CN103574844B - Air conditioner and control method, control terminal and air conditioner system thereof - Google Patents

Abstract

The invention discloses a control method for an air conditioner. The control method for the air conditioner comprises the following steps: when the air conditioner detects a speed regulating command sent by a control terminal, sending current angle information of a wind deflector and/or a guide vane to the control terminal for displaying; when the air conditioner detects an air supply area speed setting command sent by the control terminal, controlling the wind deflector and/or the guide vane to swing at the speed set by the air supply area speed setting command within the air supply area set by the air supply area speed setting command. The invention further discloses the air conditioner, the control terminal and an air conditioner system. The current angle information of the wind deflector and/or the guide vane is acquired by the air conditioner in two-way communication and is sent to a displaying part for displaying, so that a user can intuitively know the running state of the air conditioner, and can precisely control the swing angle of the wind deflector and/or the guide vane simultaneously according to the information displayed by the displaying part.

Description

Air-conditioner and its control method, control terminal, air-conditioner system

Technical field

The present invention relates to air-conditioner field, more particularly, to a kind of air-conditioner and its control method, control terminal, air-conditioner system System.

Background technology

Existing air-conditioner typically by the infrared signal of remote control, to adjust the running status of air-conditioner, and cannot be from Obtain the real time information of air-conditioning in remote control, carry out user friendly operation.Although occurring later passing through mobile phone control air-conditioner, lead to Crossing mobile phone can control air-conditioner to adjust its running status, and when air-conditioner breaks down, fault message will send to mobile phone, carry out Initiative alarming.But by mobile phone adjust air-conditioner running status when it is impossible to be visually known air-conditioner further more Specific running status, also cannot accurately control the wind direction of air-conditioner according to the real experiences of user.

Content of the invention

The main object of the present invention be provide a kind of air-conditioner and its control method, control terminal, air-conditioner system it is intended to The wind deflector of precise control air-conditioner and/or the pendulum angle of stator, improve the control efficiency of air-conditioner.

The invention provides a kind of control method of air-conditioner, comprise the following steps:

When air-conditioner detects the speed regulating command of control terminal transmission, by the current angular of wind deflector and/or stator Information sends and is shown to control terminal；

When air-conditioner detects the air-supply region speed setting instructions of control terminal transmission, control wind deflector and/or stator In air-supply region set by described air-supply region speed setting instructions, with set by the speed setting instructions of described air-supply region Speed swing.

Preferably, described air-conditioner also includes after detecting the speed regulating command that control terminal sends:

Air-conditioner controls wind deflector and/or stator with a preset speed fluctuation.

Preferably, described air-conditioner controls wind deflector and/or stator set by the speed setting instructions of described air-supply region Air-supply region in swing include:

Air-conditioner controls described wind deflector and/or the boundary angles in stator air-supply region to set for producing air-supply zone velocity The angle residing for previous preset time of instruction or be n ± △ n, wherein n is set by air-supply region speed setting instructions The boundary angles in air-supply region.

Preferably, described air-supply region is multiple, and each air-supply region has corresponding rotating speed.

Present invention also offers a kind of air-conditioner, it is connected with wind deflector and/or stator including wind deflector and/or stator Controller, the signal receiver receiving external control signal and the sender unit being sent out signal；

Described sender unit is connected with controller, by the current angular information of the wind deflector in controller and/or stator It is sent to control terminal to be used for showing；

Described signal receiver receives speed regulating command and the air-supply region speed setting instructions that control terminal sends, and Described controller is passed in described speed regulating command and air-supply region speed setting instructions, so that controller is according to described speed The current angular information of described wind deflector and/or stator is passed to described sender unit by regulating command, and is sent according to described Wind zone velocity sets instruction and controls the wind deflector and/or stator blow zones set by described air-supply region speed setting instructions In domain, swung with the speed set by the speed setting instructions of described air-supply region.

Preferably, described controller is additionally operable to according to speed regulating command, controls wind deflector and/or stator with one preset turn Speed swings.

