CN205980217U - Air guide component and air conditioner of air conditioner - Google Patents
Air guide component and air conditioner of air conditioner Download PDFInfo
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- CN205980217U CN205980217U CN201620898359.XU CN201620898359U CN205980217U CN 205980217 U CN205980217 U CN 205980217U CN 201620898359 U CN201620898359 U CN 201620898359U CN 205980217 U CN205980217 U CN 205980217U
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Abstract
The utility model discloses an air guide component and air conditioner of air conditioner. The air conditioner includes the casing, and air guide component establishes in the casing, and air guide component includes: wind channel and main air deflector subassembly. The wind channel has an air outlet, and the air outlet has relative last side air -out limit and side air -out limit down, but main air deflector spare pivot ground is established to sentence on last side air -out limit and is adjusted the air current flow direction. According to the utility model discloses an air guide component of air conditioner through setting up main air deflector spare, can adjust the air current flow direction that the wind channel air outlet was located through the rotation of main air deflector spare to can be to the air conditioner under different operating condition, if system cold die formula, the mode of heating and non -wind -sense mode etc. Are correspondingly adjusted the wind direction that the air outlet was located to, can improve the mobile speed and the hot switching speed of room air, and strengthened the travelling comfort of the air supply of air conditioner.
Description
Technical field
This utility model is related to household electrical appliance technical field, specifically, more particularly, to a kind of wind guiding component of air-conditioner
And air-conditioner.
Background technology
In correlation technique, the air-supply process of the indoor set of air-conditioner is usually:Indoor air as non-heat exchange wind,
Enter in the presence of cross flow fan in indoor set, form heat exchange wind after heat exchanger heat exchange, heat exchange wind is in through-flow wind
Blow out from air outlet in the presence of machine.Thus, the wind that air outlet is blown out is all heat exchange wind.This air supply mode is sent
Wind be all wind after heat exchanger heat exchange, relatively the room air temperature difference larger so that wind is not soft, be directly blown onto user
Feel uncomfortable with it, especially in cooling mode, the leaving air temp of air outlet is relatively low, blows to and feels with user extremely not
Comfortable, easily produce air conditioning disease.On the other hand, because air inlet mode and air-out mode are single, cause indoor air circulation speed
Slowly, room air reaches that design temperature required time is long, and power consumption is big.
Utility model content
This utility model is intended at least solve one of technical problem in correlation technique to a certain extent.For this reason, this reality
With a kind of wind guiding component of air-conditioner of new proposition, described wind guiding component has adjustment flexibly, comfortable advantage of blowing.
This utility model also proposes a kind of air-conditioner, and described air-conditioner has the wind guiding component of air-conditioner described above
The wind guiding component of the air-conditioner according to this utility model embodiment, described air-conditioner includes housing, described wind-guiding group
Part is located in described housing and includes:Air channel, described air channel has air outlet, and described air outlet has relative upside air-out edge
With downside air-out edge;Prevailing wind part, described prevailing wind part is pivotally arranged in described upside air-out edge and sentences adjustment air current flow
Direction.
The wind guiding component of the air-conditioner according to this utility model embodiment, by arranging prevailing wind part, can be by leading
The rotation of wind part, is adjusted to the air current flow direction at duct outlet, such that it is able to air-conditioner in different operating shape
Under state, such as refrigeration mode, heating mode and calm sense pattern etc., the airflow direction of air outlet is correspondingly adjusted, from
And, flowing velocity and the rate of heat exchange of room air can be improved, and enhance the comfortableness of the air-supply of air-conditioner.
According to an embodiment of the present utility model, described prevailing wind part includes the first wind-guiding face, the second wind-guiding face and
Three wind-guiding faces, described prevailing wind part has primary importance state, second position state and the 3rd location status, wherein as described master
When air guide member is located at described primary importance state, described first wind-guiding face is suitable to make the air-flow of described air outlet flow downward;
When described prevailing wind part is located at described second position state, described second wind-guiding face be suitable to make the air-flow of described air outlet to
Upper flowing;When described prevailing wind part is located at described three location status, described 3rd wind-guiding face is suitable to make described air outlet
Air-flow flow directly out.
According to an embodiment of the present utility model, described first wind-guiding face is wind-guiding concave surface, when described prevailing wind part position
When described primary importance state, the extended surface of described air channel internal face at the air-out edge of described upside and described wind-guiding concave surface
Close described air outlet one end tangent.
