CN110454962A - control method of air conditioner - Google Patents

Abstract

The invention provides a control method of an air conditioner, which comprises the following steps: a starting-up step: enabling the air deflector assembly to open an air outlet of the air conditioner; selecting a working mode: the air conditioner works in a cooling mode or a heating mode, when the air conditioner works in the cooling mode, the air deflector assembly supplies air at an air supply angle 1, and when the air conditioner works in the heating mode, the air deflector assembly supplies air at an air supply angle 2; a detection control step: and detecting the position of indoor personnel and adjusting the air conditioner to enable the air guide plate assembly to work in a mode that wind does not directly blow people, a mode of increasing wind speed or a mode of sweeping wind. The invention can achieve the effects of not directly blowing the wind to people, enhancing the wind speed or adjusting the wind supply distance by controlling the angle of the wind deflector.

Description

The control method of air conditioner

Technical field

The present invention relates to air-conditioning technical fields, in particular to a kind of control method of air conditioner.

Background technique

More wall-hanger air conditioner air deflector it includes air-conditioning driving box motor internal and is pushed away using movement mechanism is released at present Link rod head motor out, driving box motor internal wind deflector spindle central is released, with avoid wind deflector in rotary course It is related to air-conditioning panel soma, 360 ° of link rod head motor driven wind deflector rotations.Therefore available one piece of wind deflector realize upwards and Air-supply demand downwards, and can realize that air outlet is totally-enclosed when wind deflector is withdrawn

The wind deflector that the wind deflector of above-mentioned air conditioner releases movement mechanism is single layer wind deflector, and the width of wind deflector will not It changes, it is insufficient that there are cold wind air supplying distances, hot wind air inlet effect deficiency and link rod head motor lines reliability deficiency etc. Problem.

Occur some double-deck wind deflector structures on the market, but do not control effectively to this double-deck wind deflector, In operational process, it is easy to appear not in place or catching phenomenon of blowing.

Summary of the invention

The main purpose of the present invention is to provide a kind of control methods of air conditioner, can be to the double-deck wind deflector of air conditioner Structure control effectively.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of control method of air conditioner, described Air conditioner includes air deflection assemblies and driving assembly, and the air deflection assemblies include the first wind deflector and the second wind deflector, described First wind deflector is arranged on second wind deflector, and first wind deflector has the collapsed in second wind deflector One position and protrude from the outer peripheral second position of the second wind deflector；The driving component includes the first driving portion and second Driving portion, first driving portion and first wind deflector are drivingly connected, second driving portion and second wind deflector It is drivingly connected；The control method of the air conditioner includes: booting step: making the air deflection assemblies by the outlet air of the air conditioner Mouth is opened；Operating mode selects step: so that the air conditioner is worked or is worked in cooling mode in a heating mode, works as institute When stating air conditioner and working in cooling mode, the air deflection assemblies are made to blow under wind direction 1, when the air conditioner is being made When working under heat pattern, the air deflection assemblies is made to blow under wind direction 2；Detect rate-determining steps: detection indoor occupant position Set and to the air conditioner be adjusted such that the air deflection assemblies wind not blow-through people mode or increase wind speed mode or It works under person's swing flap mode.

Further, when the air conditioner works under the wind not blow-through people mode: described in indoor occupant distance When the distance of air conditioner is greater than X, the air deflection assemblies is made to blow under wind direction 2；When indoor occupant is apart from the air-conditioning When the distance of device is less than or equal to X, the air deflection assemblies is made to blow under wind direction 1.

Further, first driving portion includes: first connecting rod, and the first end of the first connecting rod is led with described first Aerofoil is pivotally connected；First delivery device, first delivery device and the first connecting rod are drivingly connected to push described the One link motion；Second driving portion includes: second connecting rod, the first end of the second connecting rod and the second wind deflector pivot Turn connection；Second delivery device, second delivery device and the second connecting rod are drivingly connected to push the second connecting rod Movement；When the air deflection assemblies are blown under wind direction 2, wind people has been detected whether, if so, then making described second Connecting rod pushes forward, and makes the first connecting rod to after-contraction, until reaching wind does not blow people.

