CN106287963A - Air-conditioner and air supply method thereof - Google Patents
Air-conditioner and air supply method thereof Download PDFInfo
- Publication number
- CN106287963A CN106287963A CN201610710981.8A CN201610710981A CN106287963A CN 106287963 A CN106287963 A CN 106287963A CN 201610710981 A CN201610710981 A CN 201610710981A CN 106287963 A CN106287963 A CN 106287963A
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- China
- Prior art keywords
- air
- region
- supply region
- wind deflector
- conditioner
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
- F24F13/14—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
- F24F13/1426—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
- F24F13/14—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
- F24F13/1426—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
- F24F2013/1433—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means with electric motors
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Air-Flow Control Members (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The open a kind of air-conditioner of the present invention and air supply method thereof, wherein, air-conditioner includes: housing, and housing has air inlet, air outlet and the air channel between air inlet and air outlet;The upper wind deflector being provided above being connected with housing into rotation of air outlet, the lower section of air outlet is provided with the lower wind deflector being connected with housing into rotation;Control module, for when the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, guides the air-flow after heat exchange to the first air-supply region;When the operating frequency of cooler compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, the air-flow after heat exchange is guided to the second air-supply region;Wherein, the first air-supply region and the second air-supply region interlock or spacing setting.In the present invention, by being blown in the second air-supply region to after first one section of duration of air-supply region air-supply, the comfortableness that use air-conditioning is greatly improved.
Description
Technical field
The present invention relates to air-conditioning technical field, particularly to a kind of air-conditioner and air supply method thereof.
Background technology
Split-type air conditioner is during opening refrigeration, owing to existing air outlet arranges imperfection so that at air outlet
Leaving air temp is the lowest, and the temperature of room surrounding is the highest, and thermo parameters method is uneven, and this results in user just to air-out
Mouthful position by cold wind blow-through, easily produce flu, and the imperceptible cool feeling of the people of other positions in room, cause air-conditioning
Comfortableness is greatly reduced.
Summary of the invention
The main object of the present invention is to provide a kind of air-conditioner, it is intended to the air themperature in quickly-conditioning indoor, improves user
Comfort level.
For achieving the above object, the air-conditioner that the present invention proposes includes:
Housing, described housing has air inlet, air outlet and the air channel between described air inlet and described air outlet;
The upper wind deflector being provided above being connected with described housing into rotation of described air outlet, the lower section of described air outlet is provided with and institute
State the lower wind deflector that housing into rotation connects;
Control module, for when the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, controlling 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;
When the operating frequency of cooler compressor is less than the first predeterminated frequency, and more than or equal to the second predeterminated frequency
Time, in control, wind deflector and lower wind deflector are rocked to the second predeterminated position simultaneously, guide the air-flow after heat exchange 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 that just region to air outlet, described second air-supply region include being positioned at
Air outlet just region to overlying regions, or include that air outlet is just to the region below region.
Preferably, described control module, it is additionally operable to when the operating frequency of cooler compressor is less than the second predeterminated frequency, and
During more than or equal to three predeterminated frequencies, in control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, will change
Air-flow after heat guides to the 3rd air-supply region;
Wherein, described 3rd air-supply region partly overlaps with described first air-supply region or spacing is arranged;
Described 3rd air-supply region partly overlaps with described second air-supply region or spacing is arranged.
Preferably, described first air-supply region includes that just region to air outlet, described second air-supply region include air-out
Mouth is just to the region below region, and described 3rd air-supply region includes the air outlet region just to overlying regions.
Preferably, described control module, it is additionally operable to when the operating frequency of cooler compressor is less than three predeterminated frequencies,
In control, wind deflector and lower wind deflector are rocked to the first predeterminated position simultaneously, guide the air-flow after heat exchange to the first blow zones
Territory.
Preferably, described first predeterminated frequency is 60~80HZ, and described second predeterminated frequency is 45~55HZ, the described 3rd
Predeterminated frequency is 10~30HZ.
Preferably, described air-conditioner also includes the pendulum leaf that corresponding described air outlet is arranged;
Positioner, the position of the thermal source in detecting current air-supply region;
Described control module, is additionally operable to control described pendulum leaf and guides the air-flow after heat exchange to thermal source.
The present invention also proposes the air supply method of a kind of air-conditioner, and air-conditioner includes being arranged at 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:
When cooler compressor operating frequency more than or equal to the first predeterminated frequency time, control described upper wind deflector and under
Wind deflector is rocked to the first predeterminated position simultaneously, is guided by the air-flow after heat exchange to the first air-supply region;
When the operating frequency of cooler compressor is less than the first predeterminated frequency, and more than or equal to the second predeterminated frequency
Time, in control, wind deflector and lower wind deflector are rocked to the second predeterminated position simultaneously, guide the air-flow after heat exchange to the second air-supply
Region;
Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.
