CN108088044A - Air-conditioner control method and air conditioner - Google Patents

Abstract

The present invention discloses a kind of air-conditioner control method and air conditioner, wherein, the air conditioner includes upper wind deflector and lower wind deflector, and the upper wind deflector is arranged on the top of the lower wind deflector；The air-conditioner control method comprises the following steps：Obtain the present mode of operation of air conditioner；When the operational mode is refrigeration mode, the lower wind deflector is controlled to turn to the first predetermined angle, so that the blowing range of the air conditioner is located at the top of User Activity scope；When the operational mode is heating mode, the upper wind deflector is controlled to turn to the second predetermined angle, so that the blowing range of the air conditioner is between the air conditioner and the User Activity scope.Technical solution of the present invention can improve the anti-blow-through effect of air conditioner, improve the comfort of air conditioner.

Description

Air-conditioner control method and air conditioner

Technical field

The present invention relates to air-conditioning technical field, more particularly to a kind of air-conditioner control method and air conditioner.

Background technology

In the operational process of air conditioner, if air-supply blow-through human body, often leading to user has apparent sense of discomfort, affects The usage experience of air conditioner.The air supply direction of air conditioner can be controlled by the variation of wind-guiding Board position, however, such as Fig. 1 and Fig. 2 institutes Show, when adjusting the wind direction in vertical direction by single wind deflector 100 ', in the both sides up and down of wind deflector, there may be send General mood stream, the anti-blow-through effect for causing air conditioner is poor, and comfort reduces.

The content of the invention

The main object of the present invention is to propose a kind of air-conditioner control method, it is intended to solve the anti-blow-through effect of above-mentioned air conditioner The technical issues of poor, improves the comfort of air conditioner.

To achieve the above object, air-conditioner control method proposed by the present invention, comprises the following steps：

Obtain the present mode of operation of air conditioner；

When the operational mode is refrigeration mode, the lower wind deflector is controlled to turn to the first predetermined angle, so that institute The blowing range for stating air conditioner is located at the top of User Activity scope；

When the operational mode is heating mode, the upper wind deflector is controlled to turn to the second predetermined angle, so that institute The blowing range of air conditioner is stated between the air conditioner and the User Activity scope.

Preferably, after the step of obtaining the present mode of operation of air conditioner, the air-conditioner control method further includes Following steps：

When the operational mode is refrigeration mode, the upper wind deflector is controlled in the 3rd predetermined angle and the 4th preset angle It is rotated between degree；And/or

When the operational mode is heating mode, the lower wind deflector is controlled in the 5th predetermined angle and the 6th preset angle It is rotated between degree.

Preferably, after the step of obtaining the present mode of operation of air conditioner, the air-conditioner control method further includes Following steps：

Obtain current indoor temperature and wind pushing temperature；

Compare the indoor temperature and the wind pushing temperature；

When the operational mode is refrigeration mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are more than Or during equal to the first fiducial temperature, it is the first default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is refrigeration mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than During the first fiducial temperature, it is the second default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is heating mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are more than Or during equal to the second fiducial temperature, it is the 3rd default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is heating mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than During the second fiducial temperature, it is the 4th default angle to control the angle between the upper wind deflector and the lower wind deflector；

Wherein, the described first default angle is more than the described second default angle, and the described 3rd default angle is more than described the Four default angles.

Preferably, after the step of obtaining the present mode of operation of air conditioner, the air-conditioner control method further includes Following steps：

When the operational mode be refrigeration mode, and the angle between the upper wind deflector and the lower wind deflector be more than or During equal to the 5th default angle, the air conditioner is controlled with the first default wind speed air-supply；

When the operational mode is refrigeration mode, and the angle between the upper wind deflector and the lower wind deflector is less than the During five default angles, the air conditioner is controlled with the second default wind speed air-supply；

When the operational mode be heating mode, and the angle between the upper wind deflector and the lower wind deflector be more than or During equal to the 6th default angle, the air conditioner is controlled with the 3rd default wind speed air-supply；

When the operational mode is heating mode, and the angle between the upper wind deflector and the lower wind deflector is less than the During six default angles, the air conditioner is controlled with the 4th default wind speed air-supply；

Wherein, the described first default wind speed is more than the described second default wind speed, and the described 3rd default wind speed is more than described the Four default wind speed.

Preferably, when the operational mode is refrigeration mode, the lower wind deflector is controlled to turn to the first preset angle Degree, so that after the step of blowing range of the air conditioner is located at the top of User Activity scope, the air conditioner controlling party Method is further comprising the steps of：

Detect the condensation growing amount at the upper wind deflector and the lower wind deflector；

When the condensation growing amount is greater than or equal to condensation predetermined amount, the operation frequency of the compressor of the air conditioner is reduced Rate or the control upper wind deflector are rotated relative to the lower wind deflector.

Preferably, the upper wind deflector has wind-guiding cambered surface；

When the operational mode is refrigeration mode, the wind-guiding cambered surface is protruded downwards；

When the operational mode is heating mode, the wind-guiding cambered surface is protruded upward.