Further, when working under wind direction 2 when the air deflection assemblies, wind people has been detected whether, if so, It pushes the first connecting rod forward, and remains stationary the second connecting rod, until reaching wind does not blow people.

Further, when air conditioner work is under the increasing wind speed mode, according to personnel from the air conditioner Distance, selection so that the air deflection assemblies is blown under wind direction 1 or wind direction 2.

Further, it is described after selection makes the air deflection assemblies work under wind direction 1 or wind direction 2 The control method of air conditioner further includes reducing first wind deflector to protrude the outer peripheral distance of the second wind deflector, adjusts wind To alignment personnel positions.

Further, remote from the air conditioner according to personnel when air conditioner work is under the swing flap mode Closely, the blowing range of the air conditioner is adjusted.

Further, make the air deflection assemblies work in the control process of wind direction 1 are as follows: in the air deflection assemblies After the air outlet of the air conditioner is opened, release the first connecting rod continuation forward, the second connecting rod remains stationary, from And rotate second wind deflector centered on the hinge joint of second wind deflector and the second connecting rod, until described the Stopping when two wind deflectors are in a horizontal position pushes first wind deflector to slide forward using the first connecting rod at this time, from And first wind deflector is made to protrude from the outer edge of second wind deflector.

Further, make the air deflection assemblies work in the control process of wind direction 2 are as follows: in the air deflection assemblies After the air outlet of the air conditioner is opened, push the first connecting rod continuation forward, the second connecting rod to after-contraction, from And first wind deflector is integrally overturn, second wind deflector is toward after-contraction.

Further, under the swing flap mode, the first connecting rod and the second connecting rod is made to release contraction back and forth real Existing swing flap.

It applies the technical scheme of the present invention, wind deflector through the invention releases the effect of movement mechanism, can be in air-conditioning Device increases the width of air deflection assemblies when being in refrigerating state, extend the air supplying distance of air deflection assemblies, additionally it is possible in air conditioner The collection wind effect that air deflection assemblies are improved when in heating, enables hot wind quickly to land.It simultaneously can be by controlling wind deflector Angle can reach wind not blow-through people, or enhancing wind speed or the effect for adjusting air supplying distance.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 diagrammatically illustrate air conditioner of the invention air deflection assemblies it is in the closed position when side view；

Fig. 2 diagrammatically illustrate air conditioner of the invention air deflection assemblies it is in an open position when side view；

The air deflection assemblies that Fig. 3 diagrammatically illustrates air conditioner of the invention are in side view when upper air supply position；

The air deflection assemblies that Fig. 4 diagrammatically illustrates air conditioner of the invention are in the side view that lower air supply position is；

Fig. 5 diagrammatically illustrates the flow chart of the control method of air conditioner of the invention.

Wherein, the above drawings include the following reference numerals:

10, air deflection assemblies；11, the first wind deflector；12, the second wind deflector；121, sliding slot；21, the first driving portion；211, First connecting rod；212, the first delivery device；2121, the first rack gear；2122, first gear；22, the second driving portion；221, second Connecting rod；222, the second delivery device；2221, the second rack gear；2222, second gear；30, body；31, air outlet.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, being described as if the device in attached drawing is squeezed " in other devices It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and " in ... lower section " two kinds of orientation.The device can also be positioned with other different modes (be rotated by 90 ° or in other orientation, and Respective explanations are made to the opposite description in space used herein above.

Referring to FIG. 1 to FIG. 4, according to an embodiment of the invention, providing a kind of air conditioner, the air-conditioning in the present embodiment Device includes body 30, has air outlet 31 on body 30, convenient for that will pass through the air delivery after air conditioner carries out heat exchange processing To interior.

Air conditioner in the present embodiment further includes that wind deflector releases movement mechanism, and when actual installation, which is released Movement mechanism is mounted on body 30 and is delivered in predetermined space with the wind for exporting air outlet 31.

