CN107490130A - The control method and storage medium of air conditioner, air conditioner - Google Patents

Abstract

The invention discloses the control method and storage medium of a kind of air conditioner, air conditioner, air conditioner includes：Shell and the first wind deflector；Control method includes：S1：Start air conditioner；S2：Calculate the first wind deflector swing angle percentage P；S3：Judge whether air conditioner enters anti-condensation protected mode；S4：When air conditioner is introduced into anti-condensation protected mode, then return to step S3, when air conditioner enters anti-condensation protected mode, the target frequency Ft after the compressor frequency reducing of air conditioner is calculated；S5：Adjust the working frequency of compressor；Wherein, it is Amax that first wind deflector, which waves most upper limit angle, it is Amin that first wind deflector, which waves most lower limit angle, the current orientation angle of first wind deflector is An, and the current orientation angle of the first wind deflector accounts for swing range angle percent P=(Amax An)/(Amax Amin) * 100.According to the control method of the air conditioner of the present invention, by adjusting the working frequency of compressor, it can prevent air conditioner from the phenomenon for producing condensation occur, improve annular comfort level.

Description

The control method and storage medium of air conditioner, air conditioner

Technical field

The present invention relates to air-conditioning technical field, is situated between more particularly, to a kind of air conditioner, the control method of air conditioner and storage Matter.

Background technology

It is well known that during air conditioner cooling in summer use, in air outlet position because cold wind and hot blast cross, air Easily condensation is produced when relative humidity is big in air outlet.Condensation water produce after easily the positions such as air outlet, wind guide strip drippage or Person sends out with the wind.

The content of the invention

Present invention seek to address that the technical problem of air conditioner condensation in the prior art.Therefore, the present invention proposes a kind of air-conditioning The control method of device, the control method of the air conditioner can prevent from producing dew condensation phenomenon in air conditioner running, improve ring Border comfort level.

The present invention also proposes a kind of air conditioner, when the control program of the air conditioner is by the computing device, realizes such as The step of control method of upper described air conditioner.

The present invention also proposes a kind of storage medium, and the storage medium is stored with the control program of air conditioner, the air-conditioning The step of control method of air conditioner as described above is realized when the control program of device is executed by processor.

The controlling party method of air conditioner according to embodiments of the present invention, the air conditioner include：Shell, the shell have Air outlet；With the first wind deflector, first wind deflector be rotatably arranged at the air outlet sentence open or close it is described go out Air port；The control method includes：S1：Start the air conditioner；S2：Calculate the first wind deflector swing angle percentage P；S3：Judge whether the air conditioner enters anti-condensation protected mode；S4：When the air conditioner is introduced into the anti-condensation protection Pattern, then return to step S3, when the air conditioner enters the anti-condensation protected mode, calculate the compressor drop of the air conditioner Target frequency Ft after frequency；S5：Adjust the working frequency of the compressor；Wherein, first wind deflector waves most upper limit angle Spend for Amax, it is Amin that first wind deflector, which waves most lower limit angle, and the current orientation angle of the first wind deflector is An, institute State the current orientation angle of the first wind deflector and account for swing range angle percent P=(Amax-An)/(Amax-Amin) * 100.

The control method of air conditioner according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent There is the phenomenon for producing condensation in air conditioner, improves annular comfort level.

According to some embodiments of the present invention, in the step S2, when first wind deflector adjustment wind direction in place after, Calculate the first wind deflector swing angle percentage P.

According to some embodiments of the present invention, in the step S3, the decision condition of the judge module is：C1：Institute State air conditioner and be in open state；C2：The operational mode of the air conditioner is refrigeration mode or dehumidifier pattern；C3：Described first Wind deflector swing angle percentage P and the first predetermined threshold value P0 meets：P ＞ P0；C4：Aptitude tests pattern is not opened or forces system Chill formula；C5：Close the oscillating function of first wind deflector；C6：The compressor is opened and the actual fortune of the compressor Line frequency is not 0；When the condition C 1 to C6 is set up simultaneously, carry out the compressor and continuously run timing, when the condition During at least one invalid in C1 to C6, timing is reset, the reclocking again when the condition C 1 to C6 is set up simultaneously.