Preferably, in described control, wind deflector and lower wind deflector are rocked to the second predeterminated position, after heat exchange simultaneously
Air-flow guides and also includes after the step in the second air-supply region:
When the operating frequency of cooler compressor is less than the second predeterminated frequency, and more than or equal to the 3rd predeterminated frequency
Time, in control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, guide the air-flow after heat exchange to the 3rd air-supply
Region;
Wherein, described 3rd air-supply region partly overlaps with described first air-supply region or spacing is arranged;
Described 3rd air-supply region partly overlaps with described second air-supply region or spacing is arranged.
Preferably, in described control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position, after heat exchange simultaneously
Air-flow guides and also includes after the step in the 3rd air-supply region:
When the operating frequency of cooler compressor is less than three predeterminated frequencies, in control, wind deflector and lower wind deflector are simultaneously
It is rocked to the first predeterminated position, the air-flow after heat exchange is guided to the first air-supply region.
Preferably, on described control is described, wind deflector and lower wind deflector are rocked to the first predeterminated position, by heat exchange simultaneously
After air-flow guide to first air-supply region step after also include:
Thermal source in detection current air-supply region;
Air-flow after heat exchange is guided to thermal source by the pendulum leaf controlling described air-conditioner.
Technical solution of the present invention, by when compressor operating frequency more than or equal to the first predeterminated frequency time, in control
Wind deflector and lower wind deflector are rocked to the first predeterminated position simultaneously, are guided by the air-flow after heat exchange to the first air-supply region;Work as pressure
The operating frequency of contracting machine be less than the first predeterminated frequency, and more than or equal to the second predeterminated frequency time, in controls wind deflector with under
Wind deflector is rocked to the second predeterminated position simultaneously, is guided by the air-flow after heat exchange to the second air-supply region;Make the first air-supply region
Temperature quickly regulate after, to second air-supply region temperature quickly regulate so that in room, the temperature of each position can
With quick, be reduced uniformly, i.e. the temperature making the temperature at air outlet and room surrounding is suitable, and thermo parameters method is equal
Even so that the user in Nei Ge region, room can feel the regulation of temperature, so that the comfortableness that use air-conditioning is greatly improved.
Accompanying drawing explanation
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
In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to
Other accompanying drawing is obtained according to the structure shown in these 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 air-conditioner of the present invention and the lower wind deflector structural representation at 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:
Label | Title | Label | Title |
100 | Housing | 110 | Air inlet |
120 | Air outlet | 130 | Air channel |
200 | Upper wind deflector | 300 | Lower wind deflector |
Ⅰ | First predeterminated position | Ⅱ | Second predeterminated position |
Ⅲ | 3rd predeterminated position | α | First air-supply region |
β | Second air-supply region | γ | 3rd air-supply region |
320 | Air-guiding aisle | 321 | Air intake vent |
322 | Air outlet |
The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.
Detailed description of the invention
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
Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Base
Embodiment in the present invention, those of ordinary skill in the art obtained under not making creative work premise all its
His embodiment, broadly falls into the scope of protection of the invention.
It is to be appreciated that directional instruction in the embodiment of the present invention (such as up, down, left, right, before and after ...) is only used
In explaining relative position relation between each parts, motion conditions etc. under a certain particular pose (as shown in drawings), if should
When particular pose changes, then directionality instruction changes the most therewith.
It addition, the description relating to " first ", " second " etc. in the present invention is only used for describing purpose, and it is not intended that refer to
Show or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", "
Two " feature can express or implicitly include at least one this feature.It addition, the technical scheme between each embodiment can
To be combined with each other, but must be based on those of ordinary skill in the art are capable of, when the combination of technical scheme occurs
Conflicting will be understood that the combination of this technical scheme does not exists, the most not at the protection model of application claims when maybe cannot realize
Within enclosing.
The present invention mainly proposes a kind of air-conditioner with swingable double wind deflectors, to increase the air-supply effect of air-conditioner
Rate.Air-conditioner generally comprises indoor set and off-premises station, and wherein, indoor set generally comprises housing, heat exchanger assembly, air-supply assembly and
Wind guiding component, wherein, housing has air inlet, air outlet and the air channel between air inlet and air outlet, heat-exchanging component
May be contained within air channel with air-supply assembly, wind guiding component is arranged in air channel or is arranged at air outlet.Wherein, heat-exchanging component
Including heat exchanger and the support that is installed in air channel by heat exchanger, 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 driving motor of this wind wheel, in some embodiments,
Also 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
With the driving motor of BAIYE, wherein the swing of wind deflector realizes upper and lower wind-guiding, and the swing of BAIYE realizes left and right wind-guiding, the application
In, wind deflector and BAIYE can couple air-supply, and the most up and down while air-supply, blow in left and right.The shape of housing can be in similar length
The shape (wall-hanging air conditioner indoor unit as traditional) of cube, can be in cylindrical (such as cabinet air-conditioner), it is also possible in imitative spherical
(such as wall-mounted spherical indoor apparatus of air conditioner) etc..
The concrete structure of air-conditioner will mainly be described below.