Preferably, after the step of obtaining the present mode of operation of air conditioner, the air-conditioner control method further includes Following steps：

Obtain current indoor temperature and wind pushing temperature；

Compare the indoor temperature and the wind pushing temperature；

When the indoor temperature and the absolute value of the difference of the wind pushing temperature are greater than or equal to three fiducial temperatures, reduce The running frequency of the compressor of the air conditioner；

When the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than four fiducial temperatures, the pressure is raised The running frequency of contracting machine；

Wherein, the 3rd fiducial temperature is greater than or equal to the 4th fiducial temperature.

Preferably, after the step of obtaining the present mode of operation of air conditioner, the air-conditioner control method further includes Following steps：

When the operational mode is refrigeration mode, the air-supply wind speed of the air conditioner is raised；

When the operational mode is heating mode, the air-supply wind speed of the air conditioner is reduced.

Preferably, the step of present mode of operation of the acquisition air conditioner includes：

Receive anti-blow-through instruction；

It is instructed according to the anti-blow-through, obtains the present mode of operation of air conditioner.

The present invention also proposes a kind of air conditioner, and the air conditioner includes upper wind deflector, lower wind deflector, compressor, air-supply group The air conditioner control program that part, memory, processor and being stored in can be run on the memory and on the processor, In, the upper wind deflector is electrically connected with the processor, to adjust the vertical ventilation direction of the air conditioner；The lower wind-guiding Plate is electrically connected with the processor, and the lower wind deflector is arranged on the lower section of the upper wind deflector, and the lower wind deflector is adjusting The vertical ventilation direction of the air conditioner；The compressor is electrically connected with the processor；The air-supply assembly and the processing Device is electrically connected, to change the air-supply wind speed of the air conditioner；The air conditioner control program is real when being performed by the processor The step of existing air-conditioner control method, the air-conditioner control method comprises the following steps：Obtain the current operation mould of air conditioner Formula；When the operational mode is refrigeration mode, the lower wind deflector is controlled to turn to the first predetermined angle, so that the air-conditioning The blowing range of device is located at the top of User Activity scope；When the operational mode is heating mode, the upper wind-guiding is controlled Plate turns to the second predetermined angle, so that the blowing range of the air conditioner is located at the air conditioner and the User Activity scope Between.

In the technical solution of the present invention, air conditioner includes upper wind deflector and lower wind deflector, and upper wind deflector is arranged on lower wind deflector Top, air-conditioner control method comprises the following steps：Obtain the present mode of operation of air conditioner；When operational mode is refrigeration mould During formula, lower wind deflector is controlled to turn to the first predetermined angle, so that the blowing range of air conditioner is located at the upper of User Activity scope Side；When operational mode is heating mode, wind deflector turns to the second predetermined angle in control, so that the blowing range of air conditioner Between air conditioner and User Activity scope.Due to the mutual cooperation of upper wind deflector and lower wind deflector, make the air-supply of air conditioner Both sides are limited be subject to above and below, so as to greatly reduce gap of the air-supply of air conditioner between wind deflector and air outlet In be directly leaked in the range of User Activity, blowing range can preferably avoid User Activity scope, so as to improve air-conditioning The comfort of device.

Description of the drawings

It in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Structure according to these attached drawings obtains other attached drawings.

Fig. 1 is that the wind deflector of an air conditioner in the prior art is in the side structure schematic view of a position；

Fig. 2 is that the wind deflector of an air conditioner in the prior art is in the side structure schematic view of another location；

Fig. 3 is the flow diagram of air-conditioner control method first embodiment of the present invention；

Fig. 4 is the side structure schematic view of air conditioner under refrigerating state in one embodiment of air conditioner of the present invention；

Fig. 5 is the side structure schematic view of air conditioner under heating state in one embodiment of air conditioner of the present invention；

Fig. 6 is the flow diagram of air-conditioner control method second embodiment of the present invention；

Fig. 7 is the flow diagram of air-conditioner control method 3rd embodiment of the present invention；

Fig. 8 is the flow diagram of air-conditioner control method fourth embodiment of the present invention；

Fig. 9 is the flow diagram of the 5th embodiment of air-conditioner control method of the present invention；

Figure 10 is the flow diagram of air-conditioner control method sixth embodiment of the present invention；

Figure 11 is the flow diagram of the 7th embodiment of air-conditioner control method of the present invention；

Figure 12 is the refinement flow diagram of step S100 in the 8th embodiment of air-conditioner control method of the present invention；

Figure 13 is the structure diagram of air conditioner in one embodiment of air conditioner of the present invention.

Wherein, dotted arrow represents air supply direction.

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only the part of the embodiment of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained without creative efforts it is all its His embodiment, belongs to the scope of protection of the invention.

If it is to be appreciated that related in the embodiment of the present invention directionality instruction (such as up, down, left, right, before and after ...), Then directionality instruction be only used for explaining relative position relation under a certain particular pose (as shown in drawings) between each component, Motion conditions etc., if the particular pose changes, directionality instruction also correspondingly changes correspondingly.

