CN106352402A - Air conditioner and air supplying method thereof - Google Patents

Abstract

The invention discloses an air conditioner and an air supplying method thereof. The air conditioner comprises a shell and a control module; the shell is provided with an air inlet, an air outlet and an air duct located between the air inlet and the air outlet, an upper air guide plate rotatably connected with the shell is arranged over the air outlet, and a lower air guide plate rotatably connected with the shell is arranged under the air outlet; the control module is used for controlling the upper air guide plate and the lower air guide plate to simultaneously swing to a first preset position, guiding air flow obtained after heat exchanging to a first air supplying area, controlling the upper air guide plate and the lower air guide plate to simultaneously swing to a second preset position when the air supplying time of the first air supplying area reaches a first preset time and guiding air flow obtained after heat exchanging to a second air supplying area, wherein the first air supplying area and the second air supplying area are arranged in a staggered or spaced mode. In the air conditioner, by supplying air to the second air supplying area after air is supplied to the first air supplying area for the first preset time, the comfort of the air conditioner is significantly improved.

Description

Air-conditioner and its air supply method

Technical field

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

Background technology

Split-type air conditioner during opening refrigeration, because existing air outlet arranges imperfection so that air outlet Leaving air temp is too low, and the temperature of room surrounding is too high, and thermo parameters method is uneven, and this results in user just to air-out The position of mouth, by cold wind blow-through, easily produces flu, and the imperceptible cool feeling of the people of other positions in room, lead to air-conditioning Comfortableness is greatly reduced.

Content of the invention

The main object of the present invention is to provide a kind of air-conditioner it is intended to the indoor air themperature of quick regulation, improves user Comfort level.

For achieving the above object, air-conditioner proposed by the present invention includes:

Housing, described housing has air inlet, air outlet and the air channel being located between described air inlet and described air outlet； The top of described air outlet is provided with the upper wind deflector being connected with described housing into rotation, and the lower section of described air outlet is provided with and institute State the lower wind deflector of housing into rotation connection；

Control module, for controlling described upper wind deflector and lower wind deflector to be rocked to the first predeterminated position simultaneously, by heat exchange Air-flow afterwards guides to the first air-supply region；

When the air-supply duration in the first air-supply region reaches the first preset duration, in control, wind deflector and lower wind deflector be simultaneously It is rocked to the second predeterminated position, the air-flow after heat exchange is guided to the second air-supply region；

Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.

Preferably, described first air-supply region includes the region just to air outlet, and described second air-supply region includes being located at The region just to overlying regions for the air outlet, or include air outlet just to the region below region.

Preferably, described control module, is additionally operable to when the air-supply duration in the second air-supply region reaches the second preset duration, In control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, and the air-flow after heat exchange is guided to the 3rd blow zones Domain；

Wherein, described 3rd air-supply region and described first air-supply region partly overlap or spacing setting；Described 3rd send Wind region is partly overlapped or spacing setting with described second air-supply region.

Preferably, described first air-supply region includes the region just to air outlet, and described second air-supply region includes air-out Just to the region below region, described 3rd air-supply region includes the region just to overlying regions for the air outlet to mouth.

Preferably, described control module, is additionally operable to when the air-supply duration in the 3rd air-supply region reaches three preset duration, In control, wind deflector and lower wind deflector are rocked to the first predeterminated position simultaneously, and the air-flow after heat exchange is guided to the first blow zones Domain.

Preferably, described air-conditioner also includes the pendulum leaf of correspondence described air outlet setting；

Positioner, for detecting the thermal source in current air-supply region；

Described control module, is additionally operable to control described pendulum leaf to guide the air-flow after heat exchange to thermal source.

The present invention also proposes a kind of air supply method of air-conditioner, and air-conditioner includes being arranged above the air outlet of air-conditioner Upper wind deflector, and the lower wind deflector below air outlet；

The air supply method of described air-conditioner includes:

Control described upper wind deflector and lower wind deflector to be rocked to the first predeterminated position simultaneously, by the air-flow after heat exchange guide to First air-supply region；

When the air-supply duration in the first air-supply region reaches the first preset duration, in control, wind deflector and lower wind deflector be simultaneously It is rocked to the second predeterminated position, the air-flow after heat exchange is guided to the second air-supply region；

Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.

Preferably, on described control, wind deflector and lower wind deflector are rocked to the second predeterminated position simultaneously, after heat exchange Air-flow guides and also includes to after the step in the second air-supply region:

When the air-supply duration in the second air-supply region reaches the second preset duration, in control, wind deflector and lower wind deflector be simultaneously It is rocked to the 3rd predeterminated position, the air-flow after heat exchange is guided to the 3rd air-supply region；

Wherein, described 3rd air-supply region and described first air-supply region partly overlap or spacing setting；Described 3rd send Wind region is partly overlapped or spacing setting with described second air-supply region.