Specifically, it includes air deflection assemblies 10 and driving assembly that the wind deflector in the present embodiment, which releases movement mechanism,.

Wherein, air deflection assemblies 10 include the first wind deflector 11 and the second wind deflector 12, and the setting of the first wind deflector 11 is the On two wind deflectors 12, the first wind deflector 11, which has, to be collapsed the first position in the second wind deflector 12 and protrudes from the second wind deflector The 12 outer edge second positions；Driving assembly includes the first driving portion 21 and the second driving portion 22, and the first driving portion 21 is led with first Aerofoil 11 is drivingly connected, and the second driving portion 22 and the second wind deflector 12 are drivingly connected.It should be noted that outer in the present embodiment Edge refers to the edge of the depth direction setting of the air outlet 31 of the second wind deflector 12, that is, energy after the first wind deflector 11 protrusion Enough extend the long edge of the air-supply of entire air deflection assemblies 10.

When air conditioner is in refrigerating state, the first driving portion 21 and the second driving portion 22 are worked at the same time, can will be led Aerofoil component 10 releases air outlet 31, and the second driving portion 22 is then made to stop working, and the first driving portion 21 drives the first wind deflector 11 when moving to the second position for protruding from the second wind deflector 12, the width of entire air deflection assemblies 10 is increased, finally by The effect of one wind deflector 11 and the second wind deflector 12, can increase the air supplying distance of air deflection assemblies 10.

When air conditioner is in heating state, the first driving portion 21 and the second driving portion 22 are worked at the same time, can will be led Aerofoil component 10 releases air outlet 31, then makes the first wind deflector 11 towards the inside retracting motion of air outlet 31 to second It sets, while driving the second wind deflector 12 to be flipped up using the second driving portion 22, be capable of increasing the heating collection of air deflection assemblies 10 Wind effect enables the hot wind in air outlet 31 quickly to land.

As it can be seen that wind deflector through the invention releases the effect of movement mechanism, it can be when air conditioner be in refrigerating state Increase the width of air deflection assemblies 10, extend the air supplying distance of air deflection assemblies 10, additionally it is possible to be mentioned when air conditioner is in heating The collection wind effect of high air deflection assemblies 10, enables hot wind quickly to land.

It is provided with sliding slot 121 on the second wind deflector 12 in the present embodiment, which can be set in the second wind deflector 12 two sides or middle position, when actual installation, the opposite two sides of the second wind deflector 12 are provided with sliding slot 121, and first The both ends of wind deflector 11 are mounted in sliding slot 121, and the first wind deflector 11 can be along the chute 121 under the driving of the first driving portion 21 Sliding to switch between the first position and the second position.It certainly, in other embodiments of the invention, can also be by sliding slot 121 are set as the fit system that sliding rail adds sliding block, as long as other modes of texturing under design of the invention, in the present invention Protection scope within.

Referring again to shown in Fig. 1 to Fig. 4, the first driving portion 21 in the present embodiment includes that first connecting rod 211 and first pushes away Send mechanism 212.Wherein, the first end of first connecting rod 211 is pivotally connected with the first wind deflector 11；First delivery device 212 and One connecting rod 211 is drivingly connected to push first connecting rod 211 to move forward and backward.

Preferably, the first delivery device 212 in the present embodiment includes the first rack gear 2121, first gear 2122 and the The motor (not shown) of one driving, the first rack gear 2121 extend along the length direction of first connecting rod 211；First gear 2122 It is engaged with the first rack gear 2121；First driving motor and first gear 2122 are drivingly connected.When work, the rotation of the first driving motor It drives first gear 2122 to rotate, and then the first rack gear 2121 and first connecting rod 211 is driven to move forward and backward to the first wind-guiding Plate 11 is pushed.

Similarly, the second driving portion 22 in the present embodiment includes second connecting rod 221 and the second delivery device 222, wherein The first end of second connecting rod 221 is pivotally connected with the second wind deflector 12；Second delivery device 222 connects with the driving of second connecting rod 221 It connects to push second connecting rod 221 to move forward and backward.