If in addition, relating to the description of " first ", " second " etc. in the embodiment of the present invention, " first ", " second " etc. are somebody's turn to do Description be only used for description purpose, and it is not intended that instruction or implying its relative importance or implicit indicating indicated skill The quantity of art feature." first " is defined as a result, and the feature of " second " can be expressed or implicitly includes at least one spy Sign.In addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy Based on enough realizations, the knot of this technical solution is will be understood that when the combination appearance of technical solution is conflicting or can not realize Conjunction is not present, also not the present invention claims protection domain within.

The present invention proposes a kind of air-conditioner control method.

In the first embodiment of the present invention, as shown in Figures 3 to 5, air conditioner includes upper wind deflector 110 and lower wind deflector 120, upper wind deflector 110 is arranged on the top of lower wind deflector 120；

Air-conditioner control method comprises the following steps：

Step S100, the present mode of operation of air conditioner is obtained；

The operational mode of air conditioner includes refrigeration mode and heating mode.In cooling mode, the wind pushing temperature of air conditioner Less than or equal to indoor temperature, under gravity, air-supply air-flow tends to sink；In a heating mode, air conditioner is sent Air temperature is greater than or equal to indoor temperature, and under the action of buoyancy, air-supply air-flow tends to float.By obtaining working as air conditioner Preceding operational mode is conducive in subsequent adjustment during wind deflector and lower wind deflector rotational angle, with reference to air-supply air-flow Blowing range is adjusted in physical property.

Step S210, when operational mode is refrigeration mode, lower wind deflector is controlled to turn to the first predetermined angle, so that empty The blowing range of device is adjusted to be located at the top of User Activity scope；

As shown in figure 4, when operational mode is refrigeration mode, lower wind deflector is controlled to turn to the first predetermined angle, makes to send The cold air gone out flows up, simultaneously as cold air density is larger, will tend to sink under the effect of gravity.Air conditioner Blowing range is located at the top of User Activity scope, avoids air-supply blow-through human body, and during cold air sinks, it is indoor Temperature will continuously decrease, to realize the refrigeration effect of air conditioner.Due to barrier effect of the lower wind deflector on the downside of air outlet, avoid Cold air is leaked into directly down among User Activity scope, so as to improve anti-blow-through effect, improves relaxing for air conditioner Adaptive.

Step S220, when operational mode is heating mode, wind deflector turns to the second predetermined angle in control, so that empty The blowing range of device is adjusted between air conditioner and User Activity scope.

As shown in figure 5, when operational mode is heating mode, wind deflector turns to the second predetermined angle in control, makes to send The hot-air gone out is to nearby flowing underneath, simultaneously as hot-air density is smaller, tends to float under buoyancy.Air-conditioning The blowing range of device avoids air-supply blow-through human body between air conditioner and User Activity scope, and float in hot-air In the process, indoor temperature will gradually rise, to realize the heating effect of air conditioner.Due to resistance of the upper wind deflector on the upside of air outlet Gear acts on, and avoids hot-air and leaks into directly up among User Activity scope, so as to improve anti-blow-through effect, improves The comfort of air conditioner.

In the present embodiment, air conditioner includes upper wind deflector 110 and lower wind deflector 120, and upper wind deflector 110 is arranged on lower wind-guiding The top of plate 120, air-conditioner control method comprise the following steps：Obtain the present mode of operation of air conditioner；When operational mode is During refrigeration mode, lower wind deflector is controlled to turn to the first predetermined angle, so that the blowing range of air conditioner is located at User Activity model The top enclosed；When operational mode is heating mode, wind deflector turns to the second predetermined angle in control, so that air conditioner is sent Demeanour is enclosed between air conditioner and User Activity scope.Due to the mutual cooperation of upper wind deflector 110 and lower wind deflector 120, make The air-supply of air conditioner is limited both sides be subject to above and below, so as to greatly reduce the air-supply of air conditioner from wind deflector and air-supply It being directly leaked in gap between mouthful in the range of User Activity, blowing range can preferably avoid User Activity scope, from And improve the comfort of air conditioner.

In the second embodiment of the present invention, as shown in fig. 6, after step sloo, air-conditioner control method further includes Following steps：

Step S310, when operational mode is refrigeration mode, wind deflector is default in the 3rd predetermined angle and the 4th in control It is rotated between angle；And/or

Step S320, when operational mode is heating mode, control lower wind deflector default in the 5th predetermined angle and the 6th It is rotated between angle.