Preferably, on described control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, after heat exchange Air-flow guides and also includes to after the step in the 3rd air-supply region:

When the air-supply duration in the 3rd air-supply region reaches three preset duration, in control, wind deflector and lower wind deflector be simultaneously It is rocked to the first predeterminated position, the air-flow after heat exchange is guided to the first air-supply region.

Preferably it is characterised in that control wind deflector and lower wind deflector on described to be rocked to first and preset described simultaneously Position, the air-flow after heat exchange is guided and also includes to after the step in the first air-supply region:

The current thermal source blown in region of detection；

The pendulum leaf controlling described air-conditioner guides the air-flow after heat exchange to thermal source.

Technical solution of the present invention, is carried out to the second air-supply region after the first preset duration of being blown in the first air-supply region Air-supply, after making the temperature quick regulation in the first air-supply region, to second air-supply region temperature carry out quick regulation so that In room the temperature of each position can quickly, be uniformly reduced,

Even if the temperature of air outlet and room surrounding temperature quite, uniform distribution of temperature field is so that each in room The user in region can feel the regulation of temperature, so that comfortableness using air-conditioning is greatly improved.

Brief description

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing Have technology description in required use accompanying drawing be briefly described it should be apparent that, drawings in the following description be only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, acceptable Structure according to these accompanying drawings obtains other accompanying drawings.

Fig. 1 is the structural representation of air-conditioner one embodiment of the present invention；

Fig. 2 is the upper wind deflector of the air-conditioner of the present invention and lower wind deflector structural representation in the second predeterminated position；

Fig. 3 is air-conditioner of the present invention air-supply region scope simulation figure；

Fig. 4 is the schematic flow sheet of the air supply method of air-conditioner of the present invention.

Drawing reference numeral illustrates:

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

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation description is it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of not making creative work all its His embodiment, broadly falls into the scope of protection of the invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining the relative position relation between each part, motion conditions etc. under a certain particular pose (as shown in drawings), if should When particular pose changes, then directionality instruction also correspondingly changes therewith.

In addition, the description being related to " first ", " second " etc. in the present invention is only used for describing purpose, and it is not intended that referring to Show or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", " Two " feature can be expressed or implicitly include at least one this feature.In addition, the technical scheme between each embodiment can To be combined with each other, but must be capable of by those of ordinary skill in the art based on, when the combination of technical scheme occurs Conflicting or will be understood that the combination of this technical scheme does not exist, also not in the protection model of application claims when cannot realize Within enclosing.

The present invention mainly proposes a kind of air-conditioner, is primarily referred to as indoor apparatus of air conditioner, to increase the air-supply efficiency of air-conditioner.Empty Device is adjusted to generally comprise indoor set and off-premises station, wherein, indoor set generally comprises housing, heat exchanger assembly, air-supply assembly and wind-guiding Assembly, wherein, housing has air inlet, air outlet and is located at air channel between air inlet and air outlet, heat-exchanging component and sending Wind assembly may be contained within air channel, and wind guiding component is arranged in air channel or is arranged at air outlet.Wherein, heat-exchanging component includes Heat exchanger and heat exchanger is installed on support in air channel, heat exchanger is connected in the coolant circulating system of air-conditioner.Air-supply Assembly includes wind wheel (tubular wine wheel or axial-flow windwheel), for driving the motor of this wind wheel, in some embodiments, also wraps Include the actuating device that the driving of motor is transferred to wind wheel.Wind guiding component includes wind deflector, BAIYE and drives wind deflector and hundred Upper and lower wind-guiding is realized in the swing of the motor of leaf, wherein wind deflector, and the swing of BAIYE is realized left and right wind-guiding, in the application, led Aerofoil and BAIYE can couple air-supply, and while air-supply up and down, blow in left and right.The shape of housing can be in similar cuboid Shape (as traditional wall-hanging air conditioner indoor unit), can in cylindrical (as cabinet air-conditioner) it is also possible in imitative spherical (as wall hanging The spherical indoor apparatus of air conditioner of formula) etc..

Below by the main concrete structure describing air-conditioner.