Referring to figs. 1 through 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 positioned at described air inlet 110 and described go out
Air channel 130 between air port 120;On described housing 100, corresponding described air outlet 120 is provided above and described housing 100
The upper wind deflector 200 being rotationally connected, the lower section of corresponding described air outlet 120 is provided with and is rotationally connected down with described housing 100
Wind deflector 300;
Control module, for when the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, controlling institute
State wind deflector 200 and lower wind deflector 300 is rocked to the first predeterminated position I simultaneously, the air-flow guiding after heat exchange is sent to first
Wind region alpha;
When the operating frequency of cooler compressor is less than the first predeterminated frequency, and more than or equal to the second predeterminated frequency
Time, in control, wind deflector and lower wind deflector are rocked to the second predeterminated position II simultaneously, the air-flow guiding after heat exchange are sent to second
Wind region beta;
Wherein, described first air-supply region alpha and described second air-supply region beat portion overlap or spacing are arranged.
Specifically, in the present embodiment, air-conditioner is as a example by wall-hanging air conditioner indoor unit, and housing 100 is arranged in strip tubular,
Air inlet 110, air outlet 120, upper wind deflector 200 and lower wind deflector 300 are all arranged along the length direction 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 sets in towards the arcs of recesses deviating from air outlet 120 depression
Putting, the wind-guiding face of lower wind deflector 300 is arranged in the arcs of recesses deviating from 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 connects with air channel 130, and the air outlet 322 of air-guiding aisle 320 connects with indoor, sending towards decision of air outlet 322
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 rotationally connected with housing 100, can be the most freely rotatable, and lower wind deflector 300 is also rotationally connected with housing 100,
Can also be the most freely rotatable so that the shape and size of air-guiding aisle 320, air outlet 322 towards can be according to demand
Regulation so that the first air-supply region alpha and the scope of the second air-supply region beta and position can adjust the most according to demand.
After the master control borad of air-conditioner receives start-up command, first detect current compressor operating frequency.Work as compression
When the operating frequency of machine is more than or equal to the first predeterminated frequency, wind deflector 200 and lower wind deflector 300 to respective first in adjustment
Predeterminated position I, now, forms the first air-guiding aisle, and wind is delivered to the first air-supply region alpha by the first air-guiding aisle, quickly to adjust
The temperature of the first air-supply region alpha, as a example by refrigeration.Wherein, the first air-supply region alpha can be just region to air outlet 120, also
Can be the region just to air outlet 120 overlying regions, naturally it is also possible to for just to the region below air outlet 120 region, i.e.
According to setting first to align, region, region on the upper side or region on the lower side can be carried out temperature regulation.The model of the first air-supply region alpha
Enclose, can be expressed by the subtended angle of air outlet 322, as a example by the subtended angle of air outlet 322 is 30 °~80 °, could be arranged to
60°.First air-supply region alpha is as a example by the just each inclined same distance of above-below direction (angle) to air outlet 120 region.
When the operating frequency of compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, adjust
Upper wind deflector 200 and lower wind deflector 300, to respective second predeterminated position II, now, form the second air-guiding aisle, the second wind-guiding
Wind is delivered to the second air-supply region beta by passage, quickly to adjust the temperature of the second air-supply region beta, as a example by refrigeration.Wherein, second
Air-supply region beta is different from the position of the first air-supply region alpha, can be the region just to air outlet 120 overlying regions, the most also may be used
Think just to the region below air outlet 120 region, i.e. according to setting, region on the upper side or region on the lower side can be carried out temperature
Regulation.The scope of the second air-supply region beta can be expressed by the subtended angle of air outlet 322, is 30 ° with the subtended angle of air outlet 322
~as a example by 80 °, could be arranged to 60 °.Second air-supply region beta is as a example by just upper area to air outlet 120 region, and first send
Wind region alpha and the second air-supply region beta can be arranged with spacing, it is also possible to the region (being crisscross arranged) of overlapping 10%~20%, certainly,
The ratio of overlapping region can be adjusted according to the actual requirements.First predeterminated frequency and the second predeterminated frequency can be according to reality
Demand is configured, and the first predeterminated frequency can be 60~80HZ, as a example by 70HZ, the second predeterminated frequency can be 45~
55HZ, as a example by 50HZ.
Technical solution of the present invention, by when the operating frequency of compressor is more than or equal to the first predeterminated frequency, putting simultaneously
Dynamic upper wind deflector 200 and lower wind deflector 300 to the first predeterminated position I, guide the air-flow after heat exchange to the first air-supply region alpha;
When the operating frequency of compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, swing simultaneously and lead
Aerofoil 200 and lower wind deflector 300 to the second predeterminated position II, guide the air-flow after heat exchange to the second air-supply region beta;Make first
After the temperature of air-supply region alpha quickly regulates, the temperature of the second air-supply region beta is quickly regulated so that every in room
The temperature put can quickly, be reduced uniformly, i.e. the temperature making the temperature at air outlet and room surrounding is suitable, temperature
Degree field distribution is uniform so that the user in Nei Ge region, room can feel the regulation of temperature, so that use air-conditioning is greatly improved
Comfortableness.