In the present embodiment, by controlling the rotation of upper wind deflector or lower wind deflector, air supplying distance is adjusted, promotes Interior Space The cycling of gas, to improve the uniformity of indoor temperature.Specifically, when operational mode is refrigeration mode, since lower wind deflector turns It moves to the first predetermined angle and blows, so that blowing range is limited in the top of User Activity scope, further pass through control Upper wind deflector rotates between the 3rd predetermined angle and the 4th predetermined angle, may advantageously facilitate the stream of the air-flow in blowing range It is dynamic, to promote the uniformity coefficient of indoor temperature.Wherein, the upper wind deflector that the 3rd predetermined angle and the 4th predetermined angle are limited Slewing area, so that blowing range has subject to appropriate air supplying distance.When the angle of upper wind deflector and vertical direction is smaller, Air supplying distance is nearer, to indoor moveable after being reflected with ceiling collision；When the angle of upper wind deflector and vertical direction is larger, Air supplying distance farther out, and is possible to returning to User Activity region after wall collisions reflection farther out.In a specific example, 3rd predetermined angle can be set to less than 20 °, and the 4th predetermined angle can be set between 40 °~90 °, so that air conditioner has properly Air supplying distance.Also, by the reflection of ceiling or wall, wind sense can also be effectively reduced, while promotes room air Xun Huan, to improve the comfort of air conditioner.When operational mode is heating mode, since upper wind deflector turns to the second preset angle Degree air-supply, so that blowing range is limited between air conditioner and User Activity scope, further by controlling lower wind deflector It is rotated between the 5th predetermined angle and the 6th predetermined angle, may advantageously facilitate the flowing of blowing range interior air-flow, to promote room The uniformity coefficient of interior temperature.Wherein, the slewing area for the lower wind deflector that the 5th predetermined angle and the 6th predetermined angle are limited, with Blowing range is made to have subject to appropriate air supplying distance.Instantly when the angle of wind deflector and vertical direction is smaller, air supplying distance compared with Closely, the speed that hot air-supply air-flow is spread in the range of User Activity is slower, and the angle of wind deflector and vertical direction is larger instantly When, air supplying distance farther out, the speed that hot air-supply air-flow is spread in the range of User Activity.In a specific example, the Five predetermined angles can be set to less than 10 °, and the 6th predetermined angle is with the increase of the distance between air conditioner and User Activity scope And increase, it can be set between 15 °~30 °.

In the third embodiment of the present invention, as shown in fig. 7, after step sloo, air-conditioner control method further includes Following steps：

Step S410, current indoor temperature and wind pushing temperature are obtained；

Step S420, indoor temperature and wind pushing temperature are compared；

Step S431, when operational mode be refrigeration mode, and indoor temperature and the absolute value of the difference of wind pushing temperature be more than or During equal to the first fiducial temperature, it is the first default angle to control the angle between wind deflector and lower wind deflector；

Step S432, when operational mode is refrigeration mode, and indoor temperature and the absolute value of the difference of wind pushing temperature are less than the During one fiducial temperature, it is the second default angle to control the angle between wind deflector and lower wind deflector；

Step S433, when operational mode be heating mode, and indoor temperature and the absolute value of the difference of wind pushing temperature be more than or During equal to the second fiducial temperature, it is the 3rd default angle to control the angle between wind deflector and lower wind deflector；

Step S434, when operational mode is heating mode, and indoor temperature and the absolute value of the difference of wind pushing temperature are less than the During two fiducial temperatures, it is the 4th default angle to control the angle between wind deflector and lower wind deflector.

Wherein, the first default angle is more than the second default angle, and the 3rd default angle is more than the 4th default angle.User institute The wind sense experienced is related to the difference between wind pushing temperature and indoor temperature, when the difference of wind pushing temperature and indoor temperature is larger When, the wind sense that user may experience also accordingly increases.In order to improve user experience, reduce its wind sense, according to wind pushing temperature and The absolute value of the difference of indoor temperature adjusts upper angle between wind deflector and lower wind deflector, with upper wind deflector and small wind deflector it Between angle increase, the wind sense that user experiences will reduce, to make up due to the difference band between wind pushing temperature and indoor temperature The wind sense variation come.Specifically, with the increase of indoor temperature and the absolute value of the difference of wind pushing temperature, the appropriate upper wind deflector of increase Angle between lower wind deflector, to improve the comfort of air conditioner.

In the fourth embodiment of the present invention, as shown in figure 8, after step sloo, air-conditioner control method further includes Following steps：

Step S510, when operational mode is refrigeration mode, and the angle between upper wind deflector and lower wind deflector is more than or waits When the 5th default angle, control air conditioner is with the first default wind speed air-supply；

Step S520, when operational mode be refrigeration mode, and the angle between upper wind deflector and lower wind deflector be less than the 5th During default angle, control air conditioner is with the second default wind speed air-supply；

Step S530, when operational mode is heating mode, and the angle between upper wind deflector and lower wind deflector is more than or waits When the 6th default angle, control air conditioner is with the 3rd default wind speed air-supply；

Step S540, when operational mode be heating mode, and the angle between upper wind deflector and lower wind deflector be less than the 6th During default angle, control air conditioner is with the 4th default wind speed air-supply.