In some embodiments of the invention, during the air conditioner free-running operation, first wind deflector starts to coagulate It is A0 to correspond to orientation angle during the minimum critical angle that dew phenomenon is lifted, and the minimum angles A0 accounts for swing range angle percent P0=(Amax-A0)/(Amax-Amin) * 100.

In some embodiments of the invention, in the step S4, as the compressor continuous operating time T and second When predetermined threshold value T0 meets T >=T0, according to the working frequency of the compressor got by default frequency reducing ratio value and setting Constant speed gear calculates the target frequency Ft after frequency reducing.

In some embodiments of the invention, outdoor environment temperature T4, refrigeration rated capacity test frequency is Fr, refrigeration Peak frequency is Fmax, and wind speed limit frequency minimum frequency be Fmin, and it is Kmax to preset peak frequency limit coefficient, predetermined minimum frequency Limit coefficient is Kmin, and wind speed setting gear is Kn, when the outdoor environment temperature T4 meets：During T4 >=30 °, the target frequency Rate Ft=Fmin*Kmin+ | Fmax*Kmax-Fmin*Kmin | * Kn；When the outdoor environment temperature T4 meets：During 30 ° of T4 ＜, The target frequency Ft=Fmin*Kmin+ | Fr*Kmax-Fmin*Kmin | * Kn.

In some embodiments of the invention, in the step S5, when the condition C 1 is set up to C6 simultaneously, institute is carried out When stating compressor and continuously running timing, it is the target frequency Ft to reduce the compressor operating frequency, when the condition C 1 to It is at least one invalid in C6, or during timing clearing, control the working frequency of the compressor constant.

Air conditioner according to embodiments of the present invention, the air conditioner include shell, the first wind deflector, memory, processor And the control program for the air conditioner that can be run on the memory and on the processor is stored in, wherein, the shell tool There is air outlet, first wind deflector, which is rotatably arranged at the air outlet, to be sentenced and open or close the air outlet；The sky When adjusting the control program of device by the computing device, the step of realizing the control method of air conditioner as described above.

Air conditioner according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent air conditioner from occurring The phenomenon of condensation is produced, improves annular comfort level.

According to some embodiments of the present invention, the air conditioner also includes the second wind deflector, and second wind deflector can turn Be located at dynamicly at the air outlet, second wind deflector is located at the inner side of first wind deflector, first wind deflector and The second wind deflector synchronous axial system.

In some embodiments of the invention, the air conditioner also includes drive device, the drive device and described the One wind deflector is connected with second wind deflector to drive first wind deflector and second wind deflector to rotate.

Storage medium according to embodiments of the present invention, the storage medium are stored with the control program of air conditioner, the sky The step of control method of air conditioner as described above being realized when adjusting the control program of device to be executed by processor.

Storage medium according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent air conditioner from going out The phenomenon of condensation is now produced, improves annular comfort level.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Substantially and it is readily appreciated that, wherein：

Fig. 1 is the structural representation of air conditioner according to embodiments of the present invention；

Fig. 2 is the schematic flow sheet of the control method of the air conditioner of the embodiment of the present invention.

Embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " up time The orientation or position relationship of the instruction such as pin ", " counterclockwise ", " axial direction ", " radial direction ", " circumference " be based on orientation shown in the drawings or Position relationship, it is for only for ease of and describes the present invention and simplify description, rather than indicates or imply that signified device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, limit Surely there is " first ", one or more this feature can be expressed or be implicitly included to the feature of " second ".The present invention's In description, unless otherwise indicated, " multiple " are meant that two or more.

In the description of the invention, it is necessary to illustrate, unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can To be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, with concrete condition above-mentioned term can be understood at this Concrete meaning in invention.

The control method of air conditioner 100 according to embodiments of the present invention is described below with reference to Fig. 1 and Fig. 2.