Referring to figs. 1 to Fig. 2, in embodiments of the present invention, this air-conditioner includes:

Housing 100, described housing 100 have air inlet 110, air outlet 120 and be located at described air inlet 110 and described go out Air channel 130 between air port 120；On described housing 100, the top of corresponding described air outlet 120 is provided with and described housing 100 Rotate the upper wind deflector 200 connecting, the lower section of corresponding described air outlet 120 is provided with being connected with the rotation of described housing 100 Wind deflector 300；

Control module, for controlling described upper wind deflector 200 and lower wind deflector 300 to be rocked to the first predeterminated position simultaneously, Air-flow after heat exchange is guided to the first air-supply region alpha；

When the air-supply duration of the first air-supply region alpha reaches the first preset duration, wind deflector 200 and lower wind deflector in control 300 are rocked to the second predeterminated position simultaneously, and the air-flow after heat exchange is guided to the second air-supply region beta；

Wherein, described first air-supply region alpha and described second air-supply region beat portion overlap or spacing setting.

Specifically, in the present embodiment, housing 100 is in that strip tubular is arranged to air-conditioner taking wall-hanging air conditioner indoor unit as a example, Air inlet 110, air outlet 120, upper wind deflector 200 and lower wind deflector 300 are all along the length direction setting of housing 100.Wherein, Upper wind deflector 200 is little wind deflector, and lower wind deflector 300 is big wind deflector, certainly, can also adjust in certain embodiments and lead Aerofoil 200 and the size of lower wind deflector 300.The wind-guiding face of upper wind deflector 200 is in set towards the arcs of recesses deviating from air outlet 120 depression Put, the wind-guiding face of lower wind deflector 300 is in deviate from the arcs of recesses setting of air outlet 120 depression.The wind-guiding face of upper wind deflector 200 and under The wind-guiding face of wind deflector 300 encloses and forms the air-guiding aisle 320 with air intake vent 321 and air outlet 322, air-guiding aisle 320 Air intake vent 321 is connected with air channel 130, and the air outlet 322 of air-guiding aisle 320 is connected with interior, and the direction of air outlet 322 determines to send The direction of wind.The size and shape of air-guiding aisle 320, is arranged by rotating upper wind deflector 200 and lower wind deflector 300.Wherein, Upper wind deflector 200 is rotated with housing 100 and is connected, can be individually freely rotatable, and lower wind deflector 300 is also rotated with housing 100 and is connected, Can also individually freely rotatable so that the shape and size of air-guiding aisle 320, the direction of air outlet 322 can be according to demand Adjust so that the scope of the first air-supply region alpha and the second air-supply region beta and position can flexibly adjust according to demand very much.

After the master control borad of air-conditioner receives start-up command, in adjustment wind deflector 200 and lower wind deflector 300 arrive respective First predeterminated position, now, forms the first air-guiding aisle, wind is delivered to the first air-supply region alpha by the first air-guiding aisle, with quick The temperature of adjustment the first air-supply region alpha, taking freeze as a example.Wherein, the first air-supply region alpha can be the area just to air outlet 120 Domain or the region just to air outlet 120 overlying regions are naturally it is also possible to be just to the area below air outlet 120 region Domain, you can temperature adjustment is carried out to region, region on the upper side or region on the lower side first to align according to setting.First air-supply region alpha Scope, by the subtended angle of air outlet 322 be 30 °～80 ° as a example, could be arranged to 60 °.First air-supply region alpha is with just to air-out As a example each up and down inclined same distance in mouth 120 regions.

When the air-supply duration of the first air-supply region alpha reaches the first preset duration, wind deflector 200 and lower wind deflector in adjustment 300 arrive respective second predeterminated position, now, form the second air-guiding aisle, wind is delivered to the second air-supply by the second air-guiding aisle Region beta, with the temperature of quick adjustment the second air-supply region beta, taking freeze as a example.Wherein, the second air-supply region beta and the first blow zones The position of domain α is different, can be for the region just to air outlet 120 overlying regions naturally it is also possible to be just to air outlet 120 region The region of lower section, you can so that temperature adjustment is carried out to region on the upper side or region on the lower side according to setting.The model of the second air-supply region beta Enclose with the subtended angle of air outlet 322 for 30 °～80 °, taking 60 ° as a example.Second air-supply region beta is with just upper to air outlet 120 region As a example square region, the first air-supply region alpha and the second air-supply region beta can arrange the area it is also possible to overlapping 10%～20% with spacing Domain (is crisscross arranged), and certainly, the ratio of overlapping region can be adjusted according to the actual requirements.First preset duration can basis Actual demand is configured, such as half an hour, hour, two hours etc..

In the present embodiment, after the first preset duration that the first air-supply region alpha is blown, the second air-supply region beta is sent Wind, after making the temperature quick regulation of the first air-supply region alpha, to second air-supply region beta temperature carry out quick regulation so that In room the temperature of each position can quickly, be uniformly reduced, even if temperature at air outlet 120 and room surrounding Quite, uniform distribution of temperature field is so that the user in room Nei Ge region can feel the regulation of temperature to temperature, significantly to carry The high comfortableness using air-conditioning.