In order to first make user feel comfortable, then the temperature in other region in room is regulated to suitable temperature, described the
One air-supply region alpha includes that just region to air outlet 120, described second air-supply region beta include being positioned at just to air outlet 120 region
The region of top, or include just to the region below air outlet 120 region.
Specifically, the just region to air outlet 120 of wall-hanging air conditioner generally comprises the region at the head place of user,
When the first air-supply region alpha includes just region to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user
Portion, make user can quickly feel refrigerant (by refrigeration as a example by), when air-supply certain time after, wind is delivered to the health with user
The region corresponding with leg, the most just lower zone to region, so that user's whole body the most quickly feels refrigerant.Certainly, exist
In some embodiments, it is also possible to after just to region, then deliver to just upper area to region.
In the present embodiment, by the first air-supply region alpha is arranged on just region to air outlet 120, due to just to air-out
The region corresponding to space, head place that region is user of mouth 120 so that user quickly sensible temperature can adjust institute
The effect produced, beneficially user rapidly enters comfort conditions.
In order to make the temperature in room be adjusted more rapidly and uniformly, described control module, it is additionally operable to when air-conditioner pressure
The operating frequency of contracting machine is less than the second predeterminated frequency, and during more than or equal to three predeterminated frequencies, swings upper wind deflector simultaneously
200 and lower wind deflector 300 to the 3rd predeterminated position III, the air-flow after heat exchange is guided to the 3rd air-supply region γ;
Wherein, described 3rd air-supply region γ partly overlaps with described first air-supply region alpha or spacing is arranged;Described 3rd
Air-supply region γ is overlapping with described second air-supply region beat portion or spacing is arranged.
Specifically, in the present embodiment, in the operating frequency when compressor less than the second predeterminated frequency, and it is more than or equal to
During three predeterminated frequencies, in adjustment, wind deflector 200 and lower wind deflector 300 are to respective 3rd predeterminated position III, now, form the
Three air-guiding aisles, wind is delivered to the 3rd air-supply region γ by the 3rd air-guiding aisle, quickly to adjust the temperature of the 3rd air-supply region γ,
As a example by refrigeration.Wherein, the position of the 3rd air-supply region γ and the first air-supply region alpha, the second air-supply region beta is different, Ke Yiwei
The just region to air outlet 120 overlying regions, naturally it is also possible to for just to the region below air outlet 120 region, i.e. can root
According to setting, region on the upper side or region on the lower side are carried out temperature regulation.The scope of the 3rd air-supply region γ can pass through air outlet
The size of the subtended angle of 322 judges, as a example by the subtended angle of air outlet 322 is 30 °~80 °, could be arranged to 60 °.3rd air-supply
Region γ is as a example by just upper area to air outlet 120 region, and the 3rd air-supply region γ send with the first region alpha and second of blowing
Wind region beta can be arranged with spacing, it is also possible to the region (being crisscross arranged) of overlapping 10%~20%, certainly, and the ratio of overlapping region
Can be adjusted according to the actual requirements.3rd predeterminated frequency can be 10~30HZ, as a example by 20HZ.
What deserves to be explained is, when the first air-supply region alpha, the second air-supply region beta and the 3rd air-supply region γ are tangent and each
When air-supply subtended angle scope corresponding to region is 60 °, as the first air-supply region alpha, the second air-supply region beta and the 3rd air-supply region γ
Time side by side, angle corresponding together is 180 °, i.e. air-conditioner is 180 ° to the angle in air-supply region, room, is equivalent to form one
Individual air-supply plane, this is that existing air-conditioner cannot realize.
In the present embodiment, by the operating frequency when compressor less than the second predeterminated frequency, and more than or equal to the 3rd
During predeterminated frequency, the upper wind deflector 200 of swing and lower wind deflector 300 are to the 3rd predeterminated position III simultaneously, are drawn by the air-flow after heat exchange
It is directed at the 3rd air-supply region γ;Temperature after the temperature of the second air-supply region beta is quickly regulated, to the 3rd air-supply region γ
Degree quickly regulates so that in room, the temperature of each position can quickly, be reduced uniformly, i.e. makes at air outlet
Temperature and the temperature of room surrounding suitable, uniform distribution of temperature field so that the user in Nei Ge region, room can feel
The regulation of temperature, to be greatly improved the comfortableness using air-conditioning.
First make user feel comfortable, then the temperature regulation in other region in room, to suitable temperature, is felt user
After comfortable, then the higher temperature region above suitable temperature quickly being adjusted, described first air-supply region alpha includes just to going out
The region in air port 120, described second air-supply region beta includes just to the region below air outlet 120 region, described 3rd blow zones
Territory γ includes just region to air outlet 120 overlying regions.
Specifically, the just region to air outlet 120 of wall-hanging air conditioner generally comprises the region at the head place of user,
When the first air-supply region alpha includes just region to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user
Portion, make user can quickly feel refrigerant (by refrigeration as a example by).When the operating frequency of compressor is less than the second predeterminated frequency, and
During more than or equal to three predeterminated frequencies, wind is delivered to the health with user and region corresponding to leg, the most just to region
Lower zone, so that user's whole body the most quickly feels refrigerant.When user and and the ambient temperature of user's periphery all meet easypro
When thermophilic is spent, then cool breeze is delivered to just upper area to region, reduce the temperature of suitable temperature overlying regions higher temperature region
Degree, so that the regional in room is all suitable temperature.
