CN101818933A

CN101818933A - Control method of air conditioner

Info

Publication number: CN101818933A
Application number: CN200910009600A
Authority: CN
Inventors: 张辉; 钟明生; 孟宪运; 梁文超; 杨相稳; 谢先明; 李秀菲; 邹云辉
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2009-02-26
Filing date: 2009-02-26
Publication date: 2010-09-01

Abstract

The invention provides a control method of an air conditioner, which comprises the following steps: receiving the selection of a user on a plurality of preset place control modes, wherein each place control mode corresponds to one use place; receiving the selection of a user on multiple operation modes under the selected site control mode, or automatically selecting the multiple operation modes under the selected site control mode according to the environmental temperature; and making the working state of the air conditioner enter the running mode under the selected place control mode. The invention solves the problems that the air conditioner in the prior art needs to set more parameters and is complicated to operate, reduces the operation of a user, and can enter the air conditioner working state which is expected by the user and is suitable for the place where the air conditioner is located only by simple selection.

Description

The control method of air-conditioner

Technical field

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

Background technology

Existing air-conditioner, when the user need start air-conditioner, just must according to the needs of self in every particular operational factor is set, at first needing to carry out pattern sets, decision be freeze, heat, dehumidifier or air-supply, on the basis that pattern is set, the temperature that must select to need, air quantity size, blowing direction or the like, and pattern of every change is set, all to reset above each parameter, become very loaded down with trivial details with regard to the operation that has caused the user like this, all can not enter customer satisfaction system state sometimes even through repeatedly setting.

In realizing process of the present invention, the inventor finds that there are the following problems at least in the prior art: the user must carry out repeatedly the conditioners running conditions that the parameter setting operation just can enter to be needed, and is more loaded down with trivial details.

Summary of the invention

The present invention aims to provide a kind of control method of air-conditioner, can solve must carrying out repeatedly the parameter setting operation and just entering the conditioners running conditions of needs of existing in the prior art, thereby cause user's the more loaded down with trivial details problem of operating process.

In an embodiment of the present invention, provide a kind of control method of air-conditioner, having comprised: accepted the selection of user, every kind of corresponding a kind of field of employment of place control model default multiple place control model; Accept the selection of user, perhaps automatically the plurality of operating modes under the control model of selected place is selected according to environment temperature to the plurality of operating modes under the control model of selected place; And the duty that makes air-conditioner enters the operational mode under the control model of selected place.

Preferably, the place control model comprises following at least a: parlor control model, dining room control model, meeting room/office's control model and Energy Saving Control pattern.

Preferably, every kind of place control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Preferably, operational mode comprises following at least a operational factor: running temperature, inner blower operation wind shelves, up and down wind deflector air supply direction and about sweep the wind direction.

Preferably, inner blower operation wind shelves comprise four wind shelves that air quantity is different, and the wind shelves are selected according to environment temperature T2.

Preferably, in an embodiment of the present invention, when the place control model was the parlor control model, the parlor control model comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the control model of parlor is as follows: running temperature is 26 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2 〉=31 ℃, inner blower moves high wind shelves; When 31 ℃＞T2 〉=28 ℃, inner blower operation apoplexy shelves; When 28 ℃＞T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is a horizontal direction up and down; And about sweep the wind direction for the vertical direction of wind deflector up and down.

Wherein, the operational factor of the heating operation pattern under the control model of parlor is as follows: running temperature is 24 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2≤22 ℃, inner blower moves high wind shelves; When 22 ℃＜T2≤27 ℃, inner blower operation apoplexy shelves; When 27 ℃＜T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is direction down up and down; And about sweep the wind direction for the vertical direction of wind deflector up and down.

Preferably, in an embodiment of the present invention, when the place control model was the dining room control model, the dining room control model comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the control model of dining room is as follows: running temperature is 25 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2 〉=31 ℃, and inner blower operation superelevation wind shelves; When 31 ℃＞T2 〉=28 ℃, inner blower moves high wind shelves; When 28 ℃＞T2 〉=23 ℃, inner blower operation apoplexy shelves; When 23 ℃＞T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is a horizontal direction up and down; And about sweep wind for sweeping entirely.

Wherein, the operational factor of the heating operation pattern under the control model of dining room is as follows: running temperature is 22 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2≤18 ℃, inner blower moves high wind shelves; When 18 ℃＜T2≤24 ℃, inner blower operation apoplexy shelves; When 24 ℃＜T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is direction down up and down; And about sweep wind for sweeping entirely.

Preferably, in an embodiment of the present invention, when the place control model is meeting room/office's control model, meeting room/office's control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, operational mode, dehumidifier operational mode and air-supply operational mode automatically.