Preferably, the second delivery device 222 includes the second rack gear 2221, second gear 2222 and the second driving motor (not shown), wherein the second rack gear 2221 extends along the length direction of second connecting rod 221；Second gear 2222 and second Rack gear 2221 engages；Second driving motor and second gear 2222 are drivingly connected.When work, the rotation of the second driving motor drives the The rotation of two gears 2222, so drive the second rack gear 2221 and second connecting rod 221 to move forward and backward with to the second wind deflector 12 into Row push.

When actual installation, the first driving motor and the second driving motor in the present embodiment are mounted in the body of air conditioner On 30, for previous structure, the wind deflector in the present embodiment pushes the first connecting rod 211 and second of movement mechanism The end of connecting rod 221 is not provided with head-shaking motor, and the lead of the first driving motor and the second driving motor will not be in wind deflector Component 10 shakes during moving, and is not in the problem of motor lines reliability deficiency.

In actual work, the air deflection assemblies 10 in the present embodiment include open position and closed position, the first driving portion 21 and second driving portion 22 simultaneously operation drive air deflection assemblies 10 switch between open and closed positions.This process In, the first driving motor and rotating forward or the return motion simultaneously simultaneously of the second driving motor, and then the first company can be driven simultaneously Bar 211 and second connecting rod 221 are moved together to drive air deflection assemblies 10 to switch between open and closed positions.Wind-guiding When board group part 10 is in the closed position, the first wind deflector 11 is in first position, the first gear 2122 of driving assembly and first Rack gear 2121 is engaged close to one end of air deflection assemblies 10, and the second gear 2222 of driving assembly and the second rack gear 2221 are close One end of air deflection assemblies 10 is engaged, and the other positions other than above-mentioned closed position, air deflection assemblies 10 are in opening Position.

Air deflection assemblies 10 further include upper ventilation state, when air deflection assemblies 10 are in an open position, the second driving portion 22 stop working, and the first driving motor movement of the first driving portion 21 drives first gear 2122 to move, and then drive the first tooth Item 2121 and first connecting rod 211 move, so that the first wind deflector 11 moves to the second position, at this point, at air deflection assemblies 10 In upper ventilation state, convenient for increasing the conveying distance of the cold wind at air outlet 31.

Air deflection assemblies 10 in the present embodiment further include lower ventilation state, when air deflection assemblies 10 are in an open position When, the first driving portion 21 drives the first wind deflector 11 to move to the second position, and the second driving motor of the second driving portion 22 moves, It drives second gear 2222 to move, and then the second rack gear 2221 and second connecting rod 221 is driven to move, so that the second wind deflector 12 After moving and being flipped up, air deflection assemblies 10 are in lower ventilation state.

According to above-mentioned air conditioner it is recognised that when air conditioner is in off-mode, air deflection assemblies 10 are in close stance It sets, at this point, the first wind deflector 11 is in first position, i.e. the first gear 2122 of driving assembly and the first rack gear 2121 is close to leading One end of aerofoil component 10 is engaged, and the second gear 2222 of driving assembly and the second rack gear 2221 are close to air deflection assemblies 10 One end engagement.When air conditioner booting, the first driving mechanism motor drives first gear 2122, the first rack gear 2121, the second tooth The movement of the 2222, second rack gear 2221 is taken turns, and then so that first connecting rod 211 and second connecting rod 221 is travelled forward and releases the first wind deflector 11 and second wind deflector 12, to open the air outlet 31 of air conditioner.

When air conditioner is in refrigeration work state, the continuation of first connecting rod 211 is released forward, and second connecting rod 221 is kept not It is dynamic, so that second connecting rod 221 pushes the second wind deflector 12 to rotate centered on 221 pivotal point of second connecting rod, until the second wind-guiding 12 substantially horizontal arrangement of plate stops, at this time since first connecting rod 211 pushes the first wind deflector 11 to slide forward in sliding slot 121, To which the first wind deflector 11 is located at 12 top front end of the second wind deflector, the length of overall air deflection assemblies 10 is increased, is extended Air supplying distance.