In the present embodiment, by the first air-supply region alpha is arranged on just region to air outlet 120, due to just to air-out
The region corresponding to space, head place that region is user of mouth 120 so that user quickly sensible temperature can adjust institute
The effect produced, beneficially user rapidly enters comfort conditions;The head of user feel comfortable after, to user's body institute
Temperature regulation is carried out, so that the temperature of corresponding region is adjusted to rapidly suitable temperature in region;After this, then to suitable temperature
The region of top carries out temperature regulation, 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,
Being additionally operable to when the operating frequency of cooler compressor is less than three predeterminated frequencies, in control, wind deflector and lower wind deflector are put simultaneously
Move to the first predeterminated position, the air-flow after heat exchange is guided to the first air-supply region.Blowing to second from the first air-supply region alpha
After region beta, then the air-supply order of the region γ that blows to the 3rd, the temperature in each region, room is quickly adjusted, after adjustment, then
Return to the first air-supply region alpha, to maintain current suitable temperature, make room thus user all in comfort zone.
In order to make the temperature in room more quickly and uniformly be adjusted, described air-conditioner also includes corresponding described air-out
The pendulum leaves that mouth 120 is arranged;
Positioner, the thermal source in detecting current air-supply region;
Described control module, is additionally operable to control described pendulum leaf and 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
The swaying direction of 300 is that angle is arranged, as a example by the swaying direction of the swaying direction putting leaf and upper wind deflector 200 is mutually perpendicular to.
Positioner can be infrared detecting device, judges that according to infrared detection the position of thermal source, regulation pendulum leaf swing, so that after heat exchange
Air-flow follow thermal source and move.Positioner can also be for imaging first-class structure.When positioner navigates to thermal source (such as user
Deng) after, control module controls pendulum leaf and swings, so that the air flow direction thermal source after heat exchange.
Referring to figs. 1 through Fig. 3, the present invention carries the air supply method of a kind of air-conditioner further, and air-conditioner includes being arranged at air-conditioning
Upper wind deflector 200 above the air outlet 120 of device, and the lower wind deflector 300 below air outlet 120;
The air supply method of described air-conditioner includes:
S10: when the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, control described upper wind deflector
200 and lower wind deflector 300 be rocked to the first predeterminated position I simultaneously, by after heat exchange air-flow guide to first air-supply region alpha;
S20: when the operating frequency of cooler compressor is less than the first predeterminated frequency, and preset frequency more than or equal to second
During rate, swing upper wind deflector 200 and lower wind deflector 300 to the second predeterminated position II simultaneously, the air-flow after heat exchange is guided to the
Two air-supply region beta;
Wherein, described first air-supply region alpha and described second air-supply region beat portion overlap or spacing are arranged.
Specifically, in the present embodiment, air-conditioner is as a example by wall-hanging air conditioner indoor unit, and housing 100 is arranged in strip tubular,
Air inlet 110, air outlet 120, upper wind deflector 200 and lower wind deflector 300 are all arranged along the length direction 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 sets in towards the arcs of recesses deviating from air outlet 120 depression
Putting, the wind-guiding face of lower wind deflector 300 is arranged in the arcs of recesses deviating from 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 connects with air channel 130, and the air outlet 322 of air-guiding aisle 320 connects with indoor, sending towards decision of air outlet 322
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 rotationally connected with housing 100, can be the most freely rotatable, and lower wind deflector 300 is also rotationally connected with housing 100,
Can also be the most freely rotatable so that the shape and size of air-guiding aisle 320, air outlet 322 towards can be according to demand
Regulation so that the first air-supply region alpha and the scope of the second air-supply region beta and position can adjust the most according to demand.
After the master control borad of air-conditioner receives start-up command, first detect current compressor operating frequency.Work as compression
When the operating frequency of machine is more than or equal to the first predeterminated frequency, wind deflector 200 and lower wind deflector 300 to respective first in adjustment
Predeterminated position I, now, forms the first air-guiding aisle, and wind is delivered to the first air-supply region alpha by the first air-guiding aisle, quickly to adjust
The temperature of the first air-supply region alpha, as a example by refrigeration.Wherein, the first air-supply region alpha can be just region to air outlet 120, also
Can be the region just to air outlet 120 overlying regions, naturally it is also possible to for just to the region below air outlet 120 region, i.e.
According to setting first to align, region, region on the upper side or region on the lower side can be carried out temperature regulation.The model of the first air-supply region alpha
Enclose, can be expressed by the subtended angle of air outlet 322, as a example by the subtended angle of air outlet 322 is 30 °~80 °, could be arranged to
60°.First air-supply region alpha is as a example by the just each inclined same distance of above-below direction (angle) to air outlet 120 region.