Air conditioner 100 according to embodiments of the present invention includes the wind deflector 2 of shell 1 and first, and shell has air outlet 11, the One wind deflector 2, which is rotatably arranged at air outlet 11, to be sentenced and opens or closes air outlet 11.

As depicted in figs. 1 and 2, the control method of air conditioner 100 according to embodiments of the present invention, including：

S1：Start air conditioner；

S2：Calculate the first wind deflector swing angle percentage P；

S3：Judge whether air conditioner enters anti-condensation protected mode；

S4：When air conditioner is introduced into anti-condensation protected mode, then return to step S3, when air conditioner enters anti-condensation protection mould Formula, calculate the target frequency Ft after the compressor frequency reducing of air conditioner；

S5：Adjust the working frequency of compressor；

Wherein, it is Amax that the first wind deflector, which waves most upper limit angle, and it is Amin that the first wind deflector, which waves most lower limit angle, the The current orientation angle of one wind deflector is An, and the current orientation angle of the first wind deflector accounts for swing range angle percent P=(Amax- An)/(Amax-Amin)*100。

The control method of air conditioner according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent There is the phenomenon for producing condensation in air conditioner, improves annular comfort level.

In step s 2, after the first wind deflector adjusts wind direction in place, the first wind deflector swing angle percentage is calculated P.Because the first wind deflector is in swing process, current orientation angle An is in always in the state of change, is calculated structure and is forbidden Really.Calculated again after the first wind deflector adjusts wind direction in place, can more accurately calculate the first wind deflector swing angle Percentage P.

In step s3, the decision condition of judge module is：

C1：Air conditioner is in open state；

C2：The operational mode of air conditioner is refrigeration mode or dehumidifier pattern；

C3：First wind deflector swing angle percentage P and the first predetermined threshold value P0 meets：P ＞ P0；

C4：Aptitude tests pattern or forced refrigeration pattern are not opened；

C5：Close the oscillating function of the first wind deflector；

C6：Compressor is opened and the actual motion frequency of compressor is not 0；

When condition C 1 to C6 is set up simultaneously, it is compressed machine and continuously runs timing, as at least one in condition C 1 to C6 When individual invalid, timing is reset, the reclocking again when condition C 1 to C6 is set up simultaneously.

Wherein, during air conditioner free-running operation, when the first wind deflector starts to occur the minimum critical angle that dew condensation phenomenon lifts Corresponding orientation angle is A0, and minimum angles A0 accounts for swing range angle percent P0=(Amax-A0)/(Amax-Amin) * 100.

In step s 4, when compressor continuous operating time T and the second predetermined threshold value T0 meet T >=T0, according to acquisition The working frequency of the compressor arrived calculates the target frequency Ft after frequency reducing by default frequency reducing ratio value and setting constant speed gear.

Specifically, outdoor environment temperature T4, refrigeration rated capacity test frequency is Fr, and refrigeration peak frequency is Fmax, Wind speed limit frequency minimum frequency is Fmin, and it is Kmax to preset peak frequency limit coefficient, and predetermined minimum frequency limit coefficient is Kmin, Wind speed setting gear is Kn, when outdoor environment temperature T4 meets：During T4 >=30 °, target frequency Ft=Fmin*Kmin+ | Fmax* Kmax-Fmin*Kmin | * Kn；When outdoor environment temperature T4 meets：During 30 ° of T4 ＜, target frequency Ft=Fmin*Kmin+ | Fr* Kmax-Fmin*Kmin | * Kn.

Wherein, condensation experiment by the first wind deflector start to occur on dew condensation phenomenon lift minimum critical orientation angle A0 and Minimum condensation pass frequency is verified under the conditions of 1% wind shelves, so as to determine the corresponding condensation pass frequency F0 of angle A 0, such as the institute of table 1 Show.For example, in the example shown in table 1, type is 35WXD air conditioner, under measurement condition, when frequency is 35Hz, is coagulated Reveal structure to be qualified, when frequency is 40Hz, condensation result is unqualified, and therefore, pass frequency F0 is 35HZ.Wherein measurement condition 27/24 implication is：27 DEG C of dry-bulb temperature, 24 DEG C of wet-bulb temperature, dry-bulb temperature are exactly that we generally obtain temperature, and wet bulb is wet Degree, can also be relative humidity, primarily to illustrate air in water content how much.