In order to first make user feel comfortable, then by the temperature adjustment in regions other in room to suitable temperature, described the One air-supply region alpha includes the region just to air outlet 120, and described second air-supply region beta includes being located at just to air outlet 120 region The region of top, or include just to the region below air outlet 120 region.

Specifically, the region that the head that just region of air outlet 120 is generally comprised with user of wall-hanging air conditioner is located, When the first air-supply region alpha includes the region just to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user Portion, makes user can quickly feel refrigerant (taking freeze as a example), after air-supply certain time, wind is delivered to the body with user The corresponding region with leg, i.e. the lower zone just to region, so that user's whole body all quickly feels refrigerant.Certainly, exist It is also possible to after just to region in some embodiments, then deliver to the upper area just to region.

In the present embodiment, by the first air-supply region alpha being arranged on the region just to air outlet 120, due to just to air-out Region corresponding to the head place space of user for the region of mouth 120 is so that user quickly sensible temperature can adjust institute The effect producing, is conducive to user to rapidly enter comfort conditions.

In order that the temperature in room is more rapidly and uniformly adjusted, described control module, it is additionally operable to when the second air-supply When the air-supply duration of region beta reaches the second preset duration, in control, wind deflector 200 and lower wind deflector 300 are rocked to the 3rd simultaneously Predeterminated position, the air-flow after heat exchange is guided to the 3rd air-supply region γ；

Wherein, described 3rd air-supply region γ and described first air-supply region alpha partly overlap or spacing setting；Described 3rd Air-supply region γ is overlapping with the described second air-supply region beat portion or spacing is arranged.

Specifically, in the present embodiment, when the air-supply duration of the second air-supply region beta reaches the second preset duration, in adjustment Wind deflector 200 and lower wind deflector 300 arrive respective 3rd predeterminated position, now, form the 3rd air-guiding aisle, the 3rd wind-guiding leads to Wind is delivered to the 3rd air-supply region γ by road, with the temperature of quick adjustment the 3rd air-supply region γ, taking freeze as a example.Wherein, the 3rd Air-supply region γ is different from the position of the first air-supply region alpha, the second air-supply region beta, can be for just to air outlet 120 overlying regions Region naturally it is also possible to for just to the region below air outlet 120 region, you can with according to setting to region on the upper side or partially Lower region carries out temperature adjustment.3rd air-supply region γ scope with the subtended angle of air outlet 322 for 30 °～80 °, taking 60 ° as a example. 3rd air-supply region γ taking the upper area just to air outlet 120 region as a example, the 3rd air-supply region γ with first blow region alpha Region (being crisscross arranged) it is also possible to overlapping 10%～20%, certainly, overlay region can be set with spacing with the second air-supply region beta The ratio in domain can be adjusted according to the actual requirements.Second preset duration can be configured according to the actual requirements, such as half Hour, hour, two hours etc..

In the present embodiment, after the second preset duration that the second air-supply region beta is blown, the 3rd air-supply region γ is carried out Air-supply, after making the temperature quick regulation of the second air-supply region beta, carries out quick regulation to the temperature of the 3rd air-supply region γ, Allow the temperature of each position in room quickly, be uniformly reduced, though temperature at air outlet 120 and room four Quite, uniform distribution of temperature field is so that the user in room Nei Ge region can feel the regulation of temperature to the temperature in week, with big Width improves the comfortableness using air-conditioning.

User is first made to feel comfortable, then by the temperature adjustment in regions other in room to suitable temperature, in user's sensation To after comfortable, then the higher temperature region above suitable temperature is quickly adjusted, described first air-supply region alpha is included just to going out The region in air port 120, described second air-supply region beta is included just to the region below air outlet 120 region, described 3rd blow zones Domain γ includes the region just to air outlet 120 overlying regions.

Specifically, the region that the head that just region of air outlet 120 is generally comprised with user of wall-hanging air conditioner is located, When the first air-supply region alpha includes the region just to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user Portion, makes user can quickly feel refrigerant (taking freeze as a example), after air-supply certain time, wind is delivered to the body with user The corresponding region with leg, i.e. the lower zone just to region, so that user's whole body all quickly feels refrigerant.As user and And the ambient temperature of user's periphery is when all meeting suitable temperature, then the upper area just to region is delivered in cool breeze, reduce comfortable The temperature of higher temperature region above temperature province, so that the regional in room is all suitable temperature.