According to an embodiment of the present utility model, the cutting flat with of one end away from described air outlet of described first wind-guiding face
Angle between face and horizontal plane is α, and described α meets:α≥50°.
According to an embodiment of the present utility model, described second wind-guiding face is wind-guiding convex surface, and described prevailing wind part is located at
During described second position state, the extended surface of described air channel internal face at the air-out edge of described upside and described wind-guiding convex surface
Tangent near one end of described air outlet.
According to an embodiment of the present utility model, described wind-guiding concave surface is equal with the radius of curvature of described wind-guiding convex surface.
According to an embodiment of the present utility model, described 3rd wind-guiding face is wind-guiding plane, when described prevailing wind part position
When described three location status, extend outside the described air channel inwall at the air-out edge of described upside is towards described air channel and prolong
Stretch face, described wind-guiding plane and described extended surface are generally aligned in the same plane interior.
According to an embodiment of the present utility model, also include assisting air guide member, described auxiliary air guide member pivotly sets
At the air-out edge of described downside.
According to an embodiment of the present utility model, the folder between the auxiliary wind-guiding face of described auxiliary air guide member and horizontal plane
Angle is β, and when described prevailing wind part is located at described primary importance state, described β meets:58°≤β≤80°.
According to an embodiment of the present utility model, the folder between the auxiliary wind-guiding face of described auxiliary air guide member and horizontal plane
Angle is β, and when described prevailing wind part is located at described second position state, described β meets:18°≤β≤38°.
According to an embodiment of the present utility model, the folder between the auxiliary wind-guiding face of described auxiliary air guide member and horizontal plane
Angle is β, and when described prevailing wind part is located at described three location status, described β meets:38°≤β≤58°.
According to the air-conditioner of this utility model embodiment, described air-conditioner includes:Housing, described housing has air outlet;
Wind guiding component, described wind guiding component is the wind guiding component of air-conditioner described above, and described wind guiding component is located in described housing,
The described air outlet of described wind guiding component is relative with described air outlet;And wind deflector, described wind deflector set on the housing and
Sentence positioned at described air outlet and open or block described air outlet.
According to the air-conditioner of this utility model embodiment, by arranging the wind guiding component of air-conditioner described above, permissible
By the rotation of prevailing wind part, the air current flow direction at duct outlet is adjusted, such that it is able to air-conditioner not
With under working condition, such as refrigeration mode, heating mode and calm sense pattern etc., the wind direction of air outlet is correspondingly adjusted
Section, it is thus possible to improve the flowing velocity of room air and rate of heat exchange, and enhance air-conditioner air-supply comfortable
Property.
Brief description
Above-mentioned and/or additional aspect of the present utility model and advantage will from reference to the description to embodiment for the accompanying drawings below
Become more apparent upon with easy to understand, wherein:
Fig. 1 is the structural representation of the wind guiding component of the air-conditioner according to this utility model embodiment, wherein prevailing wind part
It is in primary importance state;
Fig. 2 is the structural representation of the wind guiding component of the air-conditioner according to this utility model embodiment, wherein prevailing wind part
It is in second position state;
Fig. 3 is the structural representation of the wind guiding component of the air-conditioner according to this utility model embodiment, wherein prevailing wind part
It is in the 3rd location status;
Fig. 4 is the partial structurtes explosive view of the wind guiding component of the air-conditioner according to this utility model embodiment, wherein leading
Wind part is in second position state;
Fig. 5 is the partial structurtes explosive view of the wind guiding component of the air-conditioner according to this utility model embodiment, wherein leading
Wind part is in primary importance in state.
Reference:
Air-conditioner 100,
Housing 10, air inlet 110, heat exchanger 120, cross flow fan 130,
Wind guiding component 20, air channel 210, air outlet 211, upside air-out edge 211a, downside air-out edge 211b,
Prevailing wind part 220, the first wind-guiding face 221, wind-guiding concave surface 221a, the second wind-guiding face 222, wind-guiding convex surface 222a,
3rd wind-guiding face 223, wind-guiding plane 223a,
Auxiliary air guide member 230.
Specific embodiment
Embodiment of the present utility model is described below in detail, the example of described embodiment is shown in the drawings.Below by
The embodiment being described with reference to the drawings is exemplary it is intended to be used for explaining this utility model, and it is not intended that new to this practicality
The restriction of type.