Table 1

Further, condensation experiment is by condition P>In the case of P0 is set up, test obtains setting wind shelves Kn and corresponds to condensation Pass frequency Fn, as shown in table 2.Further, condensation pass frequency Fn is less than or equal to according to target operating frequency Ft after frequency reducing, Inverse goes out corresponding default peak frequency limit coefficient Kmax and predetermined minimum frequency limit coefficient Kmin.Specifically, according to test Obtained pass frequency Fn, target operating frequency Ft is less than or equal to condensation pass frequency Fn after making frequency reducing, yields less than qualified frequency Rate Fn target frequency Ft, target frequency Ft is substituted into formula F t=Fmin*Kmin+ | Fmax*Kmax-Fmin*Kmin | * Kn and Ft=Fmin*Kmin+ | Fr*Kmax-Fmin*Kmin | * Kn, inverse go out corresponding default peak frequency limit coefficient Kmax With predetermined minimum frequency limit coefficient Kmin, then limited according to default peak frequency limit coefficient Kmax and predetermined minimum frequency COEFFICIENT K min calculates actual target frequency Ft.

Wherein, measurement condition 30/RH70% implication is in table 2：30 DEG C of dry-bulb temperature, relative humidity 70%.

Table 2

It should be noted that condensation 1% windscreen of test, temperature drop test can be with 80% windscreen.Ensure condensation and temperature drop, 1% sets target frequency is most low like test passes frequency, and 80% windscreen frequency is desirable to height.And frequency is linear poor with windscreen Point form, this with regard to decision obtain E side's parameter size, 80% windscreen because wind speed does not typically have condensation problem soon, this When will the higher guarantee temperature drop of frequency, 1% windscreen demeanour is low be easiest to produce dew condensation phenomenon it is also most dangerous.

In addition, condensation and temperature of the environmental test by 20min, 40min free-running operation different schemes before verifying that condensation is protected Drop, temperature drop contrast test standard were evaluated according to the temperature change of 20 minutes after start and 60 minutes, temperature drop comparing result such as table 3 It is shown.Timing module predetermined threshold value T0 determines according to condensation and temperature drop is considered.

For example, air conditioner start starts timing and records 36.13 DEG C of original room temperature, opened after preceding 20 minutes normal operations Beginning carries out limit frequency and records result respectively：20 minutes room temperatures are 29.26 DEG C, and 60 minutes room temperatures are 27.72 DEG C.So Scheme 1 can be calculated and (freely run within first 20 minutes) temperature drop effect：20 minutes 6.87 DEG C of temperature drops, 60 minutes 8.41 DEG C of temperature drops.

In the same way, start timing in air conditioner start and record 36.08 DEG C of original room temperature, first 40 minutes just Often start limit frequency after operation and record result respectively：20 minutes room temperatures are 29.13 DEG C, and 60 minutes room temperatures are 27.12 ℃.It so can equally calculate scheme 2 and (freely run within first 40 minutes) temperature drop effect：20 minutes 6.95 DEG C of temperature drops, 60 minutes temperature 8.96 DEG C of drop.

It can be obtained by the temperature change evaluation criterions of 20 minutes after start and 60 minutes and the temperature drop comparing result of scheme 1/2 Going out scheme 2, (freely to run within first 40 minutes) temperature drop effect more preferable, considers condensation and temperature drop determines that timing module predetermined threshold value takes T0=40min.

Table 3

Further, in step s 5, when condition C 1 to C6 is set up simultaneously, when being compressed machine and continuously running timing, drop Low compressor working frequency is target frequency Ft, when at least one invalid in condition C 1 to C6, or when timing is reset, control The working frequency of compressor is constant.Thus, it is possible to prevent air conditioner from the phenomenon for producing condensation occur, annular comfort level is improved.