When the operating frequency of compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, adjust
Upper wind deflector 200 and lower wind deflector 300, to respective second predeterminated position II, now, form the second air-guiding aisle, the second wind-guiding
Wind is delivered to the second air-supply region beta by passage, quickly to adjust the temperature of the second air-supply region beta, as a example by refrigeration.Wherein, second
Air-supply region beta is different from the position of the first air-supply region alpha, can be the region just to air outlet 120 overlying regions, the most also may be used
Think just to the region below air outlet 120 region, i.e. according to setting, region on the upper side or region on the lower side can be carried out temperature
Regulation.The scope of the second air-supply region beta can be expressed by the subtended angle of air outlet 322, is 30 ° with the subtended angle of air outlet 322
~as a example by 80 °, could be arranged to 60 °.Second air-supply region beta is as a example by just upper area to air outlet 120 region, and first send
Wind region alpha and the second air-supply region beta can be arranged with spacing, it is also possible to the region (being crisscross arranged) of overlapping 10%~20%, certainly,
The ratio of overlapping region can be adjusted according to the actual requirements.First predeterminated frequency and the second predeterminated frequency can be according to reality
Demand is configured, and the first predeterminated frequency can be 60~80HZ, as a example by 70HZ, the second predeterminated frequency can be 45~
55HZ, as a example by 50HZ.
Technical solution of the present invention, by when the operating frequency of compressor is more than or equal to the first predeterminated frequency, putting simultaneously
Dynamic upper wind deflector 200 and lower wind deflector 300 to the first predeterminated position I, guide the air-flow after heat exchange to the first air-supply region alpha;
When the operating frequency of compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, swing simultaneously and lead
Aerofoil 200 and lower wind deflector 300 to the second predeterminated position II, guide the air-flow after heat exchange to the second air-supply region beta;Make first
After the temperature of air-supply region alpha quickly regulates, the temperature of the second air-supply region beta is quickly regulated so that every in room
The temperature put can quickly, be reduced uniformly, i.e. the temperature making the temperature at air outlet and room surrounding is suitable, temperature
Degree field distribution is uniform so that the user in Nei Ge region, room can feel the regulation of temperature, so that use air-conditioning is greatly improved
Comfortableness.
In order to first make user feel comfortable, then the temperature in other region in room is regulated to suitable temperature, described the
One air-supply region alpha includes that just region to air outlet 120, described second air-supply region beta include being positioned at just to air outlet 120 region
The region of top, or include just to the region below air outlet 120 region.
Specifically, the just region to air outlet 120 of wall-hanging air conditioner generally comprises the region at the head place of user,
When the first air-supply region alpha includes just region to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user
Portion, make user can quickly feel refrigerant (by refrigeration as a example by), when air-supply certain time after, wind is delivered to the health with user
The region corresponding with leg, the most just lower zone to region, so that user's whole body the most quickly feels refrigerant.Certainly, exist
In some embodiments, it is also possible to after just to region, then deliver to just upper area to region.
In the present embodiment, by the first air-supply region alpha is arranged on just region to air outlet 120, due to just to air-out
The region corresponding to space, head place that region is user of mouth 120 so that user quickly sensible temperature can adjust institute
The effect produced, beneficially user rapidly enters comfort conditions.
In order to make the temperature in room be adjusted more rapidly and uniformly, in described control wind deflector and lower wind deflector with
Time be rocked to the second predeterminated position, by after heat exchange air-flow guide to second air-supply region step after also include:
S30: when the operating frequency of cooler compressor is less than the second predeterminated frequency, and preset frequency more than or equal to the 3rd
During rate, in control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, the air-flow guiding after heat exchange are sent to the 3rd
Wind region;
Wherein, described 3rd air-supply region γ partly overlaps with described first air-supply region alpha or spacing is arranged;Described 3rd
Air-supply region γ is overlapping with described second air-supply region beat portion or spacing is arranged.
Specifically, in the present embodiment, in the operating frequency when compressor less than the second predeterminated frequency, and it is more than or equal to
During three predeterminated frequencies, in adjustment, wind deflector 200 and lower wind deflector 300 are to respective 3rd predeterminated position III, now, form the
Three air-guiding aisles, wind is delivered to the 3rd air-supply region γ by the 3rd air-guiding aisle, quickly to adjust the temperature of the 3rd air-supply region γ,
As a example by refrigeration.Wherein, the position of the 3rd air-supply region γ and the first air-supply region alpha, the second air-supply region beta is different, Ke Yiwei
The just region to air outlet 120 overlying regions, naturally it is also possible to for just to the region below air outlet 120 region, i.e. can root
According to setting, region on the upper side or region on the lower side are carried out temperature regulation.The scope of the 3rd air-supply region γ can pass through air outlet
The size of the subtended angle of 322 judges, as a example by the subtended angle of air outlet 322 is 30 °~80 °, could be arranged to 60 °.3rd air-supply
Region γ is as a example by just upper area to air outlet 120 region, and the 3rd air-supply region γ send with the first region alpha and second of blowing
Wind region beta can be arranged with spacing, it is also possible to the region (being crisscross arranged) of overlapping 10%~20%, certainly, and the ratio of overlapping region
Can be adjusted according to the actual requirements.3rd predeterminated frequency can be 10~30HZ, as a example by 20HZ.