Of the present utility model description in it is to be understood that term " length ", " on ", D score, " afterwards ", " level ",
" bottom ", " interior ", " outward ", etc. the orientation of instruction or position relationship be based on orientation shown in the drawings or position relationship, merely to
It is easy to describe this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific side
Position, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.
Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or hint relative importance
Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or
Implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, such as two
Individual, three etc., unless otherwise expressly limited specifically.
In this utility model, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection ", " Gu
Fixed " etc. term should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral;Can be
It is mechanically connected or electrically connect or can communicate each other;Can be to be joined directly together it is also possible to pass through the indirect phase of intermediary
Even, can be the connection of two element internals or the interaction relationship of two elements, limit unless otherwise clear and definite.For this
For the those of ordinary skill in field, concrete meaning in this utility model for the above-mentioned term can be understood as the case may be.
Below with reference to Fig. 1-Fig. 5, the wind guiding component 20 according to this utility model embodiment air-conditioner 100 is described.Need explanation
, described air-conditioner 100 can be wall-mounted room air conditioner, and wind guiding component 20 can be located inside air-conditioner 100.
As Figure 1-Figure 5, the wind guiding component 20 of the air-conditioner 100 according to this utility model embodiment, air-conditioner 100 wraps
Include housing 10, wind guiding component 20 is located in housing 10, and wind guiding component 20 includes:Air channel 210 and prevailing wind assembly 220.
Specifically, air channel 210 has air outlet 211, and air outlet 211 has relative upside air-out edge 211a and downside
Air-out edge 211b.As Figure 1-Figure 5, air-out edge 211a in upside may be located at the upside of air outlet 211 (as Figure 1-Figure 5
Top), downside air-out edge 211b may be located at the downside (lower section as Figure 1-Figure 5) of air outlet 211.Prevailing wind part
220 are pivotally arranged in upside air-out edge 211a sentences adjustment air current flow direction.
It should be noted that room air can enter into air-conditioner 100 from the air inlet 110 of the top of air-conditioner 100
Inside, carry out heat exchange through the heat exchanger 120 within air-conditioner 100, in the presence of cross flow fan last from air channel 210
Air outlet 211 blow out, because, the air-flow after heat exchange and room air have the larger temperature difference, particularly in air-conditioning
Under the refrigeration mode of device, when the cold airflow of air conditioner wind outlet blowout is directly blown onto with user, comfortableness is poor, and goes out
The flowing of room air and heat exchange when the air-flow of air port single direction is unfavorable for that air-conditioner works under different working condition, from
And increase the workload of air-conditioner.
The wind guiding component 20 of the air-conditioner 100 according to this utility model embodiment, by arranging prevailing wind part 220, permissible
By the rotation of prevailing wind part 220, the air current flow direction at the air outlet 211 of air channel 210 is adjusted, such that it is able to sky
Adjust device 100 under different working condition, such as refrigeration mode, heating mode and calm sense pattern etc., to the wind direction at air outlet 211
Correspondingly adjusted, it is thus possible to improve flowing velocity and the rate of heat exchange of room air, and enhanced air-conditioner
100 air-supply comfortableness.
According to an embodiment of the present utility model, as Figure 1-Figure 5, prevailing wind part 220 can include the first wind-guiding
Face 221, the second wind-guiding face 222 and the 3rd wind-guiding face 223, prevailing wind part 220 has primary importance state (sky as shown in Figure 1
Adjust the working condition of device 100), second position state (working condition of air-conditioner 100 as shown in Figure 2) and the 3rd location status
(working condition of air-conditioner as shown in Figure 3), wherein when prevailing wind part 220 is located at primary importance state, the first wind-guiding face
221 are suitable to make the air-flow at air outlet 211 flow downward (as shown in fig. 1 by the flow direction of m to n);When prevailing wind part 220
Positioned at the second position state when, the second wind-guiding face 222 be suitable to make the air-flow at air outlet 211 flow up (as shown in Figure 2 by
The flow direction of m to n);When prevailing wind part 220 is located at three location status, the 3rd wind-guiding face 223 is suitable to make air outlet 211
The air-flow at place flows directly out (as shown in Figure 3 by the flow direction of m to n).Thus, it is possible to be adjusted by rotating prevailing wind part 220
Whole prevailing wind part 220 arrives different positions, to adjust air-flow wind direction, thus strengthening the comfortableness of air-conditioner 100 air-supply.At this
In some bright embodiments, as Figure 1-Figure 5, prevailing wind part 220 could be arranged to the shape of triangular prism, and its side wall divides
Not Wei the first wind-guiding face 221, the second wind-guiding face 222 and the 3rd wind-guiding face 223, thus, make to dominate by rotating prevailing wind part 220
Wind part 220 is in different location status, to adjust the flow direction of air-conditioner 100 air outlet 211 air-flow.