Wherein, the first default wind speed is more than the second default wind speed, and the 3rd default wind speed is more than the 4th default wind speed.In air-conditioning In device, default wind speed is determined by the air-supply assembly of air conditioner, however the wind speed of air outlet reality not only with default wind speed Related, the angle also between upper wind deflector and lower wind deflector is related, with the angle between upper wind deflector and lower wind deflector Increase, the wind speed of air outlet reality will reduce.Therefore, in the present embodiment, in order to balance the folder of upper wind deflector and lower wind deflector The variation for the actual wind speed that angle variation is brought makes air conditioner reduce the wind sense of user while effective refrigeration or heating, with Angle increase between upper wind deflector and lower wind deflector, the appropriate default wind speed for reducing air conditioner air-supply, to improve air conditioner Comfort.

In the fifth embodiment of the present invention, as shown in figure 9, after step S210, air-conditioner control method further includes Following steps：

Step S610, the condensation growing amount at upper wind deflector and lower wind deflector is detected；

Step S620, when condensation growing amount is greater than or equal to condensation predetermined amount, the operation of the compressor of air conditioner is reduced Frequency or the upper wind deflector of control are rotated relative to lower wind deflector.

When air conditioner operates in refrigeration mode, particularly at the upper wind deflector and lower wind deflector of close air outlet, room The air-supply of the vapor and lower temperature of interior higher temperature is met, easy condensation liquefaction and generate condensation, influence air conditioner relax Adaptive.Therefore, in the present embodiment, when air conditioner operates in refrigeration mode, by detecting upper wind deflector and lower wind deflector Condensation growing amount when condensation growing amount is greater than or equal to condensation predetermined amount, shows to need the condensation progress to air conditioner at this time Processing, in order to avoid influence comfort.Specifically, the system of air conditioner by the running frequency for the compressor for reducing air conditioner, can be reduced Cold, to reduce the temperature difference between wind pushing temperature and indoor temperature, so as to reduce the generation of condensation.Alternatively, by being led in control Aerofoil is rotated relative to lower wind deflector, in the case where ensureing that blowing range is located above User Activity scope, at air outlet Air-flow is disturbed, and to destroy the air-flow environment of the stabilization of condensation generation, so as to reduce the generation of condensation, and is promoted raw Into condensation vaporization.It is of course also possible to the running frequency of compressor is reduced simultaneously and controls upper wind deflector that wind deflector is played to turn relatively It is dynamic, to reduce the generation of condensation.

In the sixth embodiment of the present invention, as shown in Figure 10, after step sloo, air-conditioner control method further includes Following steps：

Step S710, current indoor temperature and wind pushing temperature are obtained；

Step S720, indoor temperature and wind pushing temperature are compared；

Step S730, when indoor temperature and the absolute value of the difference of wind pushing temperature are greater than or equal to three fiducial temperatures, drop The running frequency of the compressor of low air conditioner；

Step S740, when indoor temperature and the absolute value of the difference of wind pushing temperature are less than four fiducial temperatures, rise compression The running frequency of machine.

Wherein, the 3rd fiducial temperature is greater than or equal to the 4th fiducial temperature.The wind sense experienced due to user and Indoor Temperature Difference between degree and wind pushing temperature is related, therefore, when the absolute value of the difference of indoor temperature and wind pushing temperature is larger, passes through drop The running frequency of low compressor reduces the refrigeration or heating capacity of air conditioner, to reduce between indoor temperature and wind pushing temperature Absolute value of the difference, so as to reduce the wind sense of user.When the absolute value of the difference of indoor temperature and wind pushing temperature is smaller, pass through rise The running frequency of compressor enhances the refrigeration or heating capacity of air conditioner, so as to ensure air conditioner in the case that wind sense is smaller Refrigeration or heating effect.When indoor temperature and the absolute value of the difference of wind pushing temperature are in the 3rd fiducial temperature and the 4th default temperature It when between difference, can select not adjusting the running frequency of compressor, cause the longevity of compressor to avoid the frequent running frequency that adjusts Life reduces；It is of course also possible to select to carry out the running frequency of compressor appropriate adjusting, specific regulative mode can refer to The increase of indoor temperature and the absolute value of the difference of wind pushing temperature, the appropriate refrigeration for reducing air conditioner or heating capacity are carried out.It is logical In the case of often, preferentially by changing the angulation change air supply direction of upper wind deflector to reduce wind sense, and temperature and air-supply indoors In the case that the difference of temperature is larger, then it is aided with and changes the mode of compressor operating frequency and reduce wind sense, reduces compressor The variation of running frequency, extends the service life of compressor, while avoids air-supply blow-through user, improves the comfort of air conditioner.

In the seventh embodiment of the present invention, as shown in figure 11, after step sloo, air-conditioner control method further includes Following steps：

Step S810, when operational mode is refrigeration mode, the air-supply wind speed of air conditioner is raised；

Step S820, when operational mode is heating mode, the air-supply wind speed of air conditioner is reduced.

