CN107166696A - Air-conditioning and the control method for air-conditioning - Google Patents

Abstract

A kind of control method the invention discloses air-conditioning and for air-conditioning, belongs to technical field of heat exchange equipment.The air-conditioning includes：Rotatable vortex tongue bar above air outlet is arranged on, vortex tongue bar is used for the air outlet angle for controlling air outlet；Controller, the air supply pattern for determining air-conditioning；And, the rotational angle of control vortex tongue bar realizes air supply pattern；Wherein, air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum air supply pattern and without blind spot air supply pattern.According to above-mentioned technical proposal, during operation of air conditioner, controller can determine the air supply pattern of air-conditioning, by controlling the rotational angle of vortex tongue bar to realize air supply pattern, improve the flexibility of air conditioning exhausting direction controlling, and can improve the comfort level of air-conditioning.The direction change that the direction of air-out one's intention as revealed in what one says only will not be swung along pendulum leaf.

Description

Air-conditioning and the control method for air-conditioning

Technical field

The present invention relates to technical field of heat exchange equipment, more particularly to a kind of air-conditioning and the control method for air-conditioning.

Background technology

The temperature that current most of users are come in control room by using air-conditioning, air-conditioning disclosed in prior art, in fortune The direction change of air conditioning exhausting one's intention as revealed in what one says is controlled by changing air-conditioner air outlet pendulum leaf angle during row, due to air-conditioning work The direction of air-out one's intention as revealed in what one says is controlled by pendulum leaf in journey, and the direction of air-out one's intention as revealed in what one says can only be along the direction change for putting leaf swing.

The content of the invention

Control method the embodiments of the invention provide a kind of air-conditioning and for air-conditioning, it is intended to solve air-out in the prior art The problem of direction change that the direction of one's intention as revealed in what one says can only be swung along pendulum leaf.

There is a basic understanding for some aspects of the embodiment to disclosure, shown below is simple summary.Should Summarized section is not extensive overview, nor to determine key/critical component or describe the protection domain of these embodiments. Its sole purpose is that some concepts are presented with simple form, in this, as the preamble of following detailed description.

On the one hand, the embodiments of the invention provide a kind of air-conditioning, including：

Rotatable vortex tongue bar above air outlet is arranged on, vortex tongue bar is used for the air outlet angle for controlling air outlet；

Controller, the air supply pattern for determining air-conditioning；And, the rotational angle of control vortex tongue bar realizes air supply pattern；Its In, air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum air supply pattern and without blind spot air supply pattern.

Any air-conditioning of the embodiment of the present invention, air-conditioning also includes：

The wind deflector that can be moved along exhaust air flue wall below air outlet is arranged on, wind deflector can stretch out along air-out direction Wind wind path wall；

Controller is additionally operable to control the displacement of wind deflector and the rotational angle of vortex tongue bar to realize air supply pattern.

Any air-conditioning of the embodiment of the present invention, controller is used for according to air conditioning operating mode, determines the air supply pattern of air-conditioning；

When operation of air conditioner is in refrigeration mode, the air supply pattern for determining air-conditioning is horizontal blast pattern；When operation of air conditioner exists During heating mode, the air supply pattern for determining air-conditioning is vertical air supply pattern.

Any air-conditioning of the embodiment of the present invention, air-conditioning also includes：

Temperature sensor, for measuring indoor environment temperature；

Controller, for the temperature difference according to indoor environment temperature and design temperature or according to temperature difference and operation of air conditioner mould Formula, determines the air supply pattern of air-conditioning.

Any air-conditioning of the embodiment of the present invention, controller is used for,

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern for determining air-conditioning is without blind spot air supply pattern.

Any air-conditioning of the embodiment of the present invention, controller is used for,

Control wind deflector displacement minimum and vortex tongue bar rotational angle is minimum, realize maximum air supply pattern；

Control wind deflector displacement is changed over time, or, control vortex tongue bar rotational angle is changed over time, or, Control wind deflector displacement and vortex tongue bar rotational angle are all changed over time, and are realized without blind spot air supply pattern.

Any air-conditioning of the embodiment of the present invention, controller is used for,

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern of air-conditioning is determined according to air conditioning operating mode.

Any air-conditioning of the embodiment of the present invention, controller is used for,

When operation of air conditioner refrigeration mode, the air supply pattern for determining air-conditioning is horizontal blast pattern；

When operation of air conditioner heating mode, the air supply pattern for determining air-conditioning is vertical air supply pattern.

Any air-conditioning of the embodiment of the present invention, controller is used for,

Control wind deflector displacement maximum and vortex tongue bar rotational angle is minimum, realize horizontal blast pattern；

Control wind deflector displacement minimum and vortex tongue bar rotational angle is maximum, realize vertical air supply pattern.

On the other hand, the embodiment of the present invention provides a kind of control method for air-conditioning, and control method includes：

The air supply pattern of air-conditioning is determined, wherein, air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum and sent Wind pattern and without blind spot air supply pattern；

The rotational angle of control vortex tongue bar realizes air supply pattern, wherein, vortex tongue bar is arranged on above air outlet, can be in air-out The air outlet angle of air outlet is rotated and controlled above mouthful.

Any control method of the embodiment of the present invention, air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum Air supply pattern and without blind spot air supply pattern.

Any control method of the embodiment of the present invention, control method also includes：

The displacement of wind deflector and the rotational angle of vortex tongue bar is controlled to realize air supply pattern, wherein, wind deflector is arranged on Below air outlet, it can be moved along exhaust air flue wall and exhaust air flue wall can be stretched out along air-out direction.

Any control method of the embodiment of the present invention, determining the air supply pattern of air-conditioning includes：

The air supply pattern of air-conditioning is determined according to the temperature difference of indoor environment temperature and design temperature；Or, transported according to air-conditioning Row mode determines the air supply pattern of air-conditioning；Or, the air supply pattern of air-conditioning is determined according to temperature difference and air conditioning operating mode.

Any control method of the embodiment of the present invention, the air supply pattern of air-conditioning is determined according to temperature difference, including：

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern for determining air-conditioning is without blind spot air supply pattern.

Any control method of the embodiment of the present invention, controls the displacement of wind deflector and the rotational angle of vortex tongue bar to realize Air supply pattern, including：

Control the displacement of wind deflector minimum and vortex tongue bar rotational angle is minimum, realize maximum air supply pattern；

The displacement of control wind deflector is changed over time, or, the rotational angle of control vortex tongue bar is changed over time, or Person, controls the displacement of wind deflector and the rotational angle of vortex tongue bar to change over time, realizes without blind spot air supply pattern.

Any control method of the embodiment of the present invention, according to temperature difference and air conditioning operating mode, determines the air-supply mould of air-conditioning Formula includes：

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern of air-conditioning is determined according to air conditioning operating mode.

Any control method of the embodiment of the present invention, the air supply pattern for determining air-conditioning according to air conditioning operating mode includes：

When operation of air conditioner is in refrigeration mode, the air supply pattern for determining air-conditioning is horizontal blast pattern；

When operation of air conditioner is in heating mode, the air supply pattern for determining air-conditioning is vertical air supply pattern.