Specifically, as shown in the example in Fig. 1-Fig. 3, based on Fig. 1, air guide member 220 is located at primary importance state space-time and adjusts device
100 schematic diagram, when air-conditioner 100 in a heating mode when, can by adjust prevailing wind part 220 make prevailing wind part 220
In primary importance state, now, from the thermal current of air outlet 211 outflow, blow to lower section under the guiding of the first wind-guiding face 221
(above-below direction as shown in Figure 1), it should be noted that air-conditioner 100 in a heating mode when, can be by prevailing wind part
220 adjust to primary importance state, and the steam current density due to blowing out from air outlet 211 is less, and thermal current blows to meeting behind ground
Rise to top, thus forming circulating current, to reach more preferable heating effect;Based on Fig. 2, air guide member 220 is located at the second position
State space-time adjusts the schematic diagram of device 100, when air-conditioner 100 is under calm sense pattern, can be made by adjusting prevailing wind part 220
Prevailing wind part 220 is located at second position state, and now, the air-flow flowing out from air outlet 211 blows to oblique upper (as shown in Figure 2
Flow direction by m to n);Fig. 3 is the schematic diagram of air-conditioner 100 when prevailing wind part 220 is located at three location status, works as air-conditioning
When device 100 is under refrigeration mode state, prevailing wind part 220 can be made to be in the 3rd location status by adjusting prevailing wind part 220,
Now, the cold airflow from air-conditioner 100 blowout blows to diagonally forward direction (as shown in Figure 3 by the flow direction of m to n).
According to an embodiment of the present utility model, as shown in figure 1, the first wind-guiding face 221 is wind-guiding concave surface 221a, work as master
When air guide member 220 is located at primary importance state, the extended surface of air channel 210 internal face at the air-out edge 211a of upside is recessed with wind-guiding
One end of the close air outlet 211 of face 221a is tangent.Thus, from air outlet 211, air-flow out can be along wind-guiding concave surface
221a blows to lower section (as shown in fig. 1 by the flow direction of m to n).It should be noted that air-conditioner 100 is in a heating mode
When, prevailing wind part 220 can be adjusted to primary importance state, the steam current density due to blowing out from air outlet 211 is less, heat
Air-flow can rise to top after blowing to ground, thus forming circulating current, to reach more preferable heating effect.
According to an embodiment of the present utility model, as shown in figure 5, the first wind-guiding face 221 away from the one of air outlet 211
Angle between the incisal plane at end and horizontal plane is α, and α meets:α≥50°.Through measuring, when α >=50 °, can adjust
Thermal current blows to obliquely downward (as shown in fig. 1 by the flow direction of m to n), because steam current density is less, blows to the heat on ground
Air-flow rises and forms circulating current, is derived from more preferable heating effect, and has more preferable air-supply comfortableness.New in this practicality
In some embodiments of type, as shown in figure 3, when air-conditioner 100 is in heating mode, being suitable for the first wind-guiding face 221 is remote
The angle α separating out between the incisal plane of the one end in air port 211 and horizontal plane is adjusted to α >=50 °, thus, it is possible to obtain more preferably
Heating effect, and there is more preferable air-supply comfortableness.
According to an embodiment of the present utility model, as shown in Fig. 2 the second wind-guiding face 222 is wind-guiding convex surface 222a, dominate
When wind part 220 is located at second position state, the extended surface of air channel 210 internal face the air-out edge 211a of upside at and wind-guiding convex surface
One end of the close air outlet 211 of 222a is tangent.Thus, from air outlet 211, air-flow out can be along wind-guiding convex surface 222a
Blow to oblique upper (as shown in Figure 2 by the flow direction of m to n).It should be noted that under calm sense pattern, by adjusting
Whole prevailing wind part 220 makes prevailing wind part 220 be in second position state, can make from air outlet 211 blowout air-flow along wind-guiding
Projection blows to oblique upper (as shown in Figure 2 by the flow direction of m to n), thus obtaining the calm sense Working mould of air-conditioner 100
Formula.