In the present embodiment, while the air supply direction of air conditioner is controlled, by adjusting the air-supply wind speed of air conditioner, with Wind sense is reduced, avoids air-supply blow-through user, improves the comfort of air conditioner.Specifically, when air conditioner is in refrigeration mode, such as Shown in Fig. 4, since cold air is sent out upwards, by raising the air-supply wind speed of air conditioner, make air supplying distance farther, so as to keep away User Activity scope is opened, in order to avoid blow-through user.When air conditioner is in heating mode, as shown in figure 5, since hot-air is downward It sends out, by reducing the air-supply wind speed of air conditioner, reduces air supplying distance, to avoid User Activity scope, in order to avoid blow-through user.

In the eighth embodiment of the present invention, as shown in figure 12, step S100 includes：

Step S110, anti-blow-through instruction is received；

Step S120, instructed according to anti-blow-through, obtain the present mode of operation of air conditioner.

In the present embodiment, air conditioner prevents that the operating status of blow-through user from being according to anti-blow-through instruction triggers.Wherein, Anti- blow-through instruction can be sent by user by the button on remote controler or key group, can also be current according to it by air conditioner Operating status or operational mode automatically generate.For example, in a specific example, anti-blow-through work(is set on the remote controler of air conditioner Energy key, user is by pressing anti-blow-through function key, you can sends anti-blow-through instruction.In another specific example, the fortune of air conditioner Row pattern includes keeping away people's pattern, and when air conditioner, which operates in, keeps away people's pattern, air conditioner is according to the anti-blow-through of the automatic pattern generation Instruction, to avoid directly blowing to human body.Further, anti-blow-through instruction can also include the identity information of user, for example, root According to motion characteristic of the biological characteristics such as key group corresponding with identity information, the fingerprint of user or user's operation remote controler etc., know Other user identity, in subsequent steps, according to user identity, the upper wind deflector and/or lower wind deflector for controlling air conditioner rotate To predetermined angle corresponding with user identity, to meet the individual demand of different user.

In the above embodiment of the present invention, as shown in Figure 4 and Figure 5, upper wind deflector has wind-guiding cambered surface；Work as operational mode For refrigeration mode when, wind-guiding cambered surface is protruded downwards；When operational mode is heating mode, wind-guiding cambered surface is protruded upward.It is logical The effect of wind-guiding cambered surface is crossed, when air conditioner operates in refrigeration mode, guiding air-supply air-flow flows up, and is operated in air conditioner During heating mode, guiding air-supply air-flow flows downward, after avoiding air-supply air-flow in outflow between wind deflector and lower wind deflector Rapidly to external diffusion, preferably to limit blowing range, air-supply blow-through user is avoided.

The present invention also proposes a kind of air conditioner, as Figure 13 air conditioners include upper wind deflector 110, lower wind deflector 120, compressor 200th, air-supply assembly 300, memory 400, processor 500, wherein, upper wind deflector 110 is electrically connected with processor 500, to adjust Save the vertical ventilation direction of air conditioner；Lower wind deflector 120 is electrically connected with processor 500, and lower wind deflector 120 is arranged on upper wind deflector 110 lower section, lower wind deflector 120 is adjusting the vertical ventilation direction of air conditioner；Compressor 200 is electrically connected with processor 500, Compressor 200 drives refrigerant to be cycled in refrigerant circulation circuit, freezes or heats to realize；Air-supply assembly 300 and processor 500 Electrical connection, to change the air-supply wind speed of air conditioner.

Further, upper wind deflector 110 is arranged on the part of the air outlet inside partially of air conditioner, and lower wind deflector 120 is arranged on sky The part in the air outlet outside partially of device is adjusted, when air conditioner is closed, lower wind deflector 120 is located at outside upper wind deflector 110 Side, and the outer surface of lower wind deflector 120 is consistent with the case face shape of air conditioner, so that the outer surface of air conditioner is more beautiful It sees.

Processor 500 calls the air conditioner control program being stored in memory 400, performs following operation：

Obtain the present mode of operation of air conditioner；

When operational mode is refrigeration mode, lower wind deflector is controlled to turn to the first predetermined angle, so that air conditioner is sent Demeanour is enclosed positioned at the top of User Activity scope；

When operational mode is heating mode, wind deflector turns to the second predetermined angle in control, so that air conditioner is sent Demeanour is enclosed between air conditioner and User Activity scope.

Processor 500 calls the air conditioner control program being stored in memory 400, is obtaining the current operation of air conditioner After the operation of pattern, following operation is also performed：

When operational mode is refrigeration mode, wind deflector turns between the 3rd predetermined angle and the 4th predetermined angle in control It is dynamic；And/or

When operational mode is heating mode, lower wind deflector is controlled to turn between the 5th predetermined angle and the 6th predetermined angle It is dynamic.