Any control method of the embodiment of the present invention, controls the displacement of wind deflector and the rotational angle of vortex tongue bar to realize Air supply pattern, including：

Control wind deflector displacement maximum and vortex tongue bar rotational angle is minimum, realize horizontal blast pattern；

Control wind deflector displacement minimum and vortex tongue bar rotational angle is maximum, realize vertical air supply pattern.

According to above-mentioned technical proposal, during operation of air conditioner, controller can determine the air supply pattern of air-conditioning, pass through control The rotational angle of vortex tongue bar realizes air supply pattern, improves the flexibility of air conditioning exhausting direction controlling, and can improve relaxing for air-conditioning Appropriateness.The direction change that the direction of air-out one's intention as revealed in what one says only will not be swung along pendulum leaf.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory, not Can the limitation present invention.

Brief description of the drawings

Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows the implementation for meeting the present invention Example, and for explaining principle of the invention together with specification.

Fig. 1 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 2 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 3 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 4 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 5 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 6 is a kind of structure chart of air-conditioning according to an exemplary embodiment；

Fig. 7 is a kind of flow of air conditioning control method according to an exemplary embodiment；

Fig. 8 is a kind of flow of air conditioning control method according to an exemplary embodiment；

Fig. 9 is a kind of flow of air conditioning control method according to an exemplary embodiment；

Figure 10 is a kind of flow of air conditioning control method according to an exemplary embodiment.

Description of reference numerals：100th, housing；110th, wind deflector；120th, vortex tongue bar；122nd, extension；131st, gear；141、 Gear train；150th, leaf is put；160th, temperature sensor；170th, controller；102nd, volute.

Embodiment

The following description and drawings fully show specific embodiments of the present invention, to enable those skilled in the art to Put into practice them.Embodiment only represents possible change.Unless explicitly requested, otherwise single components and functionality is optional, and And the order of operation can change.The part of some embodiments and feature can be included in or replace other embodiments Part and feature.The scope of embodiment of the present invention includes the gamut of claims, and claims institute There is obtainable equivalent.Herein, each embodiment can individually or generally be represented that this is only with term " invention " It is merely for convenience, and if in fact disclosing the invention more than one, it is not meant to automatically limit the scope of the application For any single invention or inventive concept.Herein, such as first and second or the like relational terms are used only for one Entity or operation make a distinction with another entity or operation, exist without requiring or implying between these entities or operation Any actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant be intended to it is non-exclusive Property include so that process, method or equipment including a series of key elements not only include those key elements, but also including Other key elements being not expressly set out.Each embodiment herein is described by the way of progressive, and each embodiment is stressed Be all between difference with other embodiment, each embodiment identical similar portion mutually referring to.For implementing For example disclosed structure, product etc., because it is corresponding with part disclosed in embodiment, so fairly simple, the phase of description Part is closed referring to method part illustration.

Wall hanging air conditioner in the market, air conditioner refrigerating, when heating, air conditioner structure and exhaust air flue can not be realized admittedly Determine place, accurately to blow, the present invention is main to be made air conditioning exhausting air channel change by changing air conditioner structure to realize air-conditioning It can be blown with fixed location, improve the ability that air-conditioning is precisely blown, improved the accuracy of air-conditioning, improve the degree of control of air-conditioning And comfort level.

, can be by controlling the wind deflector 110 below air-conditioner air outlet to move or lead in some embodiments of the invention The vortex tongue bar 120 crossed above control air-conditioner air outlet is rotated, or can be simultaneously by controlling the wind-guiding below air-conditioner air outlet Plate 110, which moves to rotate with the vortex tongue bar 120 above air-conditioner air outlet, makes the wind direction of air outlet change.

As shown in figures 1 and 3, air-conditioning includes the housing 100 with exhaust air flue and air outlet, it is characterised in that also wrap The moveable wind deflector 110 being arranged on below air outlet is included, wind deflector 110 is fitted with exhaust air flue wall, air-conditioning also includes setting The first drive mechanism being connected on housing 100 with wind deflector is put, wind deflector 110 is under the driving of the first drive mechanism, and edge goes out Wind wind path wall is moved, and stretches out exhaust air flue wall along air-out direction.When wind deflector 110 along air-out direction stretch out exhaust air flue wall, Changed by the direction of the wind of air outlet, air supplying distance changes.Air-conditioning can also include being arranged on above air outlet Vortex tongue bar 120 and the second drive mechanism for being arranged on housing 100, housing 100 also includes volute 102, vortex tongue bar 120 first End is hinged with volute 102, and the end of vortex tongue bar 120 second is located above air outlet along air-out direction, and vortex tongue bar first end is driven with second Motivation structure is connected, and vortex tongue bar 120 is rotated under the driving of the second drive mechanism above air outlet, controls the air-out of air outlet Angle.When vortex tongue bar 120 is rotated, changed by the direction of the wind of air outlet, air supplying distance changes.

Only it can be moved control wind deflector 110 during air-conditioning use, as shown in Fig. 2 wind deflector 110 can be set along A To it is no mobile when, the displacement of wind deflector 110 is minimum, and now wind deflector 110 does not stretch out exhaust air flue wall, drives when first Motivation structure drives wind deflector 110 along A to when gradually moving, and the displacement of wind deflector 110 becomes larger, the wind edge of air-conditioner air outlet Overhanging wind deflector 110 is exported, and air supply direction is gradually changed, and air supplying distance is from the close-by examples to those far off gradually changed, until leading as shown in Figure 2 Aerofoil 110 is moved to extreme position, and the displacement of wind deflector 110 is maximum, and air supplying distance is maximum.As shown in Fig. 2 working as wind deflector 110 along B to when gradually moving, and the displacement of wind deflector 110 is tapered into by maximum, the wind-guiding of the wind edge contraction of air-conditioner air outlet Plate 110 is exported, and air supply direction is gradually changed, and air supplying distance, which draws near, to be gradually changed, until wind deflector 110 is moved to such as Fig. 1 Shown extreme position, the displacement of wind deflector 110 is minimum, and air-conditioning distance is minimum.

Wind deflector 110 can be controlled to be in the minimum position of displacement during air-conditioning use, or, it can also control Wind deflector 110 is in the maximum position of displacement, or, wind deflector 110 can also be controlled to be in displacement minimum with moving Any position between dynamic distance is maximum, or, the displacement of wind deflector 110 can also be controlled to change over time, for example, control is led Aerofoil 110 be in it is minimum maximum to displacement from displacement, or from displacement be up to displacement it is minimum with In time change.The length that wind deflector 110 stretches out exhaust air flue wall is different, the wind direction of air-conditioner air outlet is different, and air-conditioning is sent Wind distance is also different.