Wherein, the operational factor of the refrigerating operaton pattern under meeting room/office's control model is as follows: running temperature is 25 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2 〉=29 ℃, inner blower moves high wind shelves; When 29 ℃＞T2 〉=23 ℃, inner blower operation apoplexy shelves; When 23 ℃＞T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is a horizontal direction up and down; And about sweep wind for sweeping entirely.

Wherein, the operational factor of the heating operation pattern under meeting room/office's control model is as follows: running temperature is 25 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2≤23 ℃, inner blower moves high wind shelves; When 23 ℃＜T2≤28 ℃, inner blower operation apoplexy shelves; When 28 ℃＜T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is direction down up and down; And about sweep wind for sweeping entirely.

Preferably, in an embodiment of the present invention, when the place control model was the Energy Saving Control pattern, the Energy Saving Control pattern comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the Energy Saving Control pattern is as follows: for running temperature, when the operational mode beyond the refrigerating operaton pattern enters or starts shooting when directly entering refrigerating operaton pattern under the Energy Saving Control pattern, the running temperature of setting is 25 ℃; When reaching one of 25 ℃ and compressor these three kinds of situations out of service in more than 8 ℃ and behind the design temperature ten minutes of the decline that continuously operation ten minutes of compressor, environment temperature occur when entering the Energy Saving Control pattern, the running temperature of setting becomes 27 ℃, will keep this running temperature afterwards; When the refrigerating operaton pattern that enters from the refrigerating operaton pattern under the Energy Saving Control pattern, the running temperature of setting is 27 ℃.For inner blower operation wind shelves, the operation wind shelves of selecting inner blower according to the ruuning situation and the environment temperature T2 of compressor, under compressor situation out of service, the low wind shelves of inner blower operation; Under the situation of compressor operating, when T2 〉=32 ℃, inner blower operation superelevation wind shelves; When T2＜32 ℃: if T2＞T1+3 ℃ the time, inner blower moves high wind shelves; If T1+1 ℃＜and during T2≤T1+3 ℃, inner blower operation apoplexy shelves; If in the time of T2≤T1+1 ℃, the low wind shelves of inner blower operation.The air supply direction of wind deflector is a horizontal direction up and down.About sweep the wind direction for the vertical direction of wind deflector up and down.

Preferably, in an embodiment of the present invention, when the place control model was conventional control model, conventional control model comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the automatic operational mode under the conventional control model automaticallyes switch between operational mode according to environment temperature T2.If air-conditioner is pump type heat, when T2＞26 ℃, switch to the refrigerating operaton pattern, the running temperature of setting is 26 ℃; When 20 ℃＜T2≤26 ℃, switch to the dehumidifier operational mode, the running temperature of setting is 24 ℃; And when T2≤20 ℃, switching to the heating operation pattern, the running temperature of setting is 20 ℃, if the heating operation pattern is then withdrawed from T2＞24 ℃; If air-conditioner is single cold type, when T2＜20 ℃, switch to the air-supply operational mode, the running temperature of setting is 20 ℃, if during T2 〉=24 ℃, then withdraws from the air-supply operational mode, enters the dehumidifier operational mode.

Because adopt the mode of default place control model, every kind of place control model is corresponding to a kind of field of employment, when the user is in a certain specific place, only need to select corresponding place, place residing control model with it, just can make the duty of air-conditioner be directly switch to the state that the user needs, and need not to carry out the relevant parameters setting operation, so overcome the needs repeatedly setting parameter repeatedly of the air-conditioner of prior art, the problem of user's complex operation, and then reached " key " and just can make air-conditioner enter the effect of required duty, reduce user's operation, and only need simply select just can to reach the air-conditioner duty that the place residing with it of user's expectation adapts.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present invention, constitutes the application's a part, and illustrative examples of the present invention and explanation thereof are used to explain the present invention, do not constitute improper qualification of the present invention.In the accompanying drawings:

Fig. 1 shows the flow chart of the control method of air-conditioner according to an embodiment of the invention;

Fig. 2 shows the air supply direction schematic diagram of the wind deflector up and down of air-conditioner according to an embodiment of the invention; And

Fig. 3 show air-conditioner according to an embodiment of the invention about sweep the schematic diagram of wind direction.

The specific embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the present invention in detail.