Processor 500 calls the air conditioner control program being stored in memory 400, is obtaining the current operation of air conditioner After the operation of pattern, following operation is also performed：

Obtain current indoor temperature and wind pushing temperature；

Compare indoor temperature and wind pushing temperature；

When operational mode is refrigeration mode, and to be greater than or equal to first pre- for indoor temperature and the absolute value of the difference of wind pushing temperature If during the temperature difference, it is the first default angle to control the angle between wind deflector and lower wind deflector；

When operational mode is refrigeration mode, and indoor temperature and the absolute value of the difference of wind pushing temperature are less than the first fiducial temperature When, it is the second default angle to control the angle between wind deflector and lower wind deflector；

When operational mode is heating mode, and to be greater than or equal to second pre- for indoor temperature and the absolute value of the difference of wind pushing temperature If during the temperature difference, it is the 3rd default angle to control the angle between wind deflector and lower wind deflector；

When operational mode is heating mode, and indoor temperature and the absolute value of the difference of wind pushing temperature are less than the second fiducial temperature When, it is the 4th default angle to control the angle between wind deflector and lower wind deflector；

Wherein, the first default angle is more than the second default angle, and the 3rd default angle is more than the 4th default angle.

Processor 500 calls the air conditioner control program being stored in memory 400, is obtaining the current operation of air conditioner After the operation of pattern, following operation is also performed：

When operational mode is refrigeration mode, and to be greater than or equal to the 5th default for the angle between upper wind deflector and lower wind deflector During angle, control air conditioner is with the first default wind speed air-supply；

When operational mode is refrigeration mode, and the angle between upper wind deflector and lower wind deflector is less than the 5th default angle When, control air conditioner is with the second default wind speed air-supply；

When operational mode is heating mode, and to be greater than or equal to the 6th default for the angle between upper wind deflector and lower wind deflector During angle, control air conditioner is with the 3rd default wind speed air-supply；

When operational mode is heating mode, and the angle between upper wind deflector and lower wind deflector is less than the 6th default angle When, control air conditioner is with the 4th default wind speed air-supply；

Wherein, the first default wind speed is more than the second default wind speed, and the 3rd default wind speed is more than the 4th default wind speed.

Processor 500 calls the air conditioner control program being stored in memory 400, is being refrigeration mode when operational mode When, lower wind deflector is controlled to turn to the first predetermined angle, so that the blowing range of air conditioner is located at the top of User Activity scope Operation after, also perform following operation：

Condensation growing amount in detection at wind deflector and lower wind deflector；

When condensation growing amount is greater than or equal to condensation predetermined amount, running frequency or the control of the compressor of air conditioner are reduced Wind deflector is rotated relative to lower wind deflector in system.

Processor 500 calls the air conditioner control program being stored in memory 400, and upper wind deflector has wind-guiding cambered surface；

When operational mode is refrigeration mode, wind-guiding cambered surface is protruded downwards；

When operational mode is heating mode, wind-guiding cambered surface is protruded upward.

Processor 500 calls the air conditioner control program being stored in memory 400, is obtaining the current operation of air conditioner After the operation of pattern, following operation is also performed：

Obtain current indoor temperature and wind pushing temperature；

Compare indoor temperature and wind pushing temperature；

When indoor temperature and the absolute value of the difference of wind pushing temperature are greater than or equal to three fiducial temperatures, air conditioner is reduced The running frequency of compressor；

When indoor temperature and the absolute value of the difference of wind pushing temperature are less than four fiducial temperatures, the operation frequency of compressor is raised Rate；

Wherein, the 3rd fiducial temperature is greater than or equal to the 4th fiducial temperature.

Processor 500 calls the air conditioner control program being stored in memory 400, is obtaining the current operation of air conditioner After the operation of pattern, following operation is also performed：

When operational mode is refrigeration mode, the air-supply wind speed of air conditioner is raised；

When operational mode is heating mode, the air-supply wind speed of air conditioner is reduced.

Processor 500 calls the air conditioner control program being stored in memory 400, obtains the current operation mould of air conditioner The operation of formula includes：

Receive anti-blow-through instruction；

It is instructed according to anti-blow-through, obtains the present mode of operation of air conditioner.

The foregoing is merely the preferred embodiment of the present invention, are not intended to limit the scope of the invention, every at this The equivalent structure transformation made under the inventive concept of invention using description of the invention and accompanying drawing content or directly/utilization indirectly It is included in other related technical areas in the scope of patent protection of the present invention.

Claims (10)

1. a kind of air-conditioner control method, which is characterized in that the air conditioner include upper wind deflector and lower wind deflector, it is described on lead Aerofoil is arranged on the top of the lower wind deflector；

The air-conditioner control method comprises the following steps：

Obtain the present mode of operation of air conditioner；

When the operational mode is refrigeration mode, the lower wind deflector is controlled to turn to the first predetermined angle, so that the sky The blowing range of device is adjusted to be located at the top of User Activity scope；

When the operational mode is heating mode, the upper wind deflector is controlled to turn to the second predetermined angle, so that the sky The blowing range of device is adjusted between the air conditioner and the User Activity scope.

2. air-conditioner control method as described in claim 1, which is characterized in that obtaining the present mode of operation of air conditioner After step, the air-conditioner control method is further comprising the steps of：

When the operational mode is refrigeration mode, control the upper wind deflector the 3rd predetermined angle and the 4th predetermined angle it Between rotate；And/or

When the operational mode is heating mode, control the lower wind deflector the 5th predetermined angle and the 6th predetermined angle it Between rotate.