Preferably, described controller is additionally operable to:

Control described wind deflector and/or stator blow region boundary angles be produce air-supply region speed setting instructions it Angle residing for previous preset time or be n ± △ n, wherein n is the blow zones set by the speed setting instructions of air-supply region The boundary angles in domain.

Preferably, described air-conditioner also includes inductor, and this inductor one end is connected with described wind deflector and/or stator, The other end is connected with described controller, for sensing the current angular information of wind deflector and/or stator, and by described current angular Information passes to described controller.

Present invention also offers a kind of control method of air-conditioner, comprise the following steps:

When control terminal detects speed regulating command, send it to air-conditioner；

Control terminal receives the current angular of the wind deflector that air-conditioner returns according to described speed regulating command and/or stator Information, and shown；

Control terminal detect air-supply region speed setting instructions when, send it to air-conditioner, with control wind deflector and/ Or in air-supply region set by described air-supply region speed setting instructions for the stator, with described air-supply region speed setting instructions Set speed swings.

Preferably, described control terminal detects air-supply region speed setting instructions and includes:

When control terminal detects touch signal, obtain the corresponding angle of described touch signal, and according to acquired angle Degree generates air-supply region；

When described control terminal detects the touch slip signals in air-supply region, obtain the straight path touching slip signals Length, and according to described straight path length, set the rotating speed in this air-supply region.

Preferably, described touch signal is multiple point touching signal.

Present invention also offers a kind of control terminal, including display part, input unit, control unit, also include respectively with described Signal transmitting module and signal receiving module that control unit connects；

Described input unit is used for detecting the input information of user, and the input information being detected is passed to described control Portion；

Described control unit is used for according to described input information, produces corresponding speed regulating command and air-supply zone velocity sets Fixed instruction；Control display part that the current angular letter of described wind deflector and/or stator is shown；

Described signal transmitting module is used for sending speed regulating command and air-supply region speed setting instructions to air-conditioner, With control wind deflector and/or stator in described air-supply region speed setting instructions set by air-supply region in, with described air-supply Zone velocity sets the set speed of instruction and swings；

Described signal receiving module is used for receiving the wind deflector that air-conditioner returns according to described speed regulating command and/or leads The current angular information of leaf, and it is passed along described control unit.

Preferably, described input information includes touch signal and touches slip signals；Described control unit is used for according to touch Signal, obtains the corresponding angle of described touch signal, and generates air-supply region according to acquired angle；Believe according to touching to slide Number, obtain the straight path length touching slip signals, and according to described straight path length, set turning of this air-supply region Speed.

Preferably, described touch signal is multiple point touching signal.

Present invention also offers a kind of air-conditioner system is it is characterised in that including the air-conditioner of said structure and controlling eventually End, and between described air-conditioner and control terminal, carry out both-way communication.

The air-conditioner by both-way communication for the embodiment of the present invention, obtains the current angular information of wind deflector and/or stator, and Send it to control terminal to be shown, so that user can be visually known the running status of air-conditioner, simultaneously to this The air-supply situation in moment is experienced, and can intuitively select current angle in conjunction with the information shown by control terminal, Accurately control the pendulum angle of wind deflector and/or stator.More directly perceived and convenient, improve Consumer's Experience.

Before the angle that the embodiment of the present invention also sets up described wind deflector and/or stator is air-supply region speed setting instructions Angle residing for one preset time, has taken into full account the time delay between angle adjustment and air-supply experience, can be accurate and directly perceived The angle controlling wind deflector and/or stator point to the best air supply direction of Consumer's Experience.

Brief description

Fig. 1 is the structural representation of air-conditioner of the present invention and control terminal communication；

Fig. 2 is the high-level schematic functional block diagram of air-conditioner preferred embodiment of the present invention；

Fig. 3 is the high-level schematic functional block diagram of control terminal preferred embodiment of the present invention；

Fig. 4 a is the schematic diagram of the angle information of the stator that the present invention shows air-conditioner on display part；

Fig. 4 b is the schematic diagram of the angle information of the wind deflector that the present invention shows air-conditioner on display part；

Fig. 5 is the schematic diagram to carry out the setting of the guide vane angle of air-conditioner for the single-touch display part of the present invention；

Fig. 6 is that two point of the present invention touches display part to carry out the schematic diagram of the setting of the guide vane angle of air-conditioner；

Fig. 7 is the schematic flow sheet of the control method preferred embodiment of air-conditioner of the present invention.