In the present embodiment, by the first air-supply region alpha being arranged on the region just to air outlet 120, due to just to air-out Region corresponding to the head place space of user for the region of mouth 120 is so that user quickly sensible temperature can adjust institute The effect producing, is conducive to user to rapidly enter comfort conditions；After the head of user feels comfortable, to user's body institute Carry out temperature adjustment in region, so that the temperature of corresponding region is adjusted to rapidly suitable temperature；After this, then to suitable temperature The region of top carries out temperature adjustment, so that the regional in room is all suitable temperature.

After the regional in room is suitable temperature, in order to maintain this comfortable suitable temperature, described control module, It is additionally operable to when the air-supply duration of the 3rd air-supply region γ reaches three preset duration, wind deflector 200 and lower wind deflector in control 300 are rocked to the first predeterminated position simultaneously, and the air-flow after heat exchange is guided to the first air-supply region alpha.From the first air-supply region α to second blows after region beta, then the air-supply order of the region γ that blows to the 3rd, and the temperature in each region in room is quickly adjusted, After adjustment, return the first air-supply region alpha, to maintain current suitable temperature, make room thus user all in comfortable temperature In the range of degree.

In order that the temperature in room is more quick and is uniformly adjusted, described air-conditioner also includes corresponding described air-out The pendulum leaves of mouth 120 setting；

Positioner, for detecting the thermal source in current air-supply region；

Described control module, is additionally operable to control described pendulum leaf to guide the air-flow after heat exchange to thermal source.

Specifically, in the present embodiment, the quantity of pendulum leaf is multiple, its swaying direction and upper wind deflector 200 and lower wind deflector 300 swaying direction is in that angle is arranged, as a example the swaying direction of swaying direction and upper wind deflector 200 to put leaf is mutually perpendicular to. Positioner can be infrared detecting device, judge the position of thermal source according to infrared detection, adjust pendulum leaf and swing, so that after heat exchange Air-flow follow thermal source move.Positioner can also be for imaging first-class structure.When positioner navigates to thermal source (as user Deng) after, control module controls pendulum leaf to swing, so that the air flow direction thermal source after heat exchange.

Referring to figs. 1 to Fig. 3, the present invention further provides a kind of air supply method of air-conditioner, air-conditioner includes being arranged at sky Adjust the upper wind deflector 200 of air outlet 120 top of device, and the lower wind deflector 300 of air outlet 120 lower section；

The air supply method of described air-conditioner includes:

S10: control described upper wind deflector 200 and lower wind deflector 300 to be simultaneously rocked to the first predeterminated position, after heat exchange Air-flow guide to first air-supply region alpha；

S20: when the air-supply duration of the first air-supply region alpha reaches the first preset duration, in controls wind deflector 200 with lead Aerofoil 300 is rocked to the second predeterminated position simultaneously, and the air-flow after heat exchange is guided to the second air-supply region beta；

Wherein, described first air-supply region alpha and described second air-supply region beat portion overlap or spacing setting.

Specifically, in the present embodiment, housing 100 is in that strip tubular is arranged to air-conditioner taking wall-hanging air conditioner indoor unit as a example, Air inlet 110, air outlet 120, upper wind deflector 200 and lower wind deflector 300 are all along the length direction setting of housing 100.Wherein, Upper wind deflector 200 is little wind deflector, and lower wind deflector 300 is big wind deflector, certainly, can also adjust in certain embodiments and lead Aerofoil 200 and the size of lower wind deflector 300.The wind-guiding face of upper wind deflector 200 is in set towards the arcs of recesses deviating from air outlet 120 depression Put, the wind-guiding face of lower wind deflector 300 is in deviate from the arcs of recesses setting of air outlet 120 depression.The wind-guiding face of upper wind deflector 200 and under The wind-guiding face of wind deflector 300 encloses and forms the air-guiding aisle 320 with air intake vent 321 and air outlet 322, air-guiding aisle 320 Air intake vent 321 is connected with air channel 130, and the air outlet 322 of air-guiding aisle 320 is connected with interior, and the direction of air outlet 322 determines to send The direction of wind.The size and shape of air-guiding aisle 320, is arranged by rotating upper wind deflector 200 and lower wind deflector 300.Wherein, Upper wind deflector 200 is rotated with housing 100 and is connected, can be individually freely rotatable, and lower wind deflector 300 is also rotated with housing 100 and is connected, Can also individually freely rotatable so that the shape and size of air-guiding aisle 320, the direction of air outlet 322 can be according to demand Adjust so that the scope of the first air-supply region alpha and the second air-supply region beta and position can flexibly adjust according to demand very much.