It control vortex tongue bar 120 can only be rotated during air-conditioning use, as shown in Figures 2 and 3, vortex tongue bar can be set 120 along D to when not rotating also, and the rotational angle of vortex tongue bar 120 is minimum, when the second drive mechanism driving vortex tongue bar 120 along D to Rotate, the rotational angle of vortex tongue bar 120 becomes larger, angle [alpha] is tapered into above exhaust air flue, and air outlet angle gradually becomes Small, air supply direction is gradually changed, and air supplying distance, which draws near, to be gradually changed, until vortex tongue bar 120 is moved to pole as shown in Figure 4 Extreme position, the rotational angle of vortex tongue bar 120 is maximum, and air-conditioning distance is minimum.As shown in figure 4, when the second driving mechanisms control Vortex tongue bar 120 is along C to moving, and the rotational angle of vortex tongue bar 120 is tapered into by maximum, and angle [alpha] gradually becomes above exhaust air flue Greatly, square degree becomes big on air outlet, and air supply direction is gradually changed, and air supplying distance is from the close-by examples to those far off gradually changed, until vortex tongue bar 120 Extreme position as shown in Figures 2 and 3 is moved to, the rotational angle of vortex tongue bar 120 is minimum, and air-conditioning distance is maximum.

Vortex tongue bar 120 can be controlled to be in the minimum position of rotational angle during air-conditioning use, or, it can also control Vortex tongue bar 120 is in the maximum position of rotational angle, or, vortex tongue bar 120 can also be controlled to be in rotational angle minimum with turning Any position between dynamic angle is maximum, or, vortex tongue bar 120 can also be controlled to be changed over time in rotational angle, for example, control Vortex tongue bar 120 processed is in from rotational angle minimum to rotational angle maximum, or is up to rotational angle minimum from rotational angle Change over time.The rotational angle of vortex tongue bar 120 is different, and the air outlet angle of air outlet is different, the wind side of air-conditioner air outlet To difference, the air supplying distance of air-conditioning is also different.

Vortex tongue bar 120 can be controlled to rotate during air-conditioning use simultaneously to move with wind deflector 110, such as Fig. 2 and Fig. 3 institutes Show, vortex tongue bar 120 can be controlled to turn to the minimum position of rotational angle, and wind deflector 110 is moved to the maximum position of displacement Put, the wind of air-conditioner air outlet is blown out in the horizontal direction, air-conditioning is in horizontal blast pattern.

As shown in figure 4, during air-conditioning use, vortex tongue bar 120 can also be controlled to turn to the maximum position of rotational angle, Wind deflector 110 is moved to the minimum position of displacement, and the wind of air-conditioner air outlet is vertically blown out, and air-conditioning is in and sent vertically Wind pattern.

As shown in figure 5, during air-conditioning use, vortex tongue bar 120 can also be controlled to turn to the minimum position of rotational angle, Wind deflector 110 is moved to the minimum position of displacement, and air conditioning exhausting open area is maximum, the face of the wind blown out from air-conditioner air outlet Product is maximum, and air-conditioning is in maximum air supply pattern.

As shown in fig. 6, during air-conditioning use, vortex tongue bar 120 can also be controlled to turn to the maximum position of rotational angle, Wind deflector 110 is moved to the maximum position of displacement, and air-conditioner air outlet is closed.During so as not to using air-conditioning, by air outlet Close, prevent dust from entering.

During air-conditioning use, the rotational angle of vortex tongue bar 120 can be controlled to change over time, control wind deflector 110 is moved Distance is changed over time.As depicted in figs. 1 and 2, the rotation direction of vortex tongue bar 120 and the moving direction of wind deflector 110 can also be controlled It is identical；The rotational angle of control vortex tongue bar 120 is gradually reduced, and the control displacement of wind deflector 110 gradually increases, or, control whirlpool The rotational angle of tongue bars 120 gradually increases, and the control displacement of wind deflector 110 is gradually reduced.As shown in Figure 5 and Figure 6, it can also control The rotation direction of vortex tongue bar 120 processed and the moving direction of wind deflector 110 are opposite；The rotational angle of control vortex tongue bar 120 is gradually reduced, and is controlled The displacement of wind deflector 110 is gradually reduced, or, the rotational angle of control vortex tongue bar 120 gradually increases, and control wind deflector 110 is moved Dynamic distance gradually increases.

In some embodiments of the invention, the distance that wind deflector 110 is moved is different, and the angle that vortex tongue bar 120 is rotated is different, The air supply pattern of air-conditioning is different.The air supply pattern of air-conditioning can include：Horizontal blast pattern, vertical air supply pattern, maximum air-supply Pattern and without blind spot air supply pattern.

Wherein, as shown in figure 3, horizontal blast pattern refers to that the wind of air outlet is blown out in the horizontal direction.As shown in figure 4, perpendicular Straight air supply pattern refers to that the wind of air outlet is vertically blown out.As shown in figure 5, maximum air supply pattern refers to the wind edge of air outlet Maximum air-out open area blowout.Without blind spot air supply pattern, refer to that the wind of air outlet is blown out along change direction.Below air outlet Wind deflector 110 move or air outlet above vortex tongue bar 120 rotate when, air-out direction changes.

Horizontal blast pattern can include control wind deflector 110 displacement maximum, realize horizontal blast pattern；Or, Control the rotational angle of vortex tongue bar 120 minimum, realize horizontal blast pattern；Or, control wind deflector 110 displacement maximum and whirlpool The rotational angle of tongue bars 120 is minimum, realizes horizontal blast pattern.

Vertical air supply pattern can include control wind deflector 110 displacement minimum, realize vertical air supply pattern；Or, Control the rotational angle of vortex tongue bar 120 maximum, realize vertical air supply pattern；Or, control wind deflector 110 displacement minimum and whirlpool The rotational angle of tongue bars 120 is maximum, realizes vertical air supply pattern.

Maximum air supply pattern can include control wind deflector 110 displacement minimum, realize maximum air supply pattern；Or, Control the rotational angle of vortex tongue bar 120 minimum, realize maximum air supply pattern；Or, control wind deflector 110 displacement minimum and whirlpool The rotational angle of tongue bars 120 is minimum, realizes maximum air supply pattern.

It can include the control displacement of wind deflector 110 without blind spot air supply pattern to change over time, realize without blind spot air-supply Pattern；Or, the rotational angle of control vortex tongue bar 120 is changed over time, and is realized without blind spot air supply pattern；Or, control wind deflector 110 displacements and the rotational angle of vortex tongue bar 120 are all changed over time, and are realized without blind spot air supply pattern.

In some embodiments of the present invention, air-out direction can be determined according to the air supply pattern of air-conditioning, and according to air-conditioning Air-out direction control wind deflector 110 displacement and the rotational angle of vortex tongue bar 120 determine air-out direction.

In some embodiments of the present invention, air-out direction can be determined, according to determination according to the air supply pattern of air-conditioning Air-out direction controls the operation of the first drive mechanism, and driving wind deflector 110 is moved along exhaust air flue wall, and stretches out along air-out direction Wind wind path wall.When air supply pattern is horizontal blast pattern, air-out direction is blows out in the horizontal direction, and control wind deflector 110 is moved Dynamic distance is maximum；When air supply pattern is vertical air supply pattern, air-out direction controls wind deflector 110 vertically to blow out Displacement is minimum；When air supply pattern is maximum air supply pattern, air-out direction is to be blown out along maximum air-out open area, controls wind-guiding The displacement of plate 110 is minimum；When air supply pattern is without blind spot air supply pattern, air-out direction controls to be blown out along change direction The displacement of wind deflector 110 is changed over time.

