperature fluctuates according to the preset temperature T1 write in control logic and runs, undulated control pattern running temperature is controlled to carry out undulated control on the degree of X up and down of design temperature, period of waves is that (cycle T comprised 15 in T minute, 20, 30 minutes, but be not limited thereto), wind deflector is in and ground level, during wind speed adopts, wind speed runs, no matter determining frequency operation or converting operation stage, after receiving halt command, out of service.

Scheme 3 (DIY pattern): during refrigeration, when user selects energy-conservation comfortable button, press this button 3 times continuously, control logic is run according to energy-conservation comfort mode scheme 3, and this pattern can be the self-defined pattern that user often sets; Utilize the memory function of air-conditioning itself, pass through Logic judgment, remember the temperature that user is often arranged in using air-condition process, wind deflector position, the parameters such as wind speed size, when user selects this button, air-conditioning resets without user, arrange according to the memory function of inherent logic the mode operation that user often arranges, this pattern reduces the trouble of the continuous repetitive operation of user.

By describing above and can finding out, the control method of the embodiment of the present invention, by a key control, realizes the maximum Energy Efficiency Ratio in use procedure, reduces the trouble of user, improves comfortableness and the automaticity of user.

The effect adopting the control method of the embodiment of the present invention to carry out air-conditioner control under different control model is contrasted, Fig. 3 is the energy ezpenditure adopting the control model in the embodiment of the present application to carry out Energy Saving Control, the comparison diagram of the energy ezpenditure of air-conditioner when carrying out 26 degree of Energy Saving Controls or 28 degree of Energy Saving Controls with adopting prior art, Fig. 4 adopts the control model in the embodiment of the present application to carry out Energy Saving Control, indoor temperature is reduced to the lowered the temperature scope under different control models corresponding to same temperature when carrying out 26 degree of Energy Saving Controls or 28 degree of Energy Saving Controls from adopting prior art in same time.

Can be found out by the contrast of Fig. 3 and Fig. 4, the energy consumption of the control model in the embodiment of the present application is minimum, and cooling rate is faster, and stablize the maximum difference in temperature field of the latter two also with regard to 0.5 degree, therefore, the control model in the embodiment of the present application is better.

Particularly, the design parameter of the corresponding air-conditioner of the cited airconditioning control pattern in the embodiment of the present invention is as follows:

Scheme 1 (energy-conservation comfort mode): inherently meet according to the checking of a large amount of experimental datas the comfortableness temperature that 90% the above persons reach comfortableness requirement in this pattern, this temperature is defined as T1 (span 24-28 degree), T1=28 degree in experimental test procedures), when user selects energy-conservation comfortableness scheme 1, first air-conditioning detects the temperature difference of room temperature and design temperature T1=28 degree, when detecting that temperature difference is more than or equal to 3 degree, air-conditioning is according to determining frequency mode operation, it is that (span of frequency is 40-65Hz to XHz that the running frequency of fixed pattern is frequently arranged, 45Hz is got) in experimentation, the running temperature of air-conditioning is according to the T1 set, run 15 minutes, 15 minutes are run according to T1-2 degree, then run according to T1=28 degree, air conditioner air deflector is horizontal (wind deflector position is as 3 positions in Fig. 5), namely air-out direction and ground level, wind speed is high wind speed (the high wind shelves on air-conditioning remote control) in front half an hour, running constantly detects indoor temperature, when detecting that the temperature difference of indoor temperature and T1=28 degree is less than 3 degree, or the time that air-conditioning runs surely is frequently greater than half an hour, cancel fixed operational mode frequently, air-conditioning runs according to original conversion frequencies, wind deflector is in level, temperature is according to T1=28 degree, wind speed (apoplexy shelves own on air-conditioning) in wind speed, always according to this mode operation, until accept new instruction action.