When air conditioner is in heating working condition, the continuation of second connecting rod 221 is pushed forward, and first connecting rod 211 is received backward Contracting, so that the whole overturning of the second wind deflector 12, the first wind deflector 11, slightly toward after-contraction, prevent from being turned in sliding slot 121 Cheng Zhongyu body 30 is interfered, final to keep the first wind deflector 11, the second wind deflector 12 stacking wind-guiding downwards, collects hot wind more In, landing is faster.

When air conditioner swing flap, contraction is released by first connecting rod 211 and second connecting rod 221 back and forth, first can be met and led 12 vertical swing flap of aerofoil 11 and the second wind deflector, and avoid interfering with body 30.

Preferably, the air conditioner in the present embodiment further includes that wind speed measurement module, wind deflector control module and signal connect Air deflection assemblies 10 can be controlled using wind deflector control module in actual work by receiving module, receive mould using signal Block can receive air-supply instruction, and air-supply instruction includes that wind does not blow people's mode directly, increases wind speed mode, swing flap mode, aphalangia Default mode is selected when enabling, wind speed measurement module can detect the air supply velocity of air conditioner.

Shown in Figure 5, the control method of the air conditioner in the present embodiment includes booting step, operating mode selection step And detection rate-determining steps.

It is being switched in step: after air-conditioning booting, making air deflection assemblies 10 by air conditioner using wind deflector control module Air outlet 31 is opened.

In operating mode selection step: being selected on air-conditioner controller, air conditioner is made to work in cooling mode Or work in a heating mode, when air conditioner works in cooling mode, make wind-guiding board group using wind deflector control module Part 10 is blown under wind direction 1；When air conditioner works in a heating mode, make wind-guiding board group using wind deflector control module Part 10 is blown under wind direction 2；

In detection rate-determining steps: using on air conditioner sensor or infrared detection etc. detect indoor personnel positions, And air deflection assemblies 10, which blow-through people mode or do not increase wind speed mode or swing flap mould in wind, to be adjusted such that air conditioner It works under formula.

The present invention can reach wind not blow-through people by the angle of control air deflection assemblies 10, or enhancing wind speed or adjustment are sent Wind distance and other effects.

When air conditioner works in cooling mode, the wind direction of default air deflection assemblies 10 is wind direction 1, makes to lead Control process of the work of aerofoil component 10 in default wind direction 1 are as follows: open the air outlet of air conditioner in air deflection assemblies 10 Afterwards, release the continuation of first connecting rod 211 forward, second connecting rod 221 remains stationary, to make the second wind deflector 12 along the second wind-guiding It is rotated centered on plate 12 and the hinge joint of second connecting rod 221, until stopping when the second wind deflector 12 is in a horizontal position, sharp at this time The first wind deflector 11 is pushed to slide forward with first connecting rod 211, so that the first wind deflector 11 be made to protrude from the second wind deflector 12 Outer edge increases overall 10 length of air deflection assemblies, extends air supplying distance.

When air conditioner works in a heating mode, the wind direction of default air deflection assemblies 10 is wind direction 2, makes to lead Control process of the work of aerofoil component 10 in default wind direction 2 are as follows: beat the air outlet 31 of air conditioner in air deflection assemblies 10 After opening, push the continuation of first connecting rod 211 forward, second connecting rod 221 is turned over to after-contraction so that the first wind deflector 11 is whole Turn, the second wind deflector 12 prevents from interfering in switching process with air conditioner casing toward after-contraction, final to keep the first wind-guiding Wind-guiding is laminated downwards in plate 11, the second wind deflector 12, concentrates hot wind more, landing is faster.