What deserves to be explained is, when the first air-supply region alpha, the second air-supply region beta and the 3rd air-supply region γ are tangent and each
When air-supply subtended angle scope corresponding to region is 60 °, as the first air-supply region alpha, the second air-supply region beta and the 3rd air-supply region γ
Time side by side, angle corresponding together is 180 °, i.e. air-conditioner is 180 ° to the angle in air-supply region, room, is equivalent to form one
Individual air-supply plane, this is that existing air-conditioner cannot realize.
In the present embodiment, by the operating frequency when compressor less than the second predeterminated frequency, and more than or equal to the 3rd
During predeterminated frequency, the upper wind deflector 200 of swing and lower wind deflector 300 are to the 3rd predeterminated position III simultaneously, are drawn by the air-flow after heat exchange
It is directed at the 3rd air-supply region γ;Temperature after the temperature of the second air-supply region beta is quickly regulated, to the 3rd air-supply region γ
Degree quickly regulates so that in room, the temperature of each position can quickly, be reduced uniformly, i.e. makes at air outlet
Temperature and the temperature of room surrounding suitable, uniform distribution of temperature field so that the user in Nei Ge region, room can feel
The regulation of temperature, to be greatly improved the comfortableness using air-conditioning.
First make user feel comfortable, then the temperature regulation in other region in room, to suitable temperature, is felt user
After comfortable, then the higher temperature region above suitable temperature quickly being adjusted, described first air-supply region alpha includes just to going out
The region in air port 120, described second air-supply region beta includes just to the region below air outlet 120 region, described 3rd blow zones
Territory γ includes just region to air outlet 120 overlying regions.
Specifically, the just region to air outlet 120 of wall-hanging air conditioner generally comprises the region at the head place of user,
When the first air-supply region alpha includes just region to air outlet 120, the air-flow after heat exchange can quickly deliver to the head of user
Portion, make user can quickly feel refrigerant (by refrigeration as a example by).When the operating frequency of compressor is less than the second predeterminated frequency, and
During more than or equal to three predeterminated frequencies, wind is delivered to the health with user and region corresponding to leg, the most just to region
Lower zone, so that user's whole body the most quickly feels refrigerant.When user and and the ambient temperature of user's periphery all meet easypro
When thermophilic is spent, then cool breeze is delivered to just upper area to region, reduce the temperature of suitable temperature overlying regions higher temperature region
Degree, so that the regional in room is all suitable temperature.
In the present embodiment, by the first air-supply region alpha is arranged on just region to air outlet 120, due to just to air-out
The region corresponding to space, head place that region is user of mouth 120 so that user quickly sensible temperature can adjust institute
The effect produced, beneficially user rapidly enters comfort conditions;The head of user feel comfortable after, to user's body institute
Temperature regulation is carried out, so that the temperature of corresponding region is adjusted to rapidly suitable temperature in region;After this, then to suitable temperature
The region of top carries out temperature regulation, 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, in described control
Wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, and the air-flow after heat exchange guides the step to the 3rd air-supply region
The most also include:
S40: when the operating frequency of cooler compressor is less than three predeterminated frequencies, wind deflector and lower wind deflector in control
It is rocked to the first predeterminated position simultaneously, the air-flow after heat exchange is guided to the first air-supply region.From the first air-supply region alpha to the
After two air-supply region beta, then the air-supply order of the region γ that blows to the 3rd, the temperature in each region, room is quickly adjusted, and adjusts
Afterwards, return the first air-supply region alpha, to maintain current suitable temperature, make room thus user all at suitable temperature model
In enclosing.
In order to make the temperature in room more quickly and uniformly be adjusted, described air-conditioner also includes corresponding described air-out
The pendulum leaves that mouth 120 is arranged;
Thermal source in detection current air-supply region;
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
The swaying direction of 300 is that angle is arranged, as a example by the swaying direction of the swaying direction putting leaf and upper wind deflector 200 is mutually perpendicular to.
Positioner can be infrared detecting device, judges that according to infrared detection the position of thermal source, regulation pendulum leaf swing, so that after heat exchange
Air-flow follow thermal source and move.Positioner can also be for imaging first-class structure.When positioner navigates to thermal source (such as user
Deng) after, control module controls pendulum leaf and swings, 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 scope of the claims of the present invention, every at this
Under the inventive concept of invention, utilize the equivalent structure transformation that description of the invention and accompanying drawing content are made, or directly/indirectly use
The technical field relevant at other is included in the scope of patent protection of the present invention.