In some embodiments of the present invention, air-out direction can be determined, according to determination according to the air supply pattern of air-conditioning Air-out direction controls the operation of the second drive mechanism, and driving vortex tongue bar 120 is rotated in the top of air outlet, controls the air-out of air outlet Angle.When air supply pattern is horizontal blast pattern, air-out direction is blows out in the horizontal direction, the angle of rotation of control vortex tongue bar 120 Degree is minimum；When air supply pattern is vertical air supply pattern, air-out direction is vertically blows out, and control vortex tongue bar 120 is rotated Angle is maximum；When air supply pattern is maximum air supply pattern, air-out direction is to be blown out along maximum air-out open area, controls vortex tongue bar 120 rotational angles are minimum；When air supply pattern is without blind spot air supply pattern, air-out direction controls whirlpool to be blown out along change direction The rotational angle of tongue bars 120 is changed over time.

In some embodiments of the present invention, air-out direction can be determined, according to determination according to the air supply pattern of air-conditioning Air-out direction controls the operation of the first drive mechanism, and driving wind deflector 110 is moved along exhaust air flue wall, and stretches out along air-out direction Wind wind path wall；And, the operation of the second drive mechanism is controlled according to the air-out direction of determination, driving vortex tongue bar 120 is in the upper of air outlet Side is rotated, and controls the air outlet angle of air outlet.When air supply pattern is horizontal blast pattern, air-out direction is to blow in the horizontal direction Go out, control wind deflector 110 displacement is maximum and the rotational angle of vortex tongue bar 120 is minimum；When air supply pattern is vertical air supply pattern When, air-out direction is vertically blows out, and control wind deflector 110 displacement is minimum and the rotational angle of vortex tongue bar 120 is maximum； When air supply pattern is maximum air supply pattern, air-out direction is to be blown out along maximum air-out open area, controls the displacement of wind deflector 110 The minimum and rotational angle of vortex tongue bar 120 is minimum；When air supply pattern is without blind spot air supply pattern, air-out direction is along change direction Blowout, the control displacement of wind deflector 110 and the rotational angle of vortex tongue bar 120 are all changed over time.

, can be according to the operational mode and indoor environment temperature and the temperature of design temperature of air-conditioning in some implementations of the present invention The air supply pattern of degree difference control operation of air conditioner, to improve the comfort level of air-conditioning.

Wherein, design temperature refers to the operation of air conditioner temperature to be reached, can be configured using during air-conditioning.Temperature difference is Refer to the absolute value that indoor environment temperature subtracts the temperature value of design temperature.Temperature difference is more than or equal to zero.

When air-conditioning has just brought into operation, the temperature difference of indoor environment temperature and design temperature can control air-conditioning to transport than larger Row maximum air supply pattern, now air conditioning exhausting open area is maximum, and indoor maximum area region can be made rapidly to cool or rise Temperature.After the first setting time of operation of air conditioner, indoor environment temperature can control operation of air conditioner to be sent without blind spot close to design temperature Wind pattern, the wind direction change blown out from air-conditioner air outlet, air supplying distance change, to ensure the wind of air-conditioning blowout not regularly Side, improves the comfortableness of air-conditioning.Wherein, the first setting time can be 30 minutes.

It is of course also possible to the air supply pattern of operation of air conditioner is controlled according to the operational mode of air-conditioning, wherein, air conditioning operating mode Including refrigeration mode and heating mode.When operation of air conditioner refrigeration mode, operation of air conditioner horizontal blast pattern can be controlled.Because The cold wind density of air-conditioning blowout is more than indoor natural wind density, and when wind levels are blown out, cold wind can gradually sink, and will not directly blow Onto the body of user, user can be so allowed to feel more comfortable in refrigeration.When operation of air conditioner heating mode, air-conditioning can be controlled Run vertical air supply pattern.Because the hot blast density of air-conditioning blowout is less than indoor natural wind density, when wind is blown out vertically, hot blast It can be gradually increasing, will not be directly blown onto on the body of user, so user can be allowed to feel more comfortable when heating.

Wherein, vertical air supply pattern wind, which is vertically blown out, refers to that wind is blown out vertically along ground direction.

Wherein temperature difference includes first threshold, when temperature difference is more than the first threshold values, indoor environment temperature and design temperature Temperature difference than larger, when temperature difference is less than or equal to the first threshold values, indoor environment temperature is close to design temperature.Such as the first threshold It is worth for 3 DEG C.

In some embodiments of the present invention, the first drive mechanism can include gear 131 and the tooth coordinated with gear 131 Bar, gear 131 is arranged on housing 100, and rack is arranged on wind deflector 110, gear 131, for controlling wind deflector 110 to move It is dynamic.The first drive mechanism is controlled to run, including control gear 131 is rotated.When gear 131 is rotated, it is arranged on wind deflector 110 Rack drives wind deflector 110 move, air-conditioning direction change, air supplying distance change.

In some embodiments of the present invention, the first drive mechanism include gear 131, with gear 131 coordinate rack and First motor, gear 131 is arranged on housing, and rack is arranged on wind deflector 110, gear and the first motor connection, the first electricity Machine is used to control gear 131 to rotate, and for controlling wind deflector 110 to be moved along exhaust air flue wall.

Those skilled in the art can also set the first drive mechanism of other forms, as long as wind deflector 110 can be controlled Movement.

In some embodiments of the present invention, the second drive mechanism includes the second motor being arranged on housing 100, second Motor output shaft is connected with the first end of vortex tongue bar 120, and the second motor is used to control vortex tongue bar 120 to rotate.Control the second driving machine Structure is run, including the second motor of control is rotated.When the second motor is rotated, the second motor drives vortex tongue bar 120 to rotate, and air-conditioning is sent Wind direction change, air supplying distance change.

Wherein, vortex tongue bar 120 includes first end and the second end.

In some embodiments of the present invention, the second drive mechanism includes the gear train 141 being arranged on housing 100, tooth The output shaft end of wheel group 141 is connected with vortex tongue bar 120, and gear train 141 is used to control vortex tongue bar 120 to rotate.Control second drives Mechanism is run, including control gear train 141 is rotated.When gear train 141 is rotated, gear train 141 drives vortex tongue bar 120 to rotate, Air-conditioning direction change, air supplying distance change.

In some embodiments of the present invention, the second drive mechanism includes the second motor and the tooth being arranged on housing 100 Wheel group 141, the second motor is connected with the input shaft end of gear train 141, output shaft end and the vortex tongue bar 120 first of gear train 141 End connection, the second motor is used to control gear train 141 to rotate, and gear train 141 is used to control vortex tongue bar 120 to rotate.Control second Drive mechanism is run, including the second motor of control is rotated.When the second motor is rotated, the second motor driven gear group 141 is rotated, Gear train 141 drives vortex tongue bar 120 to rotate, air-conditioning direction change, air supplying distance change.Those skilled in the art can also Second drive mechanism of other forms is set, as long as vortex tongue bar 120 can be controlled to rotate.