After the master control borad of air-conditioner receives start-up command, in adjustment wind deflector 200 and lower wind deflector 300 arrive respective First predeterminated position, now, forms the first air-guiding aisle, wind is delivered to the first air-supply region alpha by the first air-guiding aisle, with quick The temperature of adjustment the first air-supply region alpha, taking freeze as a example.Wherein, the first air-supply region alpha can be the area just to air outlet 120 Domain or the region just to air outlet 120 overlying regions are naturally it is also possible to be just to the area below air outlet 120 region Domain, you can temperature adjustment is carried out to region, region on the upper side or region on the lower side first to align according to setting.First air-supply region alpha Scope with the subtended angle of air outlet 322 for 30 °～80 °, taking 60 ° as a example.First air-supply region alpha is with just to air outlet 120 region Each up and down inclined same distance as a example.

When the air-supply duration of the first air-supply region alpha reaches the first preset duration, wind deflector 200 and lower wind deflector in adjustment 300 arrive respective second predeterminated position, now, form the second air-guiding aisle, wind is delivered to the second air-supply by the second air-guiding aisle Region beta, with the temperature of quick adjustment the second air-supply region beta, taking freeze as a example.Wherein, the second air-supply region beta and the first blow zones The position of domain α is different, can be for the region just to air outlet 120 overlying regions naturally it is also possible to be just to air outlet 120 region The region of lower section, you can so that temperature adjustment is carried out to region on the upper side or region on the lower side according to setting.The model of the second air-supply region beta Enclose with the subtended angle of air outlet 322 for 30 °～80 °, taking 60 ° as a example.Second air-supply region beta is with just upper to air outlet 120 region As a example square region, the first air-supply region alpha and the second air-supply region beta can arrange the area it is also possible to overlapping 10%～20% with spacing Domain (is crisscross arranged), and certainly, the ratio of overlapping region can be adjusted according to the actual requirements.First preset duration can basis Actual demand is configured, such as half an hour, hour, two hours etc..

In the present embodiment, after the first preset duration that the first air-supply region alpha is blown, the second air-supply region beta is sent Wind, after making the temperature quick regulation of the first air-supply region alpha, to second air-supply region beta temperature carry out quick regulation so that In room the temperature of each position can quickly, be uniformly reduced, even if temperature at air outlet 120 and room surrounding Quite, uniform distribution of temperature field is so that the user in room Nei Ge region can feel the regulation of temperature to temperature, significantly to carry The high comfortableness using air-conditioning.

In order to first make user feel comfortable, then by the temperature adjustment in regions other in room to suitable temperature, described the One air-supply region alpha includes the region just to air outlet 120, and described second air-supply region beta includes being located at just to air outlet 120 region The region of top, or include just to the region below air outlet 120 region.

Specifically, the region that the head that just region of air outlet 120 is generally comprised with user of wall-hanging air conditioner is located, When the first air-supply region alpha includes the region just to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user Portion, makes user can quickly feel refrigerant (taking freeze as a example), after air-supply certain time, wind is delivered to the body with user The corresponding region with leg, i.e. the lower zone just to region, so that user's whole body all quickly feels refrigerant.Certainly, exist It is also possible to after just to region in some embodiments, then deliver to the upper area just to region.

In the present embodiment, by the first air-supply region alpha being arranged on the region just to air outlet 120, due to just to air-out Region corresponding to the head place space of user for the region of mouth 120 is so that user quickly sensible temperature can adjust institute The effect producing, is conducive to user to rapidly enter comfort conditions.

In order that the temperature in room is more rapidly and uniformly adjusted, wind deflector 200 and lower wind-guiding on described control Plate 300 is rocked to the second predeterminated position simultaneously, the air-flow after heat exchange is guided and also wraps to after the step of the second air-supply region beta Include:

S30: when the air-supply duration of the second air-supply region beta reaches the second preset duration, in controls wind deflector 200 with lead Aerofoil 300 is rocked to the 3rd predeterminated position simultaneously, and the air-flow after heat exchange is guided to the 3rd air-supply region γ；

Wherein, described 3rd air-supply region γ and described first air-supply region alpha partly overlap or spacing setting；Described 3rd Air-supply region γ is overlapping with the described second air-supply region beat portion or spacing is arranged.

Specifically, in the present embodiment, when the air-supply duration of the second air-supply region beta reaches the second preset duration, in adjustment Wind deflector 200 and lower wind deflector 300 arrive respective 3rd predeterminated position, now, form the 3rd air-guiding aisle, the 3rd wind-guiding leads to Wind is delivered to the 3rd air-supply region γ by road, with the temperature of quick adjustment the 3rd air-supply region γ, taking freeze as a example.Wherein, the 3rd Air-supply region γ is different from the position of the first air-supply region alpha, the second air-supply region beta, can be for just to air outlet 120 overlying regions Region naturally it is also possible to for just to the region below air outlet 120 region, you can with according to setting to region on the upper side or partially Lower region carries out temperature adjustment.3rd air-supply region γ scope with the subtended angle of air outlet 322 for 30 °～80 °, taking 60 ° as a example. 3rd air-supply region γ taking the upper area just to air outlet 120 region as a example, the 3rd air-supply region γ with first blow region alpha Region (being crisscross arranged) it is also possible to overlapping 10%～20%, certainly, overlay region can be set with spacing with the second air-supply region beta The ratio in domain can be adjusted according to the actual requirements.Second preset duration can be configured according to the actual requirements, such as half Hour, hour, two hours etc..