Air conditioner according to embodiments of the present invention, as shown in figure 1, including：Shell 1, the first wind deflector 2, memory, processing Device and the control program for storing the air conditioner 100 that can be run on a memory and on a processor, wherein, shell 1 has air-out Mouthfuls 11, the first wind deflector 2, which is rotatably arranged at air outlet 11, to be sentenced and opens or closes air outlet 11；The control journey of air conditioner 100 When sequence is executed by processor, the step of realizing the control method of air conditioner 100 as above.

Air conditioner according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent air conditioner from occurring The phenomenon of condensation is produced, improves annular comfort level.

In some embodiments of the invention, air conditioner also includes the second wind deflector 3, and the second wind deflector 3 is rotationally set At air outlet 11, the second wind deflector 3 is located at the inner side of the first wind deflector 2.Second wind deflector 3 can adjust the wind of air outlet 11 To meeting the use demand of user.In 100 off-mode of air conditioner, the first wind deflector 2 closing air outlet 11, the second wind-guiding Plate 3 is located at the inner side of the first wind deflector 2, and extends towards the inner side of air outlet 11, and the first wind deflector 2 prolongs with the second wind deflector 3 Stretch direction generally vertically.

In some embodiments of the invention, air conditioner 100 also includes remote control, the control module of air conditioner 100 with it is distant Device communication connection is controlled, control module judges the current operation mode of air conditioner 100 according to telecommand.Control module can receive distant The telecommand for controlling device realizes the oscillating function of the start of air conditioner 100, shutdown, heating, refrigeration, dehumidifier or the first wind deflector 2 Or second wind deflector 3 oscillating function.Thus it is easy to the use of user, meets the use demand of user.

In some embodiments of the invention, as shown in figure 1, the first wind deflector 2 is provided with the first rotary shaft, first rotates Axle is rotatably coupled with housing 1, and the second wind deflector 3 is provided with the second rotary shaft, and the second rotary shaft rotationally connects with housing 1 Connect.Thus it is easy to the first wind deflector 2 to be swung with the second wind deflector 3.Further, the first rotary shaft is located at the first of air outlet 11 Edge 111, the second rotary shaft are located at the second edge 112 of air outlet 11, and the first edge 111 is relative with the second edge 112.Thus The swing between the first wind deflector 2 and the second wind deflector 3 can be avoided to interfere, and the structure of air conditioner 100 can be simplified And processing technology, the production cycle is saved, reduces production cost.

For example, in the example depicted in fig. 1, air outlet 11 includes being spaced apart in the vertical direction and the first relative edge 111 and second edge 112, the first edge 111 be located at the lower section at the second edge 112, the first wind deflector 2 includes the first board body part 21 With the first swing arm 22, the first swing arm 22 is provided with the first rotary shaft, and the first rotary shaft rotationally connects with the first edge 111 Connect, the first swing arm 22 is connected with the inner side of the first board body part 21 to drive the first board body part 21 to swing, wherein the first swing arm 22 include first paragraph 221 and second segment 222, and the first rotary shaft is located at one end of first paragraph 221, one end of second segment 222 and the One section 221 of other end connection, the other end of second segment 222 are connected with the inner side of the first board body part 21, first paragraph 221 and second Angle between section 222 is α, and α meets：0 180 ° of ＜ α ＜, it is preferable that 30 °≤α≤90 °.

Second wind deflector 3 includes the second board body part 31 and the second swing arm 32, and the second swing arm 32 is provided with second and rotated Axle, the second rotary shaft are rotatably coupled with the second edge 112, the second swing arm 32 be connected with the inner side of the second board body part 31 with The second board body part 31 is driven to swing.

In some embodiments of the invention, it is empty as shown in figure 1, the second wind deflector 3 is located at the inner side of the first wind deflector 2 When tune device 100 is in open state, after the first wind deflector 2 is clockwise to the first wind deflector 2 memory angle toward opening direction, The memory angle that second wind deflector 3 turns to the second wind deflector 3 counterclockwise again completes start.When air conditioner 100 is in shutdown shape During state, after the second wind deflector 3 is clockwise to closing angle, the first wind deflector 2 turns to closing angle completion counterclockwise again Shutdown.