In some embodiments of the present invention, as shown in Fig. 2 vortex tongue bar 120 can also include being arranged on above air outlet Extension 122, the first end of extension 122 is movably disposed on housing 100, the end of extension 122 second and vortex tongue bar 120 Second end is connected, the second motor, for controlling vortex tongue bar to rotate, vortex tongue bar, for driving extension 122 to move.Increase extension Portion 122 can be set vortex tongue bar 120 and housing 100 integrally to improve the intensity of vortex tongue bar 120, prevent dust from The top of vortex tongue bar 120 enters inside air-conditioning.

Wherein, extension 122 includes first end and the second end.

In some embodiments of the present invention, extension 122 is arc.General air-conditioner housing air outlet upper plate is arc Shape, for the ease of extension 122 is arranged in the upper plate of housing, extension 122 be arranged to upper plate identical shape, To reduce the area that extension 122 is arranged on housing.Extension 122 and vortex tongue bar 120 are in 90 °.So as in vortex tongue bar 120 When rotating equal angular, the area that extension 122 is moved is maximum.Wind deflector 110 is arc.Under general air-conditioner housing air outlet The exhaust air flue wall of side is arc, is fitted for the ease of wind deflector 110 with exhaust air flue wall, wind deflector 110 is arranged to and air-out Wind path wall identical shape, to reduce the area that wind deflector 110 is arranged on exhaust air flue wall.

In some embodiments of the present invention, air-conditioning also includes being provided with the remote control of air supplying distance pattern, remote control with Controller is connected.

When using remote control, air supplying distance pattern can be entered, the first drive mechanism can be controlled to run, wind-guiding is driven Plate 110 is moved, and the displacement of wind deflector 110 is bigger, and air supplying distance is more remote；Or the second drive mechanism can be controlled to run, drive Dynamic vortex tongue bar 120 is rotated, and the rotational angle of vortex tongue bar 120 is bigger, and air supplying distance is nearer；Or control simultaneously the first drive mechanism and Second drive mechanism is run, and the movement of driving wind deflector 110 and vortex tongue bar 120 are rotated, and reach the air supplying distance of demand, improve air-conditioning Comfort level.

In some embodiments of the present invention, air-conditioning also includes being provided with the remote control of air-out direction pattern, remote control with Controller is connected.

When using remote control, air-out direction pattern can be entered, the first drive mechanism can be controlled to run, wind-guiding is driven Plate 110 is moved, and the displacement of wind deflector 110 is bigger, and air supply direction is blown closer to horizontal direction；Or the second drive can be controlled Motivation structure is run, and driving vortex tongue bar 120 is rotated, and the rotational angle of vortex tongue bar 120 is bigger, and air supply direction is sent closer to vertical direction Wind；Or control the first drive mechanism and the second drive mechanism to run simultaneously, 120 turns of the movement of driving wind deflector 110 and vortex tongue bar It is dynamic, the air-out direction of demand is reached, the comfort level of air-conditioning is improved.

In some embodiments of the present invention, air-conditioning also includes being arranged on the pendulum leaf 150 below the air outlet of housing 100.With Just while wind deflector 110 and the movement of vortex tongue bar 120 is controlled, also control pendulum leaf 150 is swung, and reaches more flexible control air-conditioning The air-out direction of air outlet.

As shown in figure 1, the embodiment of the present invention provides a kind of air-conditioning, air-conditioning includes：

Rotatable vortex tongue bar 120 above air outlet is arranged on, vortex tongue bar 120 is used for the air outlet angle for controlling air outlet；

Controller 170, the air supply pattern for determining air-conditioning；And, the rotational angle of control vortex tongue bar 120 realizes air-supply mould Formula；Wherein, air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum air supply pattern and without blind spot air supply pattern.

According to above-mentioned technical proposal, during operation of air conditioner, controller 170 can determine the air supply pattern of air-conditioning, pass through The rotational angle of control vortex tongue bar 120 realizes air supply pattern, improves the flexibility of air conditioning exhausting direction controlling, and can improve sky The comfort level of tune.The direction change that the direction of air-out one's intention as revealed in what one says only will not be swung along pendulum leaf.

Air-conditioning provided in an embodiment of the present invention, air-conditioning also includes：

The wind deflector 110 that can be moved along exhaust air flue wall below air outlet is arranged on, wind deflector 110 can be along air-out direction Stretch out exhaust air flue wall；

Controller 170 is additionally operable to control the displacement of wind deflector 110 and the rotational angle of vortex tongue bar 120 realizes air-supply mould Formula.

During operation of air conditioner, controller 170 can be by controlling the displacement and vortex tongue bar 120 of wind deflector 110 Rotational angle realizes air supply pattern, and air-conditioning pattern is different, and air-out direction is different, and air supplying distance is also different, improves air-conditioning and goes out The flexibility of wind direction controlling, and the comfort level of air-conditioning can be improved.The side that the direction of air-out one's intention as revealed in what one says only will not be swung along pendulum leaf To change.

Air-conditioning provided in an embodiment of the present invention, air-conditioning also includes remote control or control panel, and remote control or control panel are used In the air supply pattern for receiving user's selection, controller 170 is used for the air-supply mould that the air supply pattern that is selected according to user determines air-conditioning Formula.So that user can select suitable air supply pattern according to actual needs, the flexibility of the air-out direction control of air-conditioning is improved.

Air-conditioning provided in an embodiment of the present invention, controller is used for according to air conditioning operating mode, determines the air supply pattern of air-conditioning； When operation of air conditioner is in refrigeration mode, the air supply pattern for determining air-conditioning is horizontal blast pattern；When operation of air conditioner is in heating mode When, the air supply pattern for determining air-conditioning is vertical air supply pattern.

When operation of air conditioner refrigeration mode, operation of air conditioner horizontal blast pattern can be controlled.Because the cold wind of air-conditioning blowout Density is more than indoor natural wind density, and when wind levels are blown out, cold wind can gradually sink, and will not be directly blown onto on the body of user, User can be so allowed to feel more comfortable in refrigeration.When operation of air conditioner heating mode, operation of air conditioner can be controlled to blow vertically Pattern.Because the hot blast density of air-conditioning blowout is less than indoor natural wind density, when wind is blown out vertically, hot blast can be gradually increasing, It will not be directly blown onto on the body of user, so user can be allowed to feel more comfortable when heating.Sky is automatically controlled by operational mode The air supply pattern of tune, makes air conditioning exhausting control more intelligent, hommization；And utilize cold wind and the different strike angle air-conditionings of hot blast The different air supply pattern of operation can improve the comfortableness of air-conditioning.

As shown in figure 1, air-conditioning provided in an embodiment of the present invention, air-conditioning can also include：

Temperature sensor 160, for measuring indoor environment temperature；

Controller 170, the temperature difference for calculating indoor environment temperature and design temperature；According to temperature difference or according to temperature Difference and air conditioning operating mode, determine the air supply pattern of air-conditioning.