The realization of the object of the invention, functional characteristics and advantage will be described further in conjunction with the embodiments referring to the drawings.

Specific embodiment

Further illustrate technical scheme below in conjunction with Figure of description and specific embodiment.It should be appreciated that this The described specific embodiment in place, only in order to explain the present invention, is not intended to limit the present invention.

Main idea is that, provide a kind of air-conditioner of both-way communication, this air-conditioner can receive control terminal Control instruction, with control air-conditioner run；The running status of itself can also be fed back to control terminal by this air-conditioner simultaneously On shown.

As shown in figure 1, being provided with wind deflector 11 and stator 10 in this air-conditioner 100, wherein wind deflector 11 carries out above-below direction Rotation, the wind direction in direction up or down can be adjusted；Stator 10 carries out the rotation of left and right directions, can adjust to the left Or the wind direction of right direction.Certainly in air-conditioner 100 can also only setting wind deflector 11 or stator 10, individually using leading Aerofoil or in the case of individually adopting stator, is possible to the effect that wind deflector or stator are blown to certain direction. User is manipulated by terminal 200, to send control instruction, the wind deflector 11 of adjustment air-conditioner 100 to air-conditioner 100 And/or the pendulum angle of stator 10.Wherein, this control terminal 200 is the terminal with display screen, such as air-conditioning remote control, peace The intelligent terminals such as mobile phone or the ipad of corresponding software are filled.Signal transmission between air-conditioner 100 and control terminal 200 can be Infrared Transmission, near-field communication, Bluetooth transmission etc..

As shown in Fig. 2 above-mentioned air-conditioner also include being connected with wind deflector 11 and/or stator 10 controller 13, receive outer The signal receiver 14 of portion's control signal and the sender unit 15 being sent out signal.Sender unit 15 is with controller 13 even Connect, for the current angular information of the wind deflector 11 in controller 13 and/or stator 10 is sent to control terminal 200.Control After terminal 200 receives this current angular information, it is shown.

Further, above-mentioned air-conditioner also includes the inductor 16 being connected with controller 13, this inductor 16 can respectively with Wind deflector 11 and/or stator 10 connect, and obtain the current angular information of wind deflector 11 and/or stator 10 for sensing.This sensing Device 50 can be one or two.In the present embodiment, this inductor 50 is angle inductor, is separately positioned on wind-guiding In the rotating shaft of plate 11 and stator 10.Certainly, this inductor 50 can also be arranged on the motor driving wind deflector 11 and/or stator 10 On.When inductor 16 obtains the current angular information of wind deflector 11 and stator 10, then it is passed along controller 13, then controller 13 are sent described current angular information to control terminal 200 by sender unit 15, to be shown on control terminal 200 Show.

As shown in figure 3, above-mentioned control terminal 200 includes display part 21, input unit 22, control unit 23, signal receiving module 24th, signal transmitting module 25.Wherein display part 21 is used for showing, it is touch display screen.Input unit 22 is connected with display part 21, For detecting the touch signal on display part 21, and the touch signal detecting is sent to control unit 23.Control unit 23 basis This touch signal, obtains the corresponding angle information of touch signal, and according to this angle information, generates corresponding region of blowing.With When input unit 22 also detect on display part 21 the touch slip signals producing in air-supply region, and the touch detecting slided believe Number send to control unit 23.Control unit 23, according to this touch slip signals, obtains the straight path length touching slip signals, And according to described straight path length, set the rotating speed in feeding wind region.This air-supply region speed setting instructions is sent out by signal Module 25 is sent to send to air-conditioner.Signal receiving module 24 sends to the information of control terminal 200 for receiving outside, for example, believe Number receiver module 24 receives the current angular information of the wind deflector that air-conditioner 100 sends and/or stator, and sends it to control Portion 23.Control unit 23 then controls display part 21 that the current angular of wind deflector 11 and/or stator 10 is shown.