Scheme 2 (the most energy-conservation comfort mode): this pattern also draws comfortableness temperature T2 (span 26-28 degree) according to a large amount of experiments, experimentation value is 28 degree, when user selects comfortableness energy saver mode 2, first air-conditioning detects the temperature difference of room temperature and design temperature T2=28, when detecting that temperature difference is more than or equal to 3 degree, air-conditioning is according to determining frequency mode operation, it is YHz (span 35-70Hz) that the running frequency of fixed pattern is frequently arranged, experimentation value 50Hz, the running temperature of air-conditioning is according to the T2=28 degree set, run 15 minutes, 15 minutes are run according to T2-2=26 degree, then run according to T2=28 degree, air conditioner air deflector is horizontal (wind deflector position is as 3 positions in Fig. 5), namely air-out direction and ground level, wind speed is high wind speed (the high windscreen of air-conditioning itself) in front half an hour, running constantly detects indoor temperature, when detecting that the temperature difference of indoor temperature and T1=28 degree is less than 3 degree, or the time that air-conditioning runs surely is frequently greater than half an hour, cancel fixed operational mode frequently, air-conditioning runs according to original conversion frequencies, wind deflector is in level, temperature fluctuates up and down according to T2=28 temperature, and (scope of S is 1-3 degree to S degree, 2 degree are got in experimentation) run, temperature fluctuation adopts similar sine curve (as shown in Figure 6), fluctuation cycle be that (span of T is between 10-30 minute to T, 20 minutes are got) in experimentation.Air-conditioning runs according to this pattern always, until receive new instruction action.

Scheme 3 (DIY pattern): this pattern is just started shooting, running temperature is set as T3=29 by air-conditioning automatically, the horizontal air-out of lead angle, middle wind speed (the apoplexy shelves of air-conditioning) runs, front half an hour is frequency MHz (55Hz) surely, it is frequently fixed to cancel after running half an hour, according to converting operation, other parameter constant, user changes the number of times of default temperature air-conditioner controller to have logical algorithm judge, if it is all TY (span 22-30 degree) that user changes temperature at every turn, and change number of times is greater than 5 times, the user that turns on the aircondition next time just runs according to the TY of setting, other service condition is constant.Up-to-date memory retains by last air-conditioning, if open air-conditioning next time to select energy-conservation comfort mode 3, air-conditioning just runs, until accept new user instruction action according to the new model remembered in this pattern.

By the control method of the embodiment of the present invention, after changing the control logic of the comfortable button of the intelligence on remote controller or air-conditioner, reaching and store 3 airconditioning control patterns in air-conditioner, is energy-conservation comfort mode 1 respectively, energy-conservation comfort mode 2; Energy-conservation comfort mode 3; When user selects this button, user key-press once, run according to scheme 1, button twice, runs according to scheme 2, and button runs according to scheme 3 for 3 times, continuous key-press 4 times, exit energy-conservation comfortable control model, need to increase the display of energy-conservation comfort mode on air-conditioning panel, be so also conducive to consumer and clearly know which energy-conservation comfort mode state air-conditioning is in and runs.Reach the comfortableness requirement that air-conditioner can either meet user, user operation can be simplified again, save the effect of energy consumption.

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

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (13)

1. a control method for air-conditioner, is characterized in that, comprising:

Receive the control instruction of user's input;

Search the airconditioning control pattern corresponding with described control instruction, wherein, multiple airconditioning control pattern is stored in described air-conditioner, and described multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different airconditioning control patterns, different Energy Saving Controls is carried out to described air-conditioner; And

According to finding airconditioning control pattern, Energy Saving Control is carried out to described air-conditioner,

Wherein, described airconditioning control pattern comprises the second control model, under described second control model, Energy Saving Control is carried out to described air-conditioner comprise according to finding airconditioning control pattern: first detect indoor temperature, then the temperature difference size between described indoor temperature and inner second design temperature of control logic is judged, wherein, when the described temperature difference is greater than the second preset value, controlling described air-conditioner adopts fixed operational mode frequently to run, at described air-conditioner after determining frequency operational mode and running the second Preset Time or when detecting that the described temperature difference is less than described second preset value, exit and determine frequency operational mode, enter converting operation pattern, to control the mode operation that described air-conditioner fluctuates up and down according to described second preset value.

2. method according to claim 1, is characterized in that, the control instruction receiving user's input comprises:

The different control instructions of user's input are received by the same button on air-conditioner.