During operation of air conditioner, controller 170 can be used for true according to the temperature difference of indoor environment temperature and design temperature Determine the air supply pattern of air-conditioning.By the air supply pattern of temperature difference automatic control air conditioner, air conditioning exhausting is set to control more intelligent, human nature Change.

During operation of air conditioner, controller 170 can be used for temperature difference according to indoor environment temperature and design temperature and Air conditioning operating mode, determines the air supply pattern of air-conditioning.Pass through temperature difference and the air-supply mould of air conditioning operating mode automatic control air conditioner Formula, makes air conditioning exhausting control more intelligent, hommization.

Air-conditioning provided in an embodiment of the present invention, controller 170 can be used for,

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern for determining air-conditioning is without blind spot air supply pattern.

When temperature difference is more than first threshold, indoor environment temperature differs larger with design temperature, the maximum air-supply mould of control Formula, now air conditioning exhausting open area is maximum, can make indoor maximum area region rapidly cooling or heating, to improve sky The comfort level of tune.When temperature difference is less than or equal to first threshold, indoor environment temperature can control air-conditioning to transport close to design temperature Row is without blind spot air supply pattern, and the wind direction blown out from air-conditioner air outlet is changed over time, and air supplying distance is changed over time, it is ensured that empty Adjust the wind of blowout not in fixed place, improve the comfortableness of air-conditioning.By the air supply pattern of temperature difference automatic control air conditioner, make sky The air control system of recalling is more intelligent, hommization.

Air-conditioning provided in an embodiment of the present invention, when air-conditioning only sets vortex tongue bar 120, controller 170 is used for,

Control the rotational angle of vortex tongue bar 120 minimum, realize maximum air supply pattern；

The rotational angle of control vortex tongue bar 120 is changed over time, and is realized without blind spot air supply pattern.

Air-conditioning provided in an embodiment of the present invention, when air-conditioning had both set vortex tongue bar 120, set wind deflector 110 again, controller 170 are used for,

Control the displacement of wind deflector 110 minimum and the rotational angle of vortex tongue bar 120 is minimum, realize maximum air supply pattern；

The control displacement of wind deflector 110 is changed over time, or, the rotational angle of control vortex tongue bar 120 is changed over time, Or, the control displacement of wind deflector 110 and the rotational angle of vortex tongue bar 120 are all changed over time, and are realized without blind spot air supply pattern.

Air-conditioning is realized without blind spot air supply pattern, that is, controls the wind direction of air-conditioner air outlet blowout to change over time, air-supply away from , can be by controlling the displacement of wind deflector 110 to change over time from changing over time, air-conditioning direction is changed over time, Air-conditioning distance is changed over time；Can also be by controlling the rotational angle of vortex tongue bar 120 to change over time, air-conditioning direction Change over time, air-conditioning distance is changed over time；Can also be by controlling the displacement of wind deflector 110 anaplasia at any time simultaneously Change, the rotational angle of control vortex tongue bar 120 is changed over time, and air-conditioning direction is changed over time, and air-conditioning distance is with the time Change.So as to select different without blind spot air supply pattern implementation according to different demands, control air conditioning exhausting direction Make more intelligent, hommization.

Air-conditioning provided in an embodiment of the present invention, in addition to the first drive mechanism for being connected with wind deflector 110 and with vortex tongue bar Second drive mechanism of 120 connections, controller 170 is connected with the first drive mechanism and the second drive mechanism respectively.Pass through control The operation of first drive mechanism realizes that control wind deflector 110 is moved, by controlling the operation of the second drive mechanism to realize control vortex tongue bar 120 rotate, and finally realize the air supply pattern of air-conditioning.

Air-conditioning provided in an embodiment of the present invention, controller 170 is used for,

When temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

When temperature difference is less than or equal to first threshold, the air supply pattern of air-conditioning is determined according to air conditioning operating mode.

When temperature difference is more than first threshold, indoor environment temperature differs larger with design temperature, the maximum air-supply mould of control Formula, now air conditioning exhausting open area is maximum, can make indoor maximum area region rapidly cooling or heating, to improve sky The comfort level of tune.When temperature difference is less than or equal to first threshold, indoor environment temperature can be transported close to design temperature according to air-conditioning Row mode controls air supply pattern, to improve the comfortableness of air-conditioning.

Air-conditioning provided in an embodiment of the present invention, controller 170 is used for,

When temperature difference is less than or equal to first threshold and operation of air conditioner refrigeration mode, the air supply pattern for determining air-conditioning is level Air supply pattern；

When temperature difference is less than or equal to first threshold and operation of air conditioner heating mode, the air supply pattern for determining air-conditioning is vertical Air supply pattern.

When temperature difference is less than or equal to first threshold, air supply pattern can be controlled according to air conditioning operating mode, to improve The comfortableness of air-conditioning, during operation of air conditioner refrigeration mode, can control operation of air conditioner horizontal blast pattern.Because air-conditioning blowout is cold Wind density is more than indoor natural wind density, and when wind levels are blown out, cold wind can gradually sink, and will not be directly blown onto the body of user On, it can so allow user to feel more comfortable in refrigeration.When operation of air conditioner heating mode, operation of air conditioner can be controlled to send vertically Wind pattern.Because air-conditioning blowout hot blast density be less than indoor natural wind density, when wind is blown out vertically, hot blast can gradually on Rise, will not be directly blown onto on the body of user, so user can be allowed to feel more comfortable when heating.

Air-conditioning provided in an embodiment of the present invention, when air-conditioning only sets vortex tongue bar 120, controller 170 is used for,

Control the rotational angle of vortex tongue bar 120 minimum, realize horizontal blast pattern；

Control the rotational angle of vortex tongue bar 120 maximum, realize vertical air supply pattern.

Air-conditioning provided in an embodiment of the present invention, when air-conditioning had both set vortex tongue bar 120, set wind deflector 110 again, controller 170 are used for,

Control wind deflector displacement maximum and vortex tongue bar rotational angle is minimum, realize horizontal blast pattern；

Control wind deflector displacement minimum and vortex tongue bar rotational angle is maximum, realize vertical air supply pattern.

By controlling the displacement of wind deflector 110 and the rotational angle of vortex tongue bar 120 to realize the air supply pattern needed, sky is used Recall air port air-out direction control more intelligent.

As shown in fig. 7, the embodiments of the invention provide a kind of control method for air-conditioning, control method includes：

S701, the air supply pattern for determining air-conditioning, wherein, air supply pattern includes horizontal blast pattern, vertical air supply pattern, most Big air supply pattern and without blind spot air supply pattern；

S702, the rotational angle of control vortex tongue bar realize air supply pattern, wherein, vortex tongue bar is arranged on above air outlet, can The air outlet angle of air outlet is rotated and controlled above air outlet.

According to above-mentioned technical proposal, during operation of air conditioner, the air supply pattern of air-conditioning is determined, by controlling vortex tongue bar 120 Rotational angle realize air supply pattern, improve the flexibility of air conditioning exhausting direction controlling, and the comfort level of air-conditioning can be improved.Go out The direction change that the direction of air port wind only will not be swung along pendulum leaf.