In order to the wind deflector 11 of air-conditioner and/or the angle information of stator 10 can be accurately displayed in control terminal 200 On, therefore the angle information of wind deflector 11 and/or stator 10 can flexibly be arranged in control terminal 200 according to the demand of user Display mode on display part.For example, will be arranged as follows in the present embodiment:

As shown in fig. 4 a, when air-conditioner obtains the current angular information of stator 10 in real time, will be to hang down with air outlet plane Zero degree based on straight direction, and the corresponding stator identifier (broken line representation as in Fig. 4 a) of this basic zero degree is in display part It is shown as ordinate in reference axis shown by 21.With swinging of stator 10, the stator identifier on display part 21 To swing in reference axis.When stator 10 is rocked to top to the left, in reference axis shown by display part for the stator identifier to the left It is rocked at left；When stator 10 is rocked to top to the right, stator identifier swings to the right in the reference axis shown by display part To right.In the present embodiment, the pendulum angle of this stator 10 is ± 60 °, i.e. θ₀=120°.

As shown in Figure 4 b, when air-conditioner obtains the current angular information of wind deflector 11 in real time, will with air outlet plane Zero degree based on parallel direction, and the corresponding wind deflector identifier (as Fig. 4 b broken line representation) of this basic zero degree is in display part The abscissa of shown reference axis.With swinging up and down of wind deflector 11, the wind deflector identifier on display part also will sat Swing on parameter.When wind deflector 11 is swung up to top, wind deflector identifier is put in the reference axis shown by display part upwards Move to up.Wind deflector 11 swung downward to when pushing up, swung downward in reference axis shown by display part for the wind deflector identifier To down.In the present embodiment, the pendulum angle of this wind deflector 11 is ± 45 °, i.e. α₀=90°.

When control terminal 200 sends speed regulating command to air-conditioner 100, air-conditioner 100 then by wind deflector 11 and/or The current angular information of stator 10 sends to control terminal, to show on control terminal 200.In the present embodiment, air-conditioner After signal receiver 14 receives this speed regulating command, send it to controller 13.Controller 13 adjusts according to this speed and refers to The swing rotating speed of order control wind deflector 11 and/or stator 10 is rotating speed set in advance.When on control terminal 200, anterior angle is worked as in display After degree information, user can be visually known the pendulum angle of current wind deflector 11 and/or stator 10.

After showing current angular information on control terminal 200, user just can set on control terminal 200 and lead The corresponding rotating speed in the air-supply region of aerofoil 11 and/or stator 10 and air-supply region.Then control terminal 200 is to air-conditioner 100 Send air-supply region speed setting instructions, to control the wind deflector 11 of air-conditioner and/or stator 10 in described air-supply zone velocity Set the set air-supply region of instruction, with the speed fluctuation set by the speed setting instructions of described air-supply region.It is appreciated that , Consumer's Experience and selection for convenience, air-conditioner 100 wind deflector 11 and/or stator after receiving speed regulating command 10 rotating speed is less than rotating speed under normal circumstances.

As shown in fig. 4 a, when being swung, the pendulum angle of current time is stator 10_,1.Stator 10 will be with every The angle, θ swinging every a preset time₂.The pendulum angle of therefore subsequent time is θ₁+θ₂.As shown in Figure 4 b, wind deflector 11 is entering When row swings up and down, the angle of current time is θ₁.Wind deflector 11 is by with the angle every a preset time swing as θ₂.Therefore The angle of subsequent time is θ₁+θ₂.During wind deflector 11 or stator 10 swing, user can pass through touch control terminal Wind deflector identifier or stator identifier on 200 display part, carry out the selection of the pendulum angle of wind deflector 11 or stator 10.Control The input unit 22 of terminal 200 processed, when detecting touch signal, will obtain the corresponding angle of touch signal, and according to described angle Generate corresponding region of blowing.

Above-mentioned touch signal can be single-touch signal or multiple point touching signal.Due to air-supply region will be set, so If touch signal is single-touch signal, single-touch signal twice to be detected and could generate corresponding air-supply region； If touch signal is multiple point touching signal, when detecting this touch signal, obtain the corresponding angle of this touch signal, and root Generate corresponding region of blowing according to this angle.