According to an embodiment of the present utility model, as Figure 1-Figure 5, wind-guiding concave surface 221a and wind-guiding convex surface 222a's
Radius of curvature is equal.Thus, it is possible to prevent from interfering with upside air-out edge 211a and panel during prevailing wind part 220 rotation, and
And can make prevailing wind part 220 compact conformation reasonable.In some embodiments of the present utility model, as shown in figure 5, wind-guiding is recessed
The outer contour of the cross section of face 221a and wind-guiding convex surface 222a intersects at point A, and wind-guiding concave surface 221a and wind-guiding convex surface 222a
Along common rotating shaft rotation, thus, prevailing wind part 220 can be made to be in diverse location state by rotating prevailing wind part 220, obtain
Obtain different wind sense patterns.
According to an embodiment of the present utility model, as shown in figure 3, the 3rd wind-guiding face 223 is wind-guiding plane 223a, work as master
When air guide member 220 is located at three location status, prolong outside air channel 210 internal face at the air-out edge 211a of upside is to air channel 210
Stretch out extended surface, wind-guiding plane 223a and extended surface are generally aligned in the same plane interior.Thus, it is possible to make from air channel 210 outlet blowout
Air-flow can blow to diagonally forward (as shown in Figure 3 by the flow direction of m to n) along wind-guiding plane 223a.Need explanation
It is in cooling mode, prevailing wind part 220 can be rotated to the 3rd location status, by secondary, from air channel 210 outlet blowout
Cold airflow can blow to diagonally forward (as shown in Figure 3 by the flow direction of m to n), more conducively the circulating of room air,
Thus playing more preferable refrigeration it is possible to improve the comfortableness of air-supply.
According to an embodiment of the present utility model, as Figure 1-Figure 5, the wind guiding component 20 of air-conditioner 100 also includes
Auxiliary air guide member 230, auxiliary air guide member 230 is pivotally arranged at the air-out edge 211b of downside.Thus, it is possible to cooperation prevailing wind part
The air-flows of 220 regulation air outlets 211, with or more comfortable air-supply air-flow.In some embodiments of the present utility model, such as scheme
Shown in 1- Fig. 5, prevailing wind part 220 is pivotally disposed at the air-out edge 211a of upside, and auxiliary air guide member 230 is pivotally arranged
At the air-out edge 211b of downside, thus, it is possible to by the different angles adjusting prevailing wind part 220 and auxiliary air guide member 230, pass through
The different flow directions of adjustment air channel 210 exit flow that cooperates between prevailing wind part 220 and auxiliary air guide member 230, thus adjust
Optimal air-supply comfort level.
According to an embodiment of the present utility model, as shown in figure 1, the auxiliary wind-guiding face of auxiliary air guide member 230 and level
Angle between face is β, and when prevailing wind part 220 is located at primary importance state (as shown in Figure 1), β meets:58°≤β≤80°.
Through verification experimental verification, when air-conditioner 100 is under heating mode, prevailing wind part 220 is rotated to primary importance state, and auxiliary
The angle between the auxiliary wind-guiding face of air guide member 230 and horizontal plane is helped to be that β meets:During 58 °≤β≤80 °, more conducively room air
The heat exchange circulating with room air, thus having more preferably heating effect, and the air-supply of air-conditioner 100 has more
Good comfortableness.
According to an embodiment of the present utility model, as shown in Fig. 2 the auxiliary wind-guiding face of auxiliary air guide member 230 and level
Angle between face is β, and when prevailing wind part 220 is located at second position state (as shown in Figure 2), β meets:18°≤β≤38°.
Through verification experimental verification, when air-conditioner 100 is under calm sense pattern, prevailing wind part 220 is rotated to second position state, and
Angle between the auxiliary wind-guiding face of auxiliary air guide member 230 and horizontal plane is that β meets:During 18 °≤β≤38 °, air-flow can be led
Upward, and directly do not blow to user, thus obtaining the calm sense mode effects of air-conditioner 100.
According to an embodiment of the present utility model, as shown in figure 3, the auxiliary wind-guiding face of auxiliary air guide member 230 and level
Angle between face is β, and when prevailing wind part 220 is located at three location status (as shown in Figure 3), β meets:38°≤β≤58°.