Control method provided in an embodiment of the present invention, control method also includes：

S703, the displacement for controlling wind deflector and vortex tongue bar rotational angle realize air supply pattern, wherein, wind deflector is set Put below air outlet, can be moved along exhaust air flue wall and exhaust air flue wall can be stretched out along air-out direction.

During operation of air conditioner, the air supply pattern of air-conditioning is determined, by the displacement and vortex tongue bar that control wind deflector 110 120 rotational angle realizes air supply pattern, and air-conditioning pattern is different, and air-out direction is different, and air supplying distance is also different, improves empty The flexibility of wind direction controlling is recalled, and the comfort level of air-conditioning can be improved.The direction of air-out one's intention as revealed in what one says only will not be swung along pendulum leaf Direction change.

Control method provided in an embodiment of the present invention, step S701 can include：

S7011, the air supply pattern for determining according to the temperature difference of indoor environment temperature and design temperature air-conditioning；Or,

S7012, the air supply pattern for determining according to air conditioning operating mode air-conditioning；Or,

S7013, the air supply pattern for determining according to temperature difference and air conditioning operating mode air-conditioning.

The mode of different determination air supply patterns can be selected according to actual needs, to improve the air-out direction control of air-conditioning The flexibility of system, makes air conditioning exhausting control more intelligent, hommization.

As shown in figure 8, control method provided in an embodiment of the present invention, step S7011 determines sending for air-conditioning according to temperature difference Wind pattern includes：

S70111, when temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

S70112, when temperature difference be less than or equal to first threshold when, determine air-conditioning air supply pattern be without blind spot air supply pattern.

When temperature difference is more than first threshold, indoor environment temperature differs larger with design temperature, the maximum air-supply mould of control Formula, now air conditioning exhausting open area is maximum, can make indoor maximum area region rapidly cooling or heating, to improve sky The comfort level of tune.When temperature difference is less than or equal to first threshold, indoor environment temperature can control air-conditioning to transport close to design temperature Row is without blind spot air supply pattern, and the wind direction blown out from air-conditioner air outlet is changed over time, and air supplying distance is changed over time, it is ensured that empty Adjust the wind of blowout not in fixed place, improve the comfortableness of air-conditioning.By the air supply pattern of temperature difference automatic control air conditioner, make sky The air control system of recalling is more intelligent, hommization.

Control method provided in an embodiment of the present invention, when air supply pattern is maximum air supply pattern, the step S703 controls of correspondence The displacement of wind deflector processed and the rotational angle of vortex tongue bar realize that air supply pattern includes：

Control the displacement of wind deflector minimum and vortex tongue bar rotational angle is minimum, realize maximum air supply pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is maximum air supply pattern, the step S702 controls of correspondence The rotational angle of vortex tongue bar processed realizes that air supply pattern includes：

Control the rotational angle of vortex tongue bar minimum, realize maximum air supply pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is without blind spot air supply pattern, the step S703 of correspondence The displacement of wind deflector and the rotational angle of vortex tongue bar is controlled to realize that air supply pattern includes：

The displacement of control wind deflector is changed over time, or, the rotational angle of control vortex tongue bar is changed over time, or Person, controls the displacement of wind deflector and the rotational angle of vortex tongue bar to change over time, realizes without blind spot air supply pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is without blind spot air supply pattern, the step S702 of correspondence The rotational angle of vortex tongue bar realizes that air supply pattern includes：

The rotational angle of control vortex tongue bar is changed over time.

Air-conditioning is realized without blind spot air supply pattern, that is, controls the wind direction of air-conditioner air outlet blowout to change over time, air-supply away from , can be by controlling the displacement of wind deflector 110 to change over time from changing over time, air-conditioning direction is changed over time, Air-conditioning distance is changed over time；Can also be by controlling the rotational angle of vortex tongue bar 120 to change over time, air-conditioning direction Change over time, air-conditioning distance is changed over time；Can also be by controlling the displacement of wind deflector 110 anaplasia at any time simultaneously Change, the rotational angle of control vortex tongue bar 120 is changed over time, and air-conditioning direction is changed over time, and air-conditioning distance is with the time Change.So as to select different without blind spot air supply pattern implementation according to different demands, control air conditioning exhausting direction Make more intelligent, hommization.

As shown in figure 9, control method provided in an embodiment of the present invention, step S7012 determines empty according to air conditioning operating mode The air supply pattern of tune includes：

S70121, when operation of air conditioner is in refrigeration mode, determine air-conditioning air supply pattern be horizontal blast pattern；

S70122, when operation of air conditioner is in heating mode, determine air-conditioning air supply pattern be vertical air supply pattern.

When operation of air conditioner refrigeration mode, operation of air conditioner horizontal blast pattern can be controlled.Because the cold wind of air-conditioning blowout Density is more than indoor natural wind density, and when wind levels are blown out, cold wind can gradually sink, and will not be directly blown onto on the body of user, User can be so allowed to feel more comfortable in refrigeration.When operation of air conditioner heating mode, operation of air conditioner can be controlled to blow vertically Pattern.Because the hot blast density of air-conditioning blowout is less than indoor natural wind density, when wind is blown out vertically, hot blast can be gradually increasing, It will not be directly blown onto on the body of user, so user can be allowed to feel more comfortable when heating.Sky is automatically controlled by operational mode The air supply pattern of tune, makes air conditioning exhausting control more intelligent, hommization；And utilize cold wind and the different strike angle air-conditionings of hot blast The different air supply pattern of operation can improve the comfortableness of air-conditioning.

As shown in Figure 10, control method provided in an embodiment of the present invention, step S7013 is according to temperature difference and operation of air conditioner mould Formula, determining the air supply pattern of air-conditioning includes：

S70131, when temperature difference is more than first threshold, the air supply pattern for determining air-conditioning is maximum air supply pattern；

S70132, when temperature difference be less than or equal to first threshold when, the air supply pattern of air-conditioning is determined according to air conditioning operating mode.

When temperature difference is more than first threshold, indoor environment temperature differs larger with design temperature, the maximum air-supply mould of control Formula, now air conditioning exhausting open area is maximum, can make indoor maximum area region rapidly cooling or heating, to improve sky The comfort level of tune.When temperature difference is less than or equal to first threshold, indoor environment temperature can be transported close to design temperature according to air-conditioning Row mode controls air supply pattern, to improve the comfortableness of air-conditioning.

Control method provided in an embodiment of the present invention, step S70132 includes；

When operation of air conditioner is in refrigeration mode, the air supply pattern for determining air-conditioning is horizontal blast pattern；

When operation of air conditioner is in heating mode, the air supply pattern for determining air-conditioning is vertical air supply pattern.

When temperature difference is less than or equal to first threshold, air supply pattern can be controlled according to air conditioning operating mode, to improve The comfortableness of air-conditioning, during operation of air conditioner refrigeration mode, can control operation of air conditioner horizontal blast pattern.Because air-conditioning blowout is cold Wind density is more than indoor natural wind density, and when wind levels are blown out, cold wind can gradually sink, and will not be directly blown onto the body of user On, it can so allow user to feel more comfortable in refrigeration.When operation of air conditioner heating mode, operation of air conditioner can be controlled to send vertically Wind pattern.Because air-conditioning blowout hot blast density be less than indoor natural wind density, when wind is blown out vertically, hot blast can gradually on Rise, will not be directly blown onto on the body of user, so user can be allowed to feel more comfortable when heating.