Fig. 1 shows the flow chart of the control method of air-conditioner according to a preferred embodiment of the invention.As shown in Figure 1, the control method of air-conditioner comprises: step S102, accept the selection of user to default multiple place control model, every kind of corresponding a kind of field of employment of place control model; Step S104 accepts the selection of user to the plurality of operating modes under the control model of selected place, perhaps automatically the plurality of operating modes under the control model of selected place is selected according to environment temperature; And step S106, make the duty of air-conditioner enter operational mode under the control model of selected place.

By above step as can be seen: after air-conditioner starts, the user at first will carry out the selection of place control model, after the control model of selected a kind of place, the judgment means of air-conditioner will judge the residing environment temperature of user, then the operational mode of selecting air-conditioner to enter automatically according to judged result.Certainly, if the user has made selection to the operational mode of air-conditioner, then can enter a kind of operational mode under the control model of selected place according to user's selection.

In a preferred embodiment of the invention, the air-conditioner of being discussed can be a cabinet-type air conditioner, include controller, heat-exchanger rig, ventilation unit and air-supply arrangement, and ventilation unit is provided with fan and has the motor of a plurality of operational tapses, and air-supply arrangement is provided with and sweeps air blade and wind blade.When above-mentioned air-conditioner is controlled, be preset with four kinds of place control models, the field of employment of these four kinds of place control model correspondences is respectively parlor, dining room, meeting/office and place with energy-conservation requirement.Characteristics at these four kinds of fields of employment, various operational modes are by making each place control model possess different characteristics respectively to running temperature, the air output of setting (being inner blower wind shelves), the control of sweeping wind angle, wind-guiding angle, below will be at these four kinds of places, the presetting of parameter of the operational mode under the different place control models is described in detail.

In one embodiment of the invention, when the place control model was the parlor control model, the parlor control model comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the control model of parlor is as follows: running temperature is 26 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2 〉=31 ℃, inner blower moves high wind shelves; When 31 ℃＞T2 〉=28 ℃, inner blower operation apoplexy shelves; When 28 ℃＞T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is horizontal direction (with the perpendicular direction of B direction shown in Figure 2, the direction that promptly 3. illustrates) up and down; And about sweep the wind direction for wind deflector is vertical up and down direction (with the perpendicular direction of A direction shown in Figure 3, i.e. the direction that 3. illustrates of figure).

The running status of the air-conditioner under the parlor control model of this preferred embodiment has following characteristics: air-conditioner can be lowered the temperature or heat up apace, and air-conditioner can move under the low noise state, normal life to the user impacts because the noise of air-conditioner is too big with regard to having avoided for this, has demonstrated fully the hommization of this air-conditioner control method.

In another embodiment of the present invention, when the place control model was the dining room control model, the dining room control model comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the control model of dining room is as follows: running temperature is 25 ℃; Inner blower operation wind shelves are selected according to environment temperature T2: when T2 〉=31 ℃, and inner blower operation superelevation wind shelves; When 31 ℃＞T2 〉=28 ℃, inner blower moves high wind shelves; When 28 ℃＞T2 〉=23 ℃, inner blower operation apoplexy shelves; When 23 ℃＞T2, the low wind shelves of inner blower operation; The air supply direction of wind deflector is a horizontal direction up and down; And about sweep wind for sweeping entirely, promptly as shown in Figure 3, sweep wind in the scopes of downward 180 degree that begin from the A direction.

The running status of the air-conditioner under the dining room control model of this preferred embodiment has following characteristics: air-conditioner can be lowered the temperature or heat up equally apace, and air-conditioner is set at the operation of the big air quantity of ventilation unit, and air-supply arrangement is blown at a distance.Because in the such environment in dining room, air quality often is difficult to ensure, so will improve the air quality in dining room to a certain extent more greatly with what ventilation was set.

In another embodiment of the present invention, when the place control model is meeting room/office's control model, meeting room/office's control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, operational mode, dehumidifier operational mode and air-supply operational mode automatically.

The running status of the air-conditioner under the meeting room of this preferred embodiment/office's control model has following characteristics: air-conditioner also can be lowered the temperature or heat up apace, and air-conditioner is set at the operation of moderate noise states, the moderate distance of air-supply arrangement, wide scope air-supply.