Through verification experimental verification, when air-conditioner 100 is under refrigeration mode, prevailing wind part 220 is rotated to the 3rd location status, and auxiliary
The angle between the auxiliary wind-guiding face of air guide member 230 and horizontal plane is helped to be that β meets:During 38 °≤β≤58 °, have and more preferably freeze
Effect, and the air-supply of air-conditioner 100 has more preferable comfortableness.
According to an embodiment of the present utility model, as Figure 1-Figure 5, the length of prevailing wind part 220 and upper side air-out
The equal length of side 211a.Thus, it is possible to make the air-flow at air outlet 211 change stream according to the location status of prevailing wind part 220
Dynamic direction, plays the more preferable effect adjusting airflow direction, and, the length of prevailing wind part 220 is set to and upper side air-out
The equal length of side 211a, is easy to the installation cooperation of prevailing wind part 220.
According to an embodiment of the present utility model, as shown in figure 5, the outer contour of the cross section of prevailing wind part 220 can
With include positioned at first in the first wind-guiding face 221 while, be located at the second wind-guiding face 222 on second while and be located at the 3rd wind-guiding face
The 3rd side on 223, the first intersection point while with second is A, and the second intersection point while with the 3rd is B, the 3rd while and when first
Intersection point be C, on the circle for O for the center of circle, prevailing wind part 220 is around center of circle O rotation for point A, point B and point C.Thus, it is possible to it is logical
Cross the regulation to prevailing wind part 220 position for the rotation center O realization, realize different air-supply effects.More of the present utility model
In embodiment, it is connected on the circle with O as the center of circle in intersection point A, B, C, by rotation center O, prevailing wind part 220 can be made to be in not
Same location status, to reach different air-supply effects, for example, based on Fig. 1, air guide member 220 is located at showing during primary importance state
Be intended to, schematic diagram during air guide member 220 second position state based on Fig. 2, Fig. 3 be positioned at three location status when schematic diagram.
According to an embodiment of the present utility model, the central angle on the 3rd side is θ, and θ meets:100 °≤θ≤140 °, pass through
Verification experimental verification, when the central angle θ on the 3rd side meets:During 100 °≤θ≤140 °, can preferably adjust the air-supply gas of air-conditioner 100
Stream, further, in some embodiments of the present utility model, θ=120 °.When θ=120 °, the comfortableness of the air-supply of air-conditioning
More preferably, and be easy to the processing and manufacturing of prevailing wind part 220.
Referring to Fig. 1-Fig. 5, described in detail according to air-conditioner 100 of the present utility model with a specific embodiment
Wind guiding component 20.It is worth being understood by, described below be merely illustrative, rather than to concrete restriction of the present utility model.
As Figure 1-Figure 5, the wind guiding component 20 of the air-conditioner 100 according to this utility model embodiment, air-conditioner 100 wraps
Include housing 10, wind guiding component 20 is located in housing 10, and wind guiding component 20 includes:Air channel 210, prevailing wind assembly 220 and auxiliary
Air guide member 230.
Wherein, air channel 210 has air outlet 211, and air outlet 211 has relative upside air-out edge 211a and lower side air-out
Side 211b, prevailing wind part 220 is pivotally arranged in upside air-out edge 211a and sentences adjustment air current flow direction, assists air guide member
230 are pivotally arranged at the air-out edge 211b of downside.The air inlet 110 from air-conditioner 100 top for the indoor air enters into sky
Adjust the inside of device 100, carry out heat exchange through over-heat-exchanger 120, in the presence of cross flow fan 130, finally from air channel 210
Flow out at air outlet 211.As Figure 1-Figure 5, prevailing wind part 220 includes the first wind-guiding face 221, the second wind-guiding face 222 and
Three wind-guiding faces 223, prevailing wind part 220 have primary importance state (as shown in Figure 1), second position state (as shown in Figure 2) and
Prevailing wind part 220, wherein when air-conditioner 100 is under heating mode, can be adjusted by the 3rd location status (as shown in Figure 3)
To primary importance state, the first wind-guiding face 221 is suitable to make the air-flow at air outlet 211 flow downward (as shown in Figure 1 by m
Flow direction to n);When air-conditioner 100 is under calm sense mode state, prevailing wind part 220 can be adjusted to second
Location status (as shown in Figure 2), the second wind-guiding face 222 is suitable to make the air-flow at air outlet 211 flow up (as shown in Figure 2
The flow direction by m to n);When air-conditioner 100 is under refrigeration mode state, prevailing wind part 220 can be adjusted to
Three location status (as shown in Figure 3), the 3rd wind-guiding face 223 is suitable to make the air-flow at air outlet 211 flow directly out (as institute in Fig. 3
The flow direction by m to n showing).Thus, it is possible to adjust prevailing wind part 220 to different positions by rotating prevailing wind part 220
Putting, to adjust air current flow direction, thus strengthening the heat transfer effect of indoor air flows and air, and air-conditioner can be improved
The comfortableness of 100 air-supplies.As shown in the example in Fig. 1-Fig. 5, based on Fig. 1, air guide member 220 is located at primary importance state space-time and adjusts
The schematic diagram of device 100, air guide member 220 is located at the schematic diagram that second position state space-time adjusts device 100 based on Fig. 2, and Fig. 3 is prevailing wind
The schematic diagram of air-conditioner 100 when part 220 is located at three location status.