As shown in figure 5, when getting the current angular information of stator 10, being displayed on control terminal taking stator as a example On 200 display part 21.Wherein, s0 represents stator identifier, and s1, s2 are respectively left margin and the right when stator 10 swings Boundary, f0 represents touch finger.When showing on display part 21, stator identifier will be around a1 axle dynamic swing.When user uses In interval time singly refer to touch display part 21 twice when, control terminal 200 will detect the single-touch signal on display part 21, Then obtain the corresponding angle information of current touch location, then control terminal, further according to two angle informations being obtained, generates Corresponding air-supply region.As shown in fig. 6, when getting the current angular information of stator 10, being displayed on controlling taking stator as a example On the display part 21 of terminal 200 processed.Wherein, s1, s2 are respectively left margin when stator swings and right margin, f1 and f2 is to touch Finger.When user passes through double two positions of a, b referring to and touching display part 21, control terminal 200 will detect display part 21 On there is two point touch signal, then obtain this corresponding angle information of a, b touch location, then generate corresponding region of blowing. In the same manner, if touch signal is three touch signals, the corresponding angle information of three touch signals obtaining, and according to this angle Information generates two adjacent air-supply regions.

After setting air-supply region, user can also be set in air-supply region by control terminal 200 and turn accordingly Speed.Specifically, the input unit 22 of control terminal 200 detects the touch slip signals on display part 21, is passed along control unit 23.After control unit 23 receives touch slip signals, obtain the described straight path length touching slip signals, and according to described Straight path length, sets the rotating speed in feeding wind region.Certainly, user directly can also be set by the button on control terminal Surely blow region rotating speed, for example plus, subtract button.Or user directly inputs corresponding value on display part 21, to set The corresponding rotating speed in air-supply region.

Last control terminal 200, by the rotating speed in the air-supply region setting and air-supply region, sets as air-supply zone velocity Instruction sends to air-conditioner 100, so that the controller 13 of air-conditioner 100 controls wind deflector 11 and/or stator 10 in air-supply region In air-supply region set by speed setting instructions, with corresponding turn of the air-supply region blown set by the speed setting instructions of region Speed swings.

The air-conditioner by both-way communication for the present embodiment, obtains the current angular information of wind deflector and/or stator, and by its Send and shown to control terminal, so that user can be visually known the running status of air-conditioner, user can simultaneously With the information according to control terminal, accurately control wind deflector and/or the air-supply region of stator and air-supply region corresponds to Rotating speed.

Further it is contemplated that air-supply spacing and air-supply the time, controller noted above 13 receive air-supply zone velocity set When surely instructing, the pendulum angle of the described wind deflector of control and/or stator is angle corresponding in air-supply region speed setting instructions A preset time before angle.

, the angle of wind deflector is set to 30 ° by user taking wind deflector as a example, then air-conditioner receives the instruction of this angle initialization When, the pendulum angle of wind deflector is controlled to residing angle during the preset time producing before the speed setting instructions of air-supply region Degree.In the present embodiment, this preset time is the 0.2-1 second, preferably 0.5 second.

Further it is contemplated that air-supply spacing and air-supply the time, controller noted above 13 receive air-supply zone velocity set Pendulum angle n '=n ± △ n of described wind deflector and/or stator, wherein n when surely instructing, is controlled to be to set with air-supply zone velocity Instruct corresponding angle.

, the angle of wind deflector is set to 30 ° by user taking wind deflector as a example, then air-conditioner receives this air-supply zone velocity When setting instruction, if the angle of wind deflector is incremented by, the angle of wind deflector is set to 30 ° of-△ n；If the angle of wind deflector is successively decreased, lead The angle of aerofoil is set to 30 ° of+△ n.In the present embodiment, n=0.5 ° -3 ° of △, preferably 2 °.