Preferably, in another embodiment of the present invention, when the place control model was the Energy Saving Control pattern, the Energy Saving Control pattern comprised following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

Wherein, the operational factor of the refrigerating operaton pattern under the Energy Saving Control pattern is as follows.For running temperature, when the operational mode beyond the refrigerating operaton pattern enters or starts shooting when directly entering refrigerating operaton pattern under the Energy Saving Control pattern, the running temperature of setting is 25 ℃; When reaching one of 25 ℃ and compressor these three kinds of situations out of service in more than 8 ℃ and behind the design temperature ten minutes of the decline that continuously operation ten minutes of compressor, environment temperature occur when entering the Energy Saving Control pattern, the running temperature of setting becomes 27 ℃; When the refrigerating operaton pattern that enters from the refrigerating operaton pattern under the Energy Saving Control pattern, the running temperature of setting is 27 ℃.For inner blower operation wind shelves, the operation wind shelves of selecting inner blower according to the ruuning situation and the environment temperature T2 of compressor, under compressor situation out of service, the low wind shelves of inner blower operation; Under the situation of compressor operating, when T2 〉=32 ℃, inner blower operation superelevation wind shelves; When T2＜32 ℃: if T2＞T1+3 ℃ the time, inner blower moves high wind shelves; If T1+1 ℃＜and during T2≤T1+3 ℃, inner blower operation apoplexy shelves; If in the time of T2≤T1+1 ℃, the low wind shelves of inner blower operation.The air supply direction of wind deflector is a horizontal direction up and down.About sweep the wind direction for the vertical direction of wind deflector up and down.

The running status of the air-conditioner under the Energy Saving Control pattern of this preferred embodiment has following characteristics: air-conditioner will be set at moderate noise states operation, the moderate distance of air-supply arrangement, wide scope air-supply, most critical be that this place control model can make the power consumption of air-conditioner reduce greatly, has power saving function, so be a kind of place control model of very environmental protection.

The running status of the air-conditioner under the conventional control model of this preferred embodiment can be selected according to user's needs, if when promptly there is specific demand in the user, can enter conventional control model.

Especially, the above only is the preferred embodiments of the present invention, in the various operational modes under above-mentioned various places control model, the user also can be self-defined the parameters of air-conditioner operation, if the user has carried out the parameter adjusting, the parameter operation after then air-conditioner is regulated according to the user.Certainly, the user also can carry out the selection of place control model at any time according to self-demand.

In addition, the operational factor of the various operational modes under the above-mentioned various places control model is preferably default definite values, is not limited to the present invention, and as required, the default definite value of these operational factors can change.For example, in a preferred embodiment of the invention, the running temperature of the refrigerating operaton pattern under the control model of parlor is preset as 26 ℃, interchangeable, this running temperature can be preset as 27 ℃ or other temperature values.

From above description, as can be seen, the above embodiments of the present invention have realized following technique effect: because adopt the mode of default place control model, every kind of place control model is corresponding to a kind of field of employment, when the user is in a certain specific place, only need to select corresponding place, place residing control model with it, just can make the duty of air-conditioner be directly switch to the state that the user needs, and need not to carry out the relevant parameters setting operation, so overcome the needs repeatedly setting parameter repeatedly of the air-conditioner of prior art, the problem of user's complex operation, and then reached " key " and just can make air-conditioner enter the effect of required duty, reduce user's operation, and only need simply select just can to reach the air-conditioner duty that the place residing with it of user's expectation adapts.

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 being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. the control method of an air-conditioner comprises:

Accept the selection of user, every kind of corresponding a kind of field of employment of described place control model to default multiple place control model;

Accept the selection of user, perhaps automatically the plurality of operating modes under the control model of selected place is selected according to environment temperature to the plurality of operating modes under the control model of selected place; And

Make the duty of air-conditioner enter operational mode under the control model of selected place.

2. method according to claim 1 is characterized in that, described place control model comprises following at least a: parlor control model, dining room control model, meeting room/office's control model and Energy Saving Control pattern.

3. method according to claim 1 is characterized in that, every kind of described place control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode.

4. method according to claim 1 is characterized in that, described operational mode comprise following at least a operational factor: running temperature T1, inner blower operation wind shelves, up and down wind deflector air supply direction and about sweep the wind direction.

5. method according to claim 4 is characterized in that, described inner blower operation wind shelves comprise four wind shelves that air quantity is different, and described wind shelves are selected according to environment temperature T2.

6. method according to claim 5, it is characterized in that, described place control model is the parlor control model, described parlor control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode, wherein

The described operational factor of described refrigerating operaton pattern is:

Running temperature is 26 ℃;

Inner blower operation wind shelves are selected according to environment temperature T2:

When T2 〉=31 ℃, described inner blower moves high wind shelves;

When 31 ℃＞T2 〉=28 ℃, described inner blower operation apoplexy shelves;

When 28 ℃＞T2, the low wind shelves of described inner blower operation;

The air supply direction of wind deflector is a horizontal direction up and down; And

About sweep the wind direction for and the described up and down vertical direction of wind deflector;

The described operational factor of described heating operation pattern is:

Running temperature is 24 ℃;

When T2≤22 ℃, described inner blower moves described high wind shelves;

When 22 ℃＜T2≤27 ℃, described inner blower moves described apoplexy shelves;

When 27 ℃＜T2, described inner blower moves described low wind shelves;

The air supply direction of wind deflector is direction down up and down; And

About sweep the wind direction for and the described up and down vertical direction of wind deflector.