3. air-conditioner control method as described in claim 1, which is characterized in that obtaining the present mode of operation of air conditioner After step, the air-conditioner control method is further comprising the steps of：

Obtain current indoor temperature and wind pushing temperature；

Compare the indoor temperature and the wind pushing temperature；

When the operational mode is refrigeration mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are more than or wait When the first fiducial temperature, it is the first default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is refrigeration mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than first During fiducial temperature, it is the second default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is heating mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are more than or wait When the second fiducial temperature, it is the 3rd default angle to control the angle between the upper wind deflector and the lower wind deflector；

When the operational mode is heating mode, and the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than second During fiducial temperature, it is the 4th default angle to control the angle between the upper wind deflector and the lower wind deflector；

Wherein, the described first default angle is more than the described second default angle, and it is pre- that the described 3rd default angle is more than the described 4th If angle.

4. air-conditioner control method as described in claim 1, which is characterized in that obtaining the present mode of operation of air conditioner After step, the air-conditioner control method is further comprising the steps of：

When the operational mode is refrigeration mode, and the angle between the upper wind deflector and the lower wind deflector is greater than or equal to During the 5th default angle, the air conditioner is controlled with the first default wind speed air-supply；

When the operational mode is refrigeration mode, and to be less than the 5th pre- for the angle between the upper wind deflector and the lower wind deflector If during angle, the air conditioner is controlled with the second default wind speed air-supply；

When the operational mode is heating mode, and the angle between the upper wind deflector and the lower wind deflector is greater than or equal to During the 6th default angle, the air conditioner is controlled with the 3rd default wind speed air-supply；

When the operational mode is heating mode, and to be less than the 6th pre- for the angle between the upper wind deflector and the lower wind deflector If during angle, the air conditioner is controlled with the 4th default wind speed air-supply；

Wherein, the described first default wind speed is more than the described second default wind speed, and it is pre- that the described 3rd default wind speed is more than the described 4th If wind speed.

5. air-conditioner control method as described in claim 1, which is characterized in that be refrigeration mode when the operational mode When, the lower wind deflector is controlled to turn to the first predetermined angle, so that the blowing range of the air conditioner is located at User Activity model After the step of top enclosed, the air-conditioner control method is further comprising the steps of：

Detect the condensation growing amount at the upper wind deflector and the lower wind deflector；

When the condensation growing amount is greater than or equal to condensation predetermined amount, the running frequency of the compressor of the air conditioner is reduced, Or the control upper wind deflector is rotated relative to the lower wind deflector.

6. air-conditioner control method as described in claim 1, which is characterized in that the upper wind deflector has wind-guiding cambered surface；

When the operational mode is refrigeration mode, the wind-guiding cambered surface is protruded downwards；

When the operational mode is heating mode, the wind-guiding cambered surface is protruded upward.

7. air-conditioner control method as described in claim 1, which is characterized in that obtaining the present mode of operation of air conditioner After step, the air-conditioner control method is further comprising the steps of：

Obtain current indoor temperature and wind pushing temperature；

Compare the indoor temperature and the wind pushing temperature；

When the indoor temperature and the absolute value of the difference of the wind pushing temperature are greater than or equal to three fiducial temperatures, described in reduction The running frequency of the compressor of air conditioner；

When the indoor temperature and the absolute value of the difference of the wind pushing temperature are less than four fiducial temperatures, the compressor is raised Running frequency；

Wherein, the 3rd fiducial temperature is greater than or equal to the 4th fiducial temperature.

8. air-conditioner control method as described in claim 1, which is characterized in that obtaining the present mode of operation of air conditioner After step, the air-conditioner control method is further comprising the steps of：

When the operational mode is refrigeration mode, the air-supply wind speed of the air conditioner is raised；

When the operational mode is heating mode, the air-supply wind speed of the air conditioner is reduced.

9. such as air-conditioner control method described in any item of the claim 1 to 8, which is characterized in that the acquisition air conditioner The step of present mode of operation, includes：

Receive anti-blow-through instruction；

It is instructed according to the anti-blow-through, obtains the present mode of operation of air conditioner.

10. a kind of air conditioner, which is characterized in that the air conditioner include upper wind deflector, lower wind deflector, compressor, air-supply assembly, The air conditioner control program that memory, processor and being stored in can be run on the memory and on the processor, wherein,

The upper wind deflector is electrically connected with the processor, to adjust the vertical ventilation direction of the air conditioner；

The lower wind deflector is electrically connected with the processor, and the lower wind deflector is arranged on the lower section of the upper wind deflector, under described Wind deflector is adjusting the vertical ventilation direction of the air conditioner；

The compressor is electrically connected with the processor；

The air-supply assembly is electrically connected with the processor, to change the air-supply wind speed of the air conditioner；

The air conditioner control program realizes air-conditioning as claimed in any one of claims 1-9 wherein when being performed by the processor The step of device control method.