It should be noted that the first wind deflector 2 memory angle and the second wind deflector 3 memory angle are respectively to close user's last time The swing orientation angle of corresponding first wind deflector 2 and the second wind deflector 3 after wind direction is fixed in adjustment before machine.

In some embodiments of the invention, air conditioner 100 also includes drive device, drive device and the first wind deflector 2 Connected with the second wind deflector 3 to drive the first wind deflector 2 and the second wind deflector 3 to rotate.Thus it is conveniently adjusted the He of the first wind deflector 2 The swing angle of second wind deflector 3, is easy to the use of user, meets the use demand of user.

Further, drive device is stepper motor, and driving stepper motor the first wind deflector 2 and the second wind deflector 3 are synchronous Rotate.Thus, it is easy to the control of the first wind deflector 2 and the second wind deflector 3.It should be noted that driving stepper motor first is led The synchronous axial system of 2 and second wind deflector of aerofoil 3 refers to drive the first wind deflector 2 in upper extreme position to used time between lower limit position It is identical with to the used time between lower limit position in upper extreme position with the second wind deflector 3 of driving.

Further, the control module of air conditioner 100 is connected with stepper motor, and control module is by controlling stepper motor Port output pulse number and frequency is driven to adjust the rotational angle and velocity of rotation of the first wind deflector 2 and the second wind deflector 3.

In some embodiments of the invention, the first wind deflector 2 and the second wind deflector 3 are waved to the upper limit or lower position When, stop in current location after 1.5s and swung again toward opposite direction.For example, when air conditioner 100 is in heating mode, first leads The swing angle scope of aerofoil 2 is 50 ° to 85 °, and when it is 50 ° that the first wind deflector 2, which swings to angle, the first wind deflector 2 is at this Place stops 1.5s, then clockwise oscillation again, when be rocked to angle for 85 ° when, the first wind deflector 2 stops 1.5s in this place, so Counter-clockwise swing again afterwards, reciprocation cycle.Correspondingly, the swing angle scope of the second wind deflector 3 is 157 ° to 189 °, is led when second Aerofoil 3 swing to angle for 189 ° when, the second wind deflector 3 stops 1.5s in this place, then clockwise oscillation again, when being rocked to angle Spend for 157 ° when, the second wind deflector 3 stops 1.5s in this place, then counter-clockwise swing again, reciprocation cycle.

Storage medium according to embodiments of the present invention, storage medium are stored with the control program of air conditioner, the control of air conditioner Processing procedure sequence realizes the step of control method of air conditioner as described above when being executed by processor.

Storage medium according to embodiments of the present invention, by adjusting the working frequency of compressor, it can prevent air conditioner from going out The phenomenon of condensation is now produced, improves annular comfort level.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe Structure, material or feature are contained at least one embodiment or example of the present invention.In this manual, to above-mentioned term Schematic representation is not necessarily referring to identical embodiment or example.Moreover, specific features, structure, material or the spy of description Point can combine in an appropriate manner in any one or more embodiments or example.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of departing from the principle and objective of the present invention a variety of change, modification, replacement and modification can be carried out to these embodiments, this The scope of invention is limited by claim and its equivalent.

Claims (11)

1. a kind of control method of air conditioner, it is characterised in that the air conditioner includes：

Shell, the shell have air outlet；With

First wind deflector, first wind deflector, which is rotatably arranged at the air outlet, to be sentenced and opens or closes the air outlet；

The control method includes：

S1：Start the air conditioner；

S2：Calculate the first wind deflector swing angle percentage P；

S3：Judge whether the air conditioner enters anti-condensation protected mode；

S4：When the air conditioner is introduced into the anti-condensation protected mode, then return to step S3, enter when the air conditioner described in Anti-condensation protected mode, calculate the target frequency Ft after the compressor frequency reducing of the air conditioner；

S5：Adjust the working frequency of the compressor；

Wherein, it is Amax that first wind deflector, which waves most upper limit angle, and first wind deflector waves most lower limit angle and is Amin, the current orientation angle of the first wind deflector are An, and the current orientation angle of the first wind deflector accounts for swing range angle Percentage P=(Amax-An)/(Amax-Amin) * 100.