Control method provided in an embodiment of the present invention, when air supply pattern is horizontal blast pattern, the step S703 controls of correspondence The displacement of wind deflector processed and the rotational angle of vortex tongue bar realize that air supply pattern includes：

Control wind deflector displacement maximum and vortex tongue bar rotational angle is minimum, realize horizontal blast pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is horizontal blast pattern, the step S702 controls of correspondence The rotational angle of vortex tongue bar processed realizes that air supply pattern includes：

Control vortex tongue bar rotational angle minimum, realize horizontal blast pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is vertical air supply pattern, the step S703 controls of correspondence The displacement of wind deflector processed and the rotational angle of vortex tongue bar realize that air supply pattern includes：

Control wind deflector displacement minimum and vortex tongue bar rotational angle is maximum, realize vertical air supply pattern.

Control method provided in an embodiment of the present invention, when air supply pattern is vertical air supply pattern, the step S702 controls of correspondence The rotational angle of vortex tongue bar processed realizes that air supply pattern includes：

Control vortex tongue bar rotational angle maximum, realize vertical air supply pattern.

By controlling the displacement of wind deflector 110 and the rotational angle of vortex tongue bar 120 to realize the air supply pattern needed, sky is used Recall air port air-out direction control more intelligent.

It should be appreciated that the invention is not limited in the flow and structure for being described above and being shown in the drawings, And various modifications and changes can be being carried out without departing from the scope.The scope of the present invention is only limited by appended claim System.

Claims (14)

1. a kind of air-conditioning, it is characterised in that the air-conditioning includes：

Rotatable vortex tongue bar above the air outlet is arranged on, the vortex tongue bar is used for the air-out angle for controlling the air outlet Degree；

Controller, the air supply pattern for determining the air-conditioning；And, control the rotational angle of the vortex tongue bar to realize the air-supply Pattern；Wherein, the air supply pattern includes horizontal blast pattern, vertical air supply pattern, maximum air supply pattern and blown without blind spot Pattern.

2. air-conditioning according to claim 1, it is characterised in that the air-conditioning also includes：

The wind deflector that can be moved along exhaust air flue wall below air outlet is arranged on, the wind deflector can stretch out institute along air-out direction State exhaust air flue wall；

The controller is additionally operable to control to send described in the displacement of the wind deflector and the rotational angle realization of the vortex tongue bar Wind pattern.

3. air-conditioning according to claim 1 or 2, it is characterised in that the controller is used for according to air conditioning operating mode, really The air supply pattern of the fixed air-conditioning；

When the operation of air conditioner is in refrigeration mode, the air supply pattern for determining the air-conditioning is the horizontal blast pattern； When the operation of air conditioner is in heating mode, the air supply pattern for determining the air-conditioning is the vertical air supply pattern.

4. air-conditioning according to claim 1 or 2, it is characterised in that the air-conditioning also includes：

Temperature sensor, for measuring indoor environment temperature；

The controller, is transported for the temperature difference according to indoor environment temperature and design temperature or according to the temperature difference and air-conditioning Row mode, determines the air supply pattern of the air-conditioning.

5. air-conditioning according to claim 4, it is characterised in that the controller is used for,

When the temperature difference is more than first threshold, the air supply pattern for determining the air-conditioning is the maximum air supply pattern；

When the temperature difference is less than or equal to first threshold, determine the air supply pattern of the air-conditioning to be described without blind spot air-supply Pattern.

6. air-conditioning according to claim 4, it is characterised in that the controller is used for,

When the temperature difference is more than first threshold, the air supply pattern for determining the air-conditioning is the maximum air supply pattern；

When the temperature difference is less than or equal to first threshold, the air-supply of the air-conditioning is determined according to the air conditioning operating mode Pattern.

7. air-conditioning according to claim 6, it is characterised in that the controller is used for,

When the operation of air conditioner is in refrigeration mode, the air supply pattern for determining the air-conditioning is the horizontal blast pattern；

When the operation of air conditioner is in heating mode, the air supply pattern for determining the air-conditioning is the vertical air supply pattern.

8. a kind of control method for air-conditioning, it is characterised in that the control method includes：

The air supply pattern of the air-conditioning is determined, wherein, the air supply pattern includes horizontal blast pattern, vertical air supply pattern, most Big air supply pattern and without blind spot air supply pattern；

The rotational angle of control vortex tongue bar realizes the air supply pattern, wherein, the vortex tongue bar is arranged on above the air outlet, The air outlet angle of the air outlet can be rotated and controlled above the air outlet.

9. control method according to claim 8, it is characterised in that the control method also includes：

The displacement of wind deflector and the rotational angle of vortex tongue bar is controlled to realize the air supply pattern, wherein, the wind deflector is set Put below air outlet, can be moved along exhaust air flue wall and the exhaust air flue wall can be stretched out along air-out direction.

10. control method according to claim 8 or claim 9, it is characterised in that the air-supply mould of the determination air-conditioning Formula includes：

The air supply pattern of the air-conditioning is determined according to the temperature difference of indoor environment temperature and design temperature；Or, according to sky Allocation and transportation row mode determines the air supply pattern of the air-conditioning；Or, institute is determined according to the temperature difference and air conditioning operating mode State the air supply pattern of air-conditioning.

11. control method according to claim 10, it is characterised in that the air-conditioning is determined according to air conditioning operating mode The air supply pattern includes：

When the operation of air conditioner is in refrigeration mode, the air supply pattern for determining the air-conditioning is the horizontal blast pattern；

When the operation of air conditioner is in heating mode, the air supply pattern for determining the air-conditioning is vertical air supply pattern.

12. control method according to claim 10, it is characterised in that the institute of the air-conditioning is determined according to the temperature difference Air supply pattern is stated, including：

When the temperature difference is more than first threshold, the air supply pattern for determining the air-conditioning is the maximum air supply pattern；

When the temperature difference is less than or equal to first threshold, determine the air supply pattern of the air-conditioning to be described without blind spot air-supply Pattern.

13. control method according to claim 10, it is characterised in that according to the temperature difference and the operation of air conditioner mould Formula determines that the air supply pattern of the air-conditioning includes：

When the temperature difference is more than first threshold, the air supply pattern for determining the air-conditioning is the maximum air supply pattern；

When the temperature difference is less than or equal to first threshold, the air-supply of the air-conditioning is determined according to the air conditioning operating mode Pattern.

14. control method according to claim 13, it is characterised in that the sky is determined according to the air conditioning operating mode The air supply pattern adjusted includes：

When the operation of air conditioner is in refrigeration mode, the air supply pattern for determining the air-conditioning is the horizontal blast pattern；

When the operation of air conditioner is in heating mode, the air supply pattern for determining the air-conditioning is vertical air supply pattern.