With reference to Fig. 7, the control method of above-mentioned air-conditioner system is proposed, it comprises the following steps:

Step s100, user send speed regulating command；

After step s101, control terminal 200 detect speed regulating command, send it to air-conditioner 100；

After step s102, air-conditioner 100 receive this speed regulating command, obtain working as of wind deflector 11 and/or stator 10 Front angle information；

After the signal receiver 14 of air-conditioner receives this speed regulating command, send it to controller 13.Controller 13 Then obtain the current angular information of wind deflector 11 and/or stator 10.Controller 13 also will be according to this speed regulating command control simultaneously The swing rotating speed of wind deflector 11 processed and/or stator 10 is rotating speed set in advance.

Step s103, transmission current angular information are to control terminal 200；

The current angular information of the wind deflector being obtained 11 and/or stator 10 is sent by controller 13 by sender unit To control terminal 200.

Step s104, control terminal 200 receive the current angular information that air-conditioner 100 sends, and it is shown；

What the signal receiving module 24 of control terminal 200 received the wind deflector that air-conditioner 100 sends and/or stator works as anterior angle Degree information, and send it to control unit 23.Control unit 23 then controls display part 21 current to wind deflector 11 and/or stator 10 Angle is shown.Angle display process with regard to display part 21 in control terminal 200 can refer to noted earlier, and here is just no longer Repeat.

After current angular information is shown on control terminal 200, user can be visually known current wind deflector 11 and/ Or the pendulum angle of stator 10.Then user can set the air-supply of wind deflector 11 and/or stator 10 on control terminal 200 The corresponding rotating speed in region and air-supply region.It is understood that Consumer's Experience and selection for convenience, air-conditioner 100 is connecing After receiving speed regulating command, the rotating speed of control wind deflector 11 and/or stator 10 is less than rotating speed under normal circumstances.

Step s105, user send touch signal；

This touch signal can be single-contact signal or Multi-contact signal.Due to air-supply region will be set, if so When touch signal is single-contact signal, then to detect touch signal twice and could generate corresponding air-supply region；If touching When signal is multiple point touching signal, then, when detecting this touch signal, obtain the corresponding angle of this touch signal, and according to this angle Degree generates corresponding region of blowing.

When step s106, control terminal 200 detect touch signal, obtain the corresponding angle information of touch signal, and root Generate air-supply region according to this angle information；

As shown in figure 5, when getting the current angular information of stator 10, being displayed on control terminal taking stator as a example On 200 display part 21.Wherein, s0 represents stator identifier, and s1, s2 are respectively left margin and the right when stator 10 swings Boundary, f0 represents touch finger.When showing on display part 21, stator identifier will be around a1 axle dynamic swing.When user uses In interval time singly refer to touch display part 21 twice when, control terminal 200 will detect the single-touch signal on display part 21, Then obtain the corresponding angle information of current touch location, then control terminal, further according to two angle informations being obtained, generates Corresponding air-supply region.As shown in fig. 6, when getting the current angular information of stator 10, being displayed on controlling taking stator as a example On the display part 21 of terminal 200 processed.Wherein, s1, s2 are respectively left margin when stator swings and right margin, f1 and f2 is to touch Finger.When user passes through double two positions of a, b referring to and touching display part 21, control terminal 200 will detect display part 21 On there is two point touch signal, then obtain this corresponding angle information of a, b touch location, then generate corresponding region of blowing. In the same manner, if touch signal is three touch signals, the corresponding angle information of three touch signals obtaining, and according to this angle Information generates two adjacent air-supply regions.

Step s107, user send touch slip signals；

After setting air-supply region, user can also be set in air-supply region by control terminal 200 and turn accordingly Speed.The embodiment of the present invention sends touch slip signals by user and sets the corresponding rotating speed in air-supply region.Therefore, user sends When touching slip signals, need to be arranged accordingly for air-supply region.

When step s108, control terminal 200 detect touch slip signals, the straight path obtaining touch slip signals is long Degree, and the rotating speed in air-supply region is set according to this straight path length；

The input unit 22 of control terminal 200 detects the touch slip signals on display part 21, is passed along control unit 23. After control unit 23 receives touch slip signals, obtain the described straight path length touching slip signals, and according to described straight Line tracking length, sets the rotating speed in feeding wind region.Certainly, user directly can also be set by the button on control terminal Air-supply region rotating speed, for example plus, subtract button.Or user directly inputs corresponding value on display part 21, sent with setting The corresponding rotating speed in wind region.This touch signal and touch slip signals are region speed setting instructions of blowing.