Claims (10)
1. an air-conditioner, it is characterised in that described air-conditioner includes:
Housing, described housing has air inlet, air outlet and the air channel between described air inlet and described air outlet;Described
The upper wind deflector being provided above being connected with described housing into rotation of air outlet, the lower section of described air outlet is provided with and described shell
The lower wind deflector that body is rotationally connected;
Control module, for when the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, controlling on described
Wind deflector and lower wind deflector are rocked to the first predeterminated position simultaneously, are guided by the air-flow after heat exchange to the first air-supply region;
When the operating frequency of cooler compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, control
In system, wind deflector and lower wind deflector are rocked to the second predeterminated position simultaneously, are guided by the air-flow after heat exchange 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, it is characterised in that described first air-supply region includes just district to air outlet
Territory, described second air-supply region includes the region being positioned at air outlet just to overlying regions, or includes that air outlet is just under region
The region of side.
3. air-conditioner as claimed in claim 1, it is characterised in that
Described control module, is additionally operable to when the operating frequency of cooler compressor is less than the second predeterminated frequency, and more than or etc.
When three predeterminated frequencies, in control, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position, by the air-flow after heat exchange simultaneously
Guide to the 3rd air-supply region;
Wherein, described 3rd air-supply region partly overlaps with described first air-supply region or spacing is arranged;
Described 3rd air-supply region partly overlaps with described second air-supply region or spacing is arranged.
4. air-conditioner as claimed in claim 3, it is characterised in that described first air-supply region includes just district to air outlet
Territory, described second air-supply region include air outlet just to the region below region, described 3rd air-supply region includes that air outlet is just
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 operating frequency of cooler compressor is less than three predeterminated frequencies, wind-guiding in control
Plate and lower wind deflector are rocked to the first predeterminated position simultaneously, are guided by the air-flow after heat exchange to the first air-supply region.
6. the air-conditioner as described in any one in claim 1 to 5, it is characterised in that described air-conditioner also includes corresponding institute
State the pendulum leaf that air outlet is arranged;
Positioner, the position of the thermal source in detecting current air-supply region;
Described control module, is additionally operable to control described pendulum leaf and guides the air-flow after heat exchange to thermal source.
7. the air supply method of an air-conditioner, it is characterised in that it is upper that air-conditioner includes being arranged at above the air outlet of air-conditioner
Wind deflector and be arranged at the lower wind deflector below air outlet;
The air supply method of described air-conditioner includes:
When the operating frequency of cooler compressor is more than or equal to the first predeterminated frequency, control described upper wind deflector and lower wind-guiding
Plate is rocked to the first predeterminated position simultaneously, is guided by the air-flow after heat exchange to the first air-supply region;
When the operating frequency of cooler compressor is less than the first predeterminated frequency, and during more than or equal to the second predeterminated frequency, control
In system, wind deflector and lower wind deflector are rocked to the second predeterminated position simultaneously, are guided by the air-flow after heat exchange to the second air-supply region;
Wherein, described first air-supply region and described second air-supply region partly overlap or spacing setting.
8. the air supply method of air-conditioner as claimed in claim 7, it is characterised in that wind deflector and lower wind-guiding in described control
Plate is rocked to the second predeterminated position simultaneously, is guided by the air-flow after heat exchange and also includes after the step in the second air-supply region:
When the operating frequency of cooler compressor is less than the second predeterminated frequency, and during more than or equal to three predeterminated frequencies, control
In system, wind deflector and lower wind deflector are rocked to the 3rd predeterminated position simultaneously, are guided by the air-flow after heat exchange to the 3rd air-supply region;
Wherein, described 3rd air-supply region partly overlaps with described first air-supply region or spacing is arranged;
Described 3rd air-supply region partly overlaps with described second air-supply region or spacing is arranged.
9. the air supply method of air-conditioner as claimed in claim 8, it is characterised in that wind deflector and lower wind-guiding in described control
Plate is rocked to the 3rd predeterminated position simultaneously, is guided by the air-flow after heat exchange and also includes after the step in the 3rd air-supply region:
When the operating frequency of cooler compressor is less than three predeterminated frequencies, 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, 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 thermal source in detection current air-supply region;
Air-flow after heat exchange is guided to thermal source by the pendulum leaf controlling described air-conditioner.
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CN106766010A (en) * | 2017-02-28 | 2017-05-31 | 广东美的制冷设备有限公司 | A kind of indoor set heat-production control method, indoor set and air-conditioning |
CN107461902A (en) * | 2017-07-26 | 2017-12-12 | 广东美的制冷设备有限公司 | Wind guiding component and there is its air conditioner |
CN110081567A (en) * | 2019-04-30 | 2019-08-02 | 广东美的制冷设备有限公司 | The flow-disturbing method of air conditioner |
CN110207336A (en) * | 2019-06-25 | 2019-09-06 | 广东美的制冷设备有限公司 | Control method, control device and the readable storage medium storing program for executing of multi-connected machine |
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CN110081567A (en) * | 2019-04-30 | 2019-08-02 | 广东美的制冷设备有限公司 | The flow-disturbing method of air conditioner |
CN110207336A (en) * | 2019-06-25 | 2019-09-06 | 广东美的制冷设备有限公司 | Control method, control device and the readable storage medium storing program for executing of multi-connected machine |
CN110207336B (en) * | 2019-06-25 | 2020-12-22 | 广东美的制冷设备有限公司 | Control method and control device of multi-split air conditioner and readable storage medium |
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