When air conditioner works under wind not blow-through people mode: when distance of the indoor occupant apart from air conditioner is greater than X, adopting With patch ground outlet air, air deflection assemblies 10 is made to blow in the case where default wind direction 2, during this, makes the continuation of first connecting rod 211 forward It pushes, second connecting rod 221 is to after-contraction, so that the whole overturning of the first wind deflector 11, the second wind deflector 12 are prevented toward after-contraction Only interfered in switching process with air conditioner casing, it is final to keep the first wind deflector 11, the second stacking downwards of wind deflector 12 Wind-guiding.When air deflection assemblies 10 under defaulting wind direction 2 blow when, wind people has been detected whether, if so, then making the second company Bar 221 pushes forward, and makes first connecting rod 211 to after-contraction, until reaching wind does not blow people.

When distance of the indoor occupant apart from air conditioner is less than or equal to X, using upper air-out mode, air deflection assemblies 10 is made to exist Default the lower air-supply of wind direction 1.Release the continuation of first connecting rod 211 forward, second connecting rod 221 remains stationary, to make second Wind deflector 12 rotates centered on the hinge joint of the second wind deflector 12 and second connecting rod 221, until the second wind deflector 12 is in water Stopping when prosposition is set pushes the first wind deflector 11 to slide forward, to keep the first wind deflector 11 convex using first connecting rod 211 at this time For the outer edge of the second wind deflector 12, overall 10 length of air deflection assemblies is increased, air supplying distance is extended.When wind-guiding board group Part 10 has detected whether wind people when blowing under defaulting wind direction 2, if so, push second connecting rod 221 forward, And make first connecting rod 211 to after-contraction, until reaching wind does not blow people.

X in the present embodiment is a setting value, test according to the efficiency of air conditioner and the actual size in house One obtained is demonstrate,proved to be conducive to improve the vertical of human body comfort.

When air conditioner work is when increasing under wind speed mode, the distance according to personnel from air conditioner, selection makes wind-guiding board group Part 10 is blown under default wind direction 1 or default wind direction 2, can blow to people to reach wind.Selection makes wind-guiding board group After part 10 works under default wind direction 1 or default wind direction 2, the control method of air conditioner further includes reduction first Wind deflector 11 protrudes the outer peripheral distance of the second wind deflector 12, and to increase wind speed, adjustment wind direction is directed at personnel positions.

When air conditioner work is under swing flap mode, distance according to personnel from air conditioner adjusts the air-supply model of air conditioner It encloses.Under swing flap mode, so that first connecting rod 211 and second connecting rod 221 is released contraction back and forth and realize swing flap.Here it releases Laishui When being meant that first connecting rod 211 is released of contraction, second connecting rod 221 is shunk；When first connecting rod 211 is shunk, second connecting rod 221 release, the working method of two kinds of forms alternately.

It can be seen from the above description that the above embodiments of the present invention realized the following chievements: passing through control Wind deflector angle can reach wind not blow-through people, or enhancing wind speed or adjustment air supplying distance and other effects.

It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein for example can be in addition to herein Sequence other than those of diagram or description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that Be to cover it is non-exclusive include, for example, containing the process, method, system, product or equipment of a series of steps or units not Those of be necessarily limited to be clearly listed step or unit, but may include be not clearly listed or for these processes, side The intrinsic other step or units of method, product or equipment.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of control method of air conditioner, which is characterized in that the air conditioner includes air deflection assemblies (10) and driving assembly, The air deflection assemblies (10) include the first wind deflector (11) and the second wind deflector (12), and the first wind deflector (11) setting exists On second wind deflector (12), first wind deflector (11) has first collapsed in second wind deflector (12) Set and protrude from the outer peripheral second position of second wind deflector (12)；The driving component include the first driving portion (21) and Second driving portion (22), first driving portion (21) and first wind deflector (11) are drivingly connected, second driving portion (22) it is drivingly connected with second wind deflector (12)；The control method of the air conditioner includes:

Booting step: open the air deflection assemblies by the air outlet (31) of the air conditioner；

Operating mode selects step: so that the air conditioner is worked or is worked in cooling mode in a heating mode, when described When air conditioner works in cooling mode, the air deflection assemblies (10) is made to blow under wind direction 1, when the air conditioner exists When working under heating mode, the air deflection assemblies (10) is made to blow under wind direction 2；

Detection rate-determining steps: indoor personnel positions are detected and the air deflection assemblies (10) are adjusted such that the air conditioner It works under wind not blow-through people mode or increasing wind speed mode or swing flap mode.