Step s109, control terminal 200, according to the corresponding rotating speed in set air-supply region and air-supply region, generate air-supply Zone velocity sets instruction；

The control unit 23 of control terminal 200 is according to the corresponding rotating speed in above set air-supply region and air-supply region, raw Become air-supply region speed setting instructions.

Step s110, control terminal 200 send air-supply region speed setting instructions to air-conditioner 100；

Control terminal 200 region speed setting instructions of blowing are sent to air-conditioner 100 by signal transmitting module 25.

When step s111, air-conditioner 100 receive air-supply region speed setting instructions, control wind deflector 11 and/or stator In the 10 air-supply regions set by air-supply region speed setting instructions, with the rotating speed blown set by the speed setting instructions of region Swing.

Then, when the signal receiver 14 of air-conditioner 100 receives air-supply region speed setting instructions, it is passed along controlling Device 13, this controller 13 then controls wind deflector 11 and/or stator 10 blow zones set by air-supply region speed setting instructions Swing in domain, and swing speed is the rotating speed set by the speed setting instructions of air-supply region.

The air-conditioner by both-way communication for the present embodiment, obtains the current angular information of wind deflector and/or stator, and by its Send and shown to control terminal, so that user can be visually known the running status of air-conditioner, user can simultaneously With the information according to control terminal, accurately control wind deflector and/or the air-supply region of stator and air-supply region corresponds to Rotating speed.

The foregoing is only the preferred embodiments of the present invention, not thereby limit its scope of the claims, every utilization present invention Equivalent structure or equivalent flow conversion that specification and accompanying drawing content are made, are directly or indirectly used in other related technology necks Domain, is included within the scope of the present invention.

Claims (13)

1. a kind of control method of air-conditioner is it is characterised in that comprise the following steps:

When air-conditioner detects the speed regulating command of control terminal transmission, by the current angular information of wind deflector and/or stator Send and shown to control terminal, for control terminal according to user to shown wind deflector identifier or stator identifier Touch signal, generate air-supply region, and control terminal, according to the touch slip signals in air-supply region, set air-supply region Rotating speed, according to the rotating speed in air-supply region and air-supply region, generates air-supply region speed command, and sends air-supply to described air-conditioner Zone velocity sets instruction；

When air-conditioner detects the air-supply region speed setting instructions of control terminal transmission, control wind deflector and/or stator in institute State in the air-supply region set by the speed setting instructions of air-supply region, with the speed set by the speed setting instructions of described air-supply region Degree swings.

2. the control method of air-conditioner according to claim 1 is it is characterised in that described air-conditioner detects control terminal Also include after the speed regulating command sending:

Air-conditioner controls wind deflector and/or stator with a preset speed fluctuation.

3. air-conditioner according to claim 1 control method it is characterised in that described air-conditioner control wind deflector and/ Or swing includes in air-supply region set by described air-supply region speed setting instructions for the stator:

The boundary angles in the air-conditioner described wind deflector of control and/or stator air-supply region are to produce air-supply region speed setting instructions The angle residing for previous preset time or be n ± △ n, wherein n is the air-supply set by air-supply region speed setting instructions The boundary angles in region, the span of described △ n is 0.5 °～3 °.

4. the control method of air-conditioner according to claim 1 is it is characterised in that described air-supply region is multiple, and often Individual air-supply region has corresponding rotating speed.