In the present embodiment, after the second preset duration that the second air-supply region beta is blown, the 3rd air-supply region γ is carried out Air-supply, after making the temperature quick regulation of the second air-supply region beta, carries out quick regulation to the temperature of the 3rd air-supply region γ, Allow the temperature of each position in room quickly, be uniformly reduced, though temperature at air outlet 120 and room four Quite, uniform distribution of temperature field is so that the user in room Nei Ge region can feel the regulation of temperature to the temperature in week, with big Width improves the comfortableness using air-conditioning.

User is first made to feel comfortable, then by the temperature adjustment in regions other in room to suitable temperature, in user's sensation To after comfortable, then the higher temperature region above suitable temperature is quickly adjusted, described first air-supply region alpha is included just to going out The region in air port 120, described second air-supply region beta is included just to the region below air outlet 120 region, described 3rd blow zones Domain γ includes the region just to air outlet 120 overlying regions.

Specifically, the region that the head that just region of air outlet 120 is generally comprised with user of wall-hanging air conditioner is located, When the first air-supply region alpha includes the region just to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user Portion, makes user can quickly feel refrigerant (taking freeze as a example), after air-supply certain time, wind is delivered to the body with user The corresponding region with leg, i.e. the lower zone just to region, so that user's whole body all quickly feels refrigerant.As user and And the ambient temperature of user's periphery is when all meeting suitable temperature, then the upper area just to region is delivered in cool breeze, reduce comfortable The temperature of higher temperature region above temperature province, so that the regional in room is all suitable temperature.

In the present embodiment, by the first air-supply region alpha being arranged on the region just to air outlet 120, due to just to air-out Region corresponding to the head place space of user for the region of mouth 120 is so that user quickly sensible temperature can adjust institute The effect producing, is conducive to user to rapidly enter comfort conditions；After the head of user feels comfortable, to user's body institute Carry out temperature adjustment in region, so that the temperature of corresponding region is adjusted to rapidly suitable temperature；After this, then to suitable temperature The region of top carries out temperature adjustment, so that the regional in room is all suitable temperature.

After the regional in room is suitable temperature, in order to maintain this comfortable suitable temperature, described when second The air-supply duration of air-supply region beta is when reaching two preset duration, and in control, wind deflector 200 and lower wind deflector 300 are rocked to the simultaneously Three predeterminated positions, the air-flow after heat exchange are guided and also include to after the step of the 3rd air-supply region γ:

S40: when the air-supply duration of the 3rd air-supply region γ reaches three preset duration, in controls wind deflector 200 with Wind deflector 300 is rocked to the first predeterminated position simultaneously, and the air-flow after heat exchange is guided to the first air-supply region alpha.Sending from first Wind region alpha is to the second air-supply region beta, then to after the air-supply order of the 3rd air-supply region γ, the temperature in each region in room is quick Adjustment, after adjustment, return the first air-supply region alpha, to maintain current suitable temperature, make room thus user all exist In comfort zone.

In order that the temperature in room is more quick and is uniformly adjusted, control wind deflector 200 He on described described Lower wind deflector 300 is rocked to the first predeterminated position simultaneously, by the air-flow after heat exchange guide to first air-supply region alpha step it Also include afterwards:

The current thermal source blown in region of detection；

The pendulum leaf controlling described air-conditioner guides the air-flow after heat exchange to thermal source.

Specifically, in the present embodiment, the quantity of pendulum leaf is multiple, its swaying direction and upper wind deflector 200 and lower wind deflector 300 swaying direction is in that angle is arranged, as a example the swaying direction of swaying direction and upper wind deflector 200 to put leaf is mutually perpendicular to. Positioner can be infrared detecting device, judge the position of thermal source according to infrared detection, adjust pendulum leaf and swing, so that after heat exchange Air-flow follow thermal source move.Positioner can also be for imaging first-class structure.When positioner navigates to thermal source (as user Deng) after, control module controls pendulum leaf to swing, so that the air flow direction thermal source after heat exchange.