7. method according to claim 5, it is characterized in that, described place control model is the dining room control model, described dining room control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode, wherein

Running temperature is 25 ℃;

When T2 〉=31 ℃, described inner blower operation superelevation wind shelves;

When 31 ℃＞T2 〉=28 ℃, described inner blower moves described high wind shelves;

When 28 ℃＞T2 〉=23 ℃, described inner blower moves described apoplexy shelves;

When 23 ℃＞T2, described inner blower moves described low wind shelves;

About sweep wind for sweeping entirely;

The described operational factor of described heating operation pattern is:

Running temperature is 22 ℃;

When T2≤18 ℃, described inner blower moves described high wind shelves;

When 18 ℃＜T2≤24 ℃, described inner blower moves described apoplexy shelves;

When 24 ℃＜T2, described inner blower moves described low wind shelves;

The air supply direction of wind deflector is direction down up and down; And

About sweep wind for sweeping entirely.

8. method according to claim 5, it is characterized in that, described place control model is meeting room/office's control model, described meeting room/office's control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode, wherein

Running temperature is 25 ℃;

When T2 〉=29 ℃, described inner blower moves described high wind shelves;

When 29 ℃＞T2 〉=23 ℃, described inner blower moves described apoplexy shelves;

When 23 ℃＞T2, described inner blower moves described low wind shelves;

About sweep wind for sweeping entirely;

The described operational factor of described heating operation pattern is:

Running temperature is 25 ℃;

When T2≤23 ℃, described inner blower moves described high wind shelves;

When 23 ℃＜T2≤28 ℃, described inner blower moves described apoplexy shelves;

When 28 ℃＜T2, described inner blower moves described low wind shelves;

The air supply direction of wind deflector is direction down up and down; And

About sweep wind for sweeping entirely.

9. method according to claim 5, it is characterized in that, described place control model is the Energy Saving Control pattern, described Energy Saving Control pattern comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode, wherein

Running temperature T1:

When the described operational mode beyond the described refrigerating operaton pattern enters or starts shooting when directly entering described refrigerating operaton pattern under the described Energy Saving Control pattern, the running temperature of setting is 25 ℃; When one of following situation occurring, the running temperature of setting becomes 27 ℃:

Compressor moves ten minutes continuously;

Descend more than 8 ℃ when described environment temperature ratio enters described Energy Saving Control pattern; And

Reach 25 ℃ in ten minutes behind the design temperature, compressor is out of service;

When the described refrigerating operaton pattern that enters from described refrigerating operaton pattern under the described Energy Saving Control pattern, the running temperature of setting is 27 ℃;

Whether inner blower operation wind shelves move according to described compressor and environment temperature T2 selects:

If described compressor is out of service, then described inner blower moves described low wind shelves;

If described compressor is in running status,

When T2 〉=32 ℃, described inner blower moves described superelevation wind shelves;

When T2＜32 ℃:

If in the time of T2＞T1+3 ℃, described inner blower moves described high wind shelves;

If T1+1 ℃＜during T2≤T1+3 ℃, described inner blower moves described apoplexy shelves;

If in the time of T2≤T1+1 ℃, described inner blower moves described low wind shelves;

10. method according to claim 5, it is characterized in that, described place control model is conventional control model, described conventional control model comprises following at least a operational mode: refrigerating operaton pattern, heating operation pattern, automatic operational mode, dehumidifier operational mode and air-supply operational mode, wherein

Described automatic operational mode automaticallyes switch between described operational mode according to described environment temperature T2:

If described air-conditioner is a pump type heat,

When T2＞26 ℃, switch to described refrigerating operaton pattern, the described running temperature of setting is 26 ℃;

When 20 ℃＜T2≤26 ℃, switch to described dehumidifier operational mode, the described running temperature of setting is 24 ℃; And

When T2≤20 ℃, switch to described heating operation pattern, the described running temperature of setting is 20 ℃, if described heating operation pattern is then withdrawed from T2＞24 ℃;

If described air-conditioner is a single cold type,

When T2＜20 ℃, switch to described air-supply operational mode, the described running temperature of setting is 20 ℃, if described air-supply operational mode is then withdrawed from T2 〉=24 ℃, enters described dehumidifier operational mode.