5. a kind of air-conditioner is it is characterised in that include the control that wind deflector and/or stator are connected with wind deflector and/or stator Device, the signal receiver receiving external control signal and the sender unit being sent out signal；

Described sender unit is connected with controller, and the current angular information of the wind deflector in controller and/or stator is sent Be used for showing to control terminal, for control terminal according to user touching to shown wind deflector identifier or stator identifier Touch signal, generate air-supply region, and control terminal, according to the touch slip signals in air-supply region, sets turning of air-supply region Speed, according to the rotating speed in air-supply region and air-supply region, generates air-supply region speed command, and sends blow zones to described air-conditioner Domain speed setting instructions；

Described signal receiver receives speed regulating command and the air-supply region speed setting instructions that control terminal sends, and by institute State speed regulating command and air-supply region speed setting instructions pass to described controller, so that controller is adjusted according to described speed The current angular information of described wind deflector and/or stator is passed to described sender unit by instruction, and according to described blow zones Domain speed setting instructions control the wind deflector and/or stator air-supply region set by described air-supply region speed setting instructions Interior, swung with the speed set by the speed setting instructions of described air-supply region.

6. air-conditioner according to claim 5 is it is characterised in that described controller is additionally operable to according to speed regulating command, Control wind deflector and/or stator with a preset speed fluctuation.

7. air-conditioner according to claim 5 is it is characterised in that described controller is additionally operable to:

The blow boundary angles in region of described wind deflector and/or stator are controlled to be produce air-supply region speed setting instructions previous Angle residing for preset time or be n ± △ n, wherein n is the air-supply region set by the speed setting instructions of air-supply region Boundary angles, the span of described △ n is 0.5 °～3 °.

8. the air-conditioner according to any one of claim 5-7, should it is characterised in that described air-conditioner also includes inductor Inductor one end is connected with described wind deflector and/or stator, and the other end is connected with described controller, for sense wind deflector and/ Or the current angular information of stator, and described current angular information is passed to described controller.

9. a kind of control method of air-conditioner is it is characterised in that comprise the following steps:

When control terminal detects speed regulating command, send it to air-conditioner；

Control terminal receives the wind deflector that air-conditioner returns according to described speed regulating command and/or the current angular of stator is believed Breath, and shown；

When control terminal detects touch signal, obtain the corresponding angle of described touch signal, and according to acquired angle life Become air-supply region；

When described control terminal detects the touch slip signals in air-supply region, the straight path obtaining touch slip signals is long Degree, and according to described straight path length, set the rotating speed in this air-supply region；

Described control terminal, according to the rotating speed in described air-supply region and air-supply region, generates air-supply region speed command；

Control terminal sends described air-supply region speed command to air-conditioner, to control wind deflector and/or stator to send described Wind zone velocity sets in the set air-supply region of instruction, according to the speed set by the speed setting instructions of described air-supply region Swing.

10. the control method of air-conditioner according to claim 9 is it is characterised in that described touch signal is multiple point touching Signal.

A kind of 11. control terminals, including display part, input unit, control unit it is characterised in that also include respectively with described control Signal transmitting module and signal receiving module that portion connects；

Described input unit is used for detecting the input information of user, and the input information being detected is passed to described control unit；Institute State input information to include touch signal and touch slip signals；

Described control unit is used for according to described input information, produces corresponding speed regulating command and air-supply zone velocity sets and refers to Order；Control display part that the current angular information of described wind deflector and/or stator is shown；Described control unit is specifically for root According to touch signal, obtain the corresponding angle of described touch signal, and air-supply region is generated according to acquired angle；According to touch Slip signals, obtain the straight path length touching slip signals, and according to described straight path length, set this air-supply region Rotating speed, according to the rotating speed in air-supply region and air-supply region, generate air-supply region speed setting instructions；

Described signal transmitting module is used for sending speed regulating command and air-supply region speed setting instructions to air-conditioner, to control In the wind deflector processed and/or stator air-supply region set by described air-supply region speed setting instructions, with described air-supply region Speed set by speed setting instructions swings；

Described signal receiving module is used for receiving the wind deflector that air-conditioner returns according to described speed regulating command and/or stator Current angular information, and it is passed along described control unit.

12. control terminals according to claim 11 are it is characterised in that described touch signal is multiple point touching signal.

A kind of 13. air-conditioner systems it is characterised in that including air-conditioner and control terminal, described air-conditioner and control terminal it Between carry out both-way communication；Wherein, described air-conditioner is any one of claim 5-8

Described air-conditioner, described control terminal is the control terminal described in 11 or 12.