2. the control method of air conditioner according to claim 1, which is characterized in that when the air conditioner is not straight in the wind It blows when working under people's mode:

When distance of the indoor occupant apart from the air conditioner is greater than X, send the air deflection assemblies (10) under wind direction 2 Wind；

When distance of the indoor occupant apart from the air conditioner is less than or equal to X, make the air deflection assemblies (10) in wind direction 1 Lower air-supply.

3. the control method of air conditioner according to claim 2, which is characterized in that first driving portion (21) includes:

First connecting rod (211), the first end of the first connecting rod (211) are pivotally connected with first wind deflector (11)；

First delivery device (212), first delivery device (212) are drivingly connected with the first connecting rod (211) to push First connecting rod (211) movement；

Second driving portion (22) includes:

Second connecting rod (221), the first end of the second connecting rod (221) are pivotally connected with second wind deflector (12)；

Second delivery device (222), second delivery device (222) are drivingly connected with the second connecting rod (221) to push Second connecting rod (221) movement；

When the air deflection assemblies (20) are blown under wind direction 2, wind people has been detected whether, if so, then making described Second connecting rod (221) pushes forward, and makes the first connecting rod (211) to after-contraction, until reaching wind does not blow people.

4. the control method of air conditioner according to claim 3, which is characterized in that when the air deflection assemblies are at air-supply angle When 2 lower work of degree, wind people has been detected whether, if so, push the first connecting rod (211) forward, and make described the Two connecting rods (221) remain stationary, until reaching wind does not blow people.

5. the control method of air conditioner according to claim 2, which is characterized in that when air conditioner work adds described When under strong wind fast mode, distance according to personnel from the air conditioner, selection makes the air deflection assemblies (10) in wind direction 1 Or the lower air-supply of wind direction 2.

6. the control method of air conditioner according to claim 5, which is characterized in that selection makes the air deflection assemblies (10) After working under wind direction 1 or wind direction 2, the control method of the air conditioner further includes reducing first wind-guiding Plate (11) protrudes the outer peripheral distance of second wind deflector (12), and adjustment wind direction is directed at personnel positions.

7. the control method of air conditioner according to claim 2, which is characterized in that swept when the air conditioner works described When under wind mode, distance according to personnel from the air conditioner adjusts the blowing range of the air conditioner.

8. the control method of air conditioner according to claim 3, which is characterized in that the air deflection assemblies (10) is made to work In the control process of wind direction 1 are as follows: after the air deflection assemblies (10) open the air outlet of the air conditioner, make described First connecting rod (211) continuation is released forward, and the second connecting rod (221) remains stationary, to make second wind deflector (12) It is rotated centered on the hinge joint of second wind deflector (12) and the second connecting rod (221), until second wind deflector (12) stopping when being in a horizontal position pushes first wind deflector (11) to advancing slip using the first connecting rod (211) at this time Row, so that first wind deflector (11) be made to protrude from the outer edge of second wind deflector (12).

9. the control method of air conditioner according to claim 3, which is characterized in that the air deflection assemblies (10) is made to work In the control process of wind direction 2 are as follows: after the air deflection assemblies (10) open the air outlet (31) of the air conditioner, make The first connecting rod (211) continues to push forward, and the second connecting rod (221) is to after-contraction, so that first wind-guiding Plate (11) is integrally overturn, the past after-contraction of second wind deflector (12).

10. the control method of air conditioner according to claim 3, which is characterized in that under the swing flap mode, make described First connecting rod (211) and the second connecting rod (221) release contraction back and forth and realize swing flap.