The foregoing is only the preferred embodiments of the present invention, not thereby limit the present invention the scope of the claims, every this Under the inventive concept of invention, the equivalent structure transformation made using description of the invention and accompanying drawing content, or directly/indirectly use In the scope of patent protection that other related technical fields are included in the present invention.

Claims (10)

1. a kind of air-conditioner is it is characterised in that described air-conditioner includes:

Housing, described housing has air inlet, air outlet and the air channel being located between described air inlet and described air outlet；Described The top of air outlet is provided with the upper wind deflector being connected with described housing into rotation, and the lower section of described air outlet is provided with and described shell Body rotates the lower wind deflector connecting；

Control module, for controlling described upper wind deflector and lower wind deflector to be rocked to the first predeterminated position simultaneously, after heat exchange Air-flow guides to the first air-supply region；

When the air-supply duration in the first air-supply region reaches the first preset duration, in control, wind deflector and lower wind deflector swing simultaneously To the second predeterminated position, the air-flow after heat exchange is guided to the second air-supply region；

Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.

2. air-conditioner as claimed in claim 1 is it is characterised in that described first air-supply region includes the area just to air outlet Domain, described second air-supply region includes being located at the region just to the overlying regions of air outlet, or includes air outlet just to region The region of lower section.

3. air-conditioner as claimed in claim 1 it is characterised in that

Described control module, is additionally operable to when the air-supply duration in the second air-supply region reaches the second preset duration, wind-guiding in control Plate and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, and the air-flow after heat exchange is guided to the 3rd air-supply region；

Wherein, described 3rd air-supply region and described first air-supply region partly overlap or spacing setting；Described 3rd blow zones Domain is partly overlapped or spacing setting with described second air-supply region.

4. air-conditioner as claimed in claim 3 is it is characterised in that described first air-supply region includes the area just to air outlet Domain, described second air-supply region includes air outlet just to the region below region, and described 3rd air-supply region is just including air outlet Region to overlying regions.

5. air-conditioner as claimed in claim 3 it is characterised in that

Described control module, is additionally operable to when the air-supply duration in the 3rd air-supply region reaches three preset duration, wind-guiding in control Plate and lower wind deflector are rocked to the first predeterminated position simultaneously, and the air-flow after heat exchange is guided to the first air-supply region.

6. the air-conditioner as described in any one in claim 1 to 5 is it is characterised in that described air-conditioner also includes corresponding institute State the pendulum leaf of air outlet setting；

Positioner, for detecting the position of the thermal source in current air-supply region；

Described control module, is additionally operable to control described pendulum leaf to guide the air-flow after heat exchange to thermal source.

7. a kind of air supply method of air-conditioner it is characterised in that air-conditioner include being arranged at upper above the air outlet of air-conditioner Wind deflector and the lower wind deflector being arranged at below air outlet；

The air supply method of described air-conditioner includes:

Control described upper wind deflector and lower wind deflector to be rocked to the first predeterminated position simultaneously, the air-flow after heat exchange is guided to first Air-supply region；

When the air-supply duration in the first air-supply region reaches the first preset duration, in control, wind deflector and lower wind deflector swing simultaneously To the second predeterminated position, the air-flow after heat exchange is guided to the second air-supply region；

Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.

8. air-conditioner as claimed in claim 7 air supply method it is characterised in that described control on wind deflector and lower wind-guiding Plate is rocked to the second predeterminated position simultaneously, the air-flow after heat exchange is guided and also includes to after the step in the second air-supply region:

When the air-supply duration in the second air-supply region reaches the second preset duration, in control, wind deflector and lower wind deflector swing simultaneously To the 3rd predeterminated position, the air-flow after heat exchange is guided to the 3rd air-supply region；

Wherein, described 3rd air-supply region and described first air-supply region partly overlap or spacing setting；Described 3rd blow zones Domain is partly overlapped or spacing setting with described second air-supply region.

9. air-conditioner as claimed in claim 8 air supply method it is characterised in that described control on wind deflector and lower wind-guiding Plate is rocked to the 3rd predeterminated position simultaneously, the air-flow after heat exchange is guided and also includes to after the step in the 3rd air-supply region:

When the air-supply duration in the 3rd air-supply region reaches three preset duration, in control, wind deflector and lower wind deflector swing simultaneously To the first predeterminated position, the air-flow after heat exchange is guided to the first air-supply region.

10. the air supply method of the air-conditioner as described in any one in claim 7 to 9 is it is characterised in that in described control institute State wind deflector and lower wind deflector is rocked to the first predeterminated position simultaneously, the air-flow after heat exchange is guided to the first air-supply region Also include after step:

The position of the current thermal source in region of blowing of detection；

The pendulum leaf controlling described air-conditioner guides the air-flow after heat exchange to thermal source.