3. method according to claim 2, is characterized in that, the different control instructions being received user's input by the same button on air-conditioner are comprised:

Detect described button by the number of times selected; And

Search the control instruction corresponding with the number of times detected, wherein, in described air-conditioner, store described button by the number of times selected and the corresponding relation between different control instruction.

4. method according to claim 1, is characterized in that, described airconditioning control pattern also to comprise in the first control model and the 3rd control model one of at least, wherein:

Under described first control model, first indoor temperature is detected, then the temperature difference size between described indoor temperature and inner first design temperature of control logic is judged, wherein, when the described temperature difference is greater than the first preset value, controls described air-conditioner and adopt fixed operational mode frequently to run, at described air-conditioner after determining frequency operational mode and running the first Preset Time or when detecting that the described temperature difference is less than described first preset value, exit and determine frequency operational mode

Under described 3rd control model, the multiple parameters receiving user's input run according to the parameter after arranging to control described air-conditioner, or read the first operational factor to control described air-conditioner according to described first operational factor operation, wherein, described first operational factor is the operational factor stored in described air-conditioner.

5. method according to claim 4, is characterized in that, the temperature range of described first design temperature is 24-28 degree, and the temperature range of described second design temperature is 26-28 degree, and the scope of the range value that described second preset value fluctuates up and down is 1-3 degree.

6. method according to claim 4, is characterized in that, described first design temperature is 28 degree, and described second design temperature is 28 degree, and the range value that described second preset value fluctuates up and down is 2 degree.

7. method according to claim 4, it is characterized in that, described first control model and described second control model corresponding determine frequency operational mode under, the wind deflector controlling described air-conditioner is horizontal, wind speed is high wind speed, wherein, the wind speed corresponding to high wind shelves that described high wind speed is described air-conditioner, when described air-conditioner exits described fixed operational mode frequently, the wind speed controlling described air-conditioner is middle wind speed, wherein, the wind speed of described middle wind speed corresponding to the apoplexy shelves of described air-conditioner.

8. method according to claim 4, it is characterized in that, described first control model corresponding determine frequency operational mode under, described air-conditioner runs according to the first frequency preset, described second control model corresponding determine frequency operational mode under, described air-conditioner according to preset second frequency run.

9. method according to claim 8, is characterized in that, the frequency range of described first frequency is 40-65Hz, and the frequency range of described second frequency is 35-70Hz.

10. method according to claim 8, is characterized in that, described first frequency is 45Hz, and described second frequency is 50Hz.

The control device of 11. 1 kinds of air-conditioners, is characterized in that, comprising:

Receiver module, for receiving the control instruction of user's input;

Search module, for searching the airconditioning control pattern corresponding with described control instruction, wherein, multiple airconditioning control pattern is stored in described air-conditioner, and described multiple airconditioning control pattern and the corresponding relation between different control instruction, wherein, under different Energy Saving Control patterns, different Energy Saving Controls is carried out to described air-conditioner; And

Control module, for carrying out Energy Saving Control according to finding airconditioning control pattern to described air-conditioner,

Wherein, described airconditioning control pattern comprises the second control model, under described second control model, first indoor temperature is detected, then the temperature difference size between described indoor temperature and inner second design temperature of control logic is judged, wherein, when the described temperature difference is greater than the second preset value, described control module controls described air-conditioner and adopts fixed operational mode frequently to run, at described air-conditioner after determining frequency operational mode and running the second Preset Time or when detecting that the described temperature difference is less than described second preset value, described control module controls described air-conditioner and exits and determine frequency operational mode, enter converting operation pattern, to control the mode operation that described air-conditioner fluctuates up and down according to described second preset value.

12. devices according to claim 11, is characterized in that, described receiver module is for receiving the different control instructions of user's input by the same button on air-conditioner, described receiver module comprises:

Detection sub-module, for detecting described button by the number of times selected; And

Search submodule, for the control instruction that the number of times searched with detect is corresponding, wherein, in described air-conditioner, store described button by the number of times selected and the corresponding relation between different control instruction.

13. 1 kinds of air-conditioners, is characterized in that, comprise the control device of the air-conditioner described in claim 11 or 12.