2. the control method of air conditioner according to claim 1, it is characterised in that in the step S2, when described After one wind deflector adjusts wind direction in place, the first wind deflector swing angle percentage P is calculated.

3. the control method of air conditioner according to claim 1, it is characterised in that in the step S3, the judgement The decision condition of module is：

C1：The air conditioner is in open state；

C2：The operational mode of the air conditioner is refrigeration mode or dehumidifier pattern；

C3：The first wind deflector swing angle percentage P and the first predetermined threshold value P0 meet：P ＞ P0；

C4：Aptitude tests pattern or forced refrigeration pattern are not opened；

C5：Close the oscillating function of first wind deflector；

C6：The compressor is opened and the actual motion frequency of the compressor is not 0；

When the condition C 1 to C6 is set up simultaneously, carry out the compressor and continuously run timing, when the condition C 1 is into C6 It is at least one invalid when, timing reset, when the condition C 1 to C6 simultaneously set up when reclocking again.

4. the control method of air conditioner according to claim 3, it is characterised in that during the air conditioner free-running operation, institute It is A0 to state the first wind deflector to start to occur to correspond to orientation angle during the minimum critical angle that dew condensation phenomenon lifts, the minimum angles A0 accounts for swing range angle percent P0=(Amax-A0)/(Amax-Amin) * 100.

5. the control method of air conditioner according to claim 3, it is characterised in that in the step S4, when the pressure When contracting machine continuous operating time T and the second predetermined threshold value T0 meet T >=T0, according to the working frequency of the compressor got The target frequency Ft after frequency reducing is calculated by default frequency reducing ratio value and setting constant speed gear.

6. the control method of air conditioner according to claim 5, it is characterised in that outdoor environment temperature T4, freeze volume Capability test frequency is Fr, and refrigeration peak frequency is Fmax, and wind speed limit frequency minimum frequency is Fmin, presets peak frequency limitation Coefficient is Kmax, and predetermined minimum frequency limit coefficient is Kmin, and wind speed setting gear is Kn, when the outdoor environment temperature T4 expires Foot：During T4 >=30 °, the target frequency Ft=Fmin*Kmin+ | Fmax*Kmax-Fmin*Kmin | * Kn；When the outdoor ring Border temperature T4 meets：During 30 ° of T4 ＜, the target frequency Ft=Fmin*Kmin+ | Fr*Kmax-Fmin*Kmin | * Kn.

7. the control method of air conditioner according to claim 3, it is characterised in that in the step S5, when the bar Part C1 to C6 is set up simultaneously, and when carrying out the compressor and continuously running timing, it is the mesh to reduce the compressor operating frequency Frequency Ft is marked, when the condition C 1 is at least one invalid in C6, or timing is reset, controls the work of the compressor Frequency is constant.

8. a kind of air conditioner, it is characterised in that the air conditioner includes shell, the first wind deflector, memory, processor and storage On the memory and the control program of air conditioner that can run on the processor, wherein,

The shell has an air outlet, first wind deflector be rotatably arranged at the air outlet sentence open or close it is described Air outlet；

When the control program of the air conditioner is by the computing device, the sky as any one of claim 1 to 7 is realized The step of adjusting the control method of device.

9. air conditioner according to claim 8, it is characterised in that the air conditioner also includes the second wind deflector, and described Two wind deflectors are rotatably arranged at the air outlet, and second wind deflector is located at the inner side of first wind deflector, described First wind deflector and the second wind deflector synchronous axial system.

10. air conditioner according to claim 8, it is characterised in that the air conditioner also includes drive device, the driving Device is connected with first wind deflector and second wind deflector to drive first wind deflector and second wind deflector Rotate.

11. a kind of storage medium, it is characterised in that the storage medium is stored with the control program of air conditioner, the air conditioner The control program the step of control method of air conditioner as described in claim any one of 1-7 is realized when being executed by processor.