As shown in figure 1, the first wind-guiding face 221 is wind-guiding concave surface 221a, when prevailing wind part 220 is located at primary importance state
When, the extended surface of air channel 210 internal face at the air-out edge 211a of upside and the one of the close air outlet 211 of wind-guiding concave surface 221a
End is tangent.Angle between the incisal plane of the one end away from air outlet 211 of the first wind-guiding face 221 and horizontal plane is α, and α meets:
α≥50°.Through measuring, in α >=50 °, thermal current can be adjusted and blow to ground, because steam current density is less, ground
Thermal current rises and forms circulating current, is derived from more preferable heating effect, and has more preferable air-supply comfortableness.
As shown in Fig. 2 the second wind-guiding face 222 is wind-guiding convex surface 222a, when prevailing wind part 220 is located at second position state,
One end of the close air outlet 211 of the extended surface of air channel 210 internal face at the air-out edge 211a of upside and wind-guiding convex surface 222a
Tangent.As shown in figure 3, the 3rd wind-guiding face 223 is wind-guiding plane 223a, when prevailing wind part 220 is located at three location status,
Air channel 210 internal face at the air-out edge 211a of upside extends extended surface, wind-guiding plane 223a and extended surface to outside air channel 210
In being generally aligned in the same plane.
As shown in Figure 4, Figure 5, the angle between the auxiliary wind-guiding face of auxiliary air guide member 230 and horizontal plane is β, works as prevailing wind
When part 220 is located at primary importance state, β meets:58°≤β≤80°.Through verification experimental verification, heat mould when air-conditioner 100 is in
When under formula, prevailing wind part 220 is rotated to primary importance state, and assist air guide member 230 auxiliary wind-guiding face and horizontal plane it
Between angle be β meet:During 58 °≤β≤80 °, there is more preferably heating effect, and the air-supply of air-conditioner 100 has more preferably
Comfortableness.
As shown in Fig. 2 when prevailing wind part 220 is located at second position state, β meets:18°≤β≤38°.Through overtesting
Checking, when air-conditioner 100 is under calm sense pattern, prevailing wind part 220 is rotated to second position state, and assists wind-guiding
Angle between the auxiliary wind-guiding face of part 230 and horizontal plane is that β meets:During 18 °≤β≤38 °, air-flow can be blowed to top,
And directly do not blow to people.
As shown in figure 3, when prevailing wind part 220 is located at three location status, β meets:38°≤β≤58°.Through overtesting
Checking, when air-conditioner 100 is under refrigeration mode, prevailing wind part 220 is rotated to the 3rd location status, and assists air guide member
Angle between 230 auxiliary wind-guiding face and horizontal plane is that β meets:During 38 °≤β≤58 °, there is more preferably refrigeration, and
And the air-supply of air-conditioner 100 has more preferable comfortableness.
As Figure 1-Figure 5, the equal length of the length of prevailing wind part 220 and upside air-out edge 211a, wind-guiding concave surface
221a is equal with the radius of curvature of wind-guiding convex surface 222a.The outer contour of the cross section of prevailing wind part 220 includes leading positioned at first
On wind face 221 first while, be located in the second wind-guiding face 222 second while and the 3rd side that is located in the 3rd wind-guiding face 223, the
While being A with the intersection point on the second side, the second intersection point while with the 3rd is B, the 3rd while and intersection point when first be C, point A, point B
It is located on the circle that the center of circle is O with point C, prevailing wind part 220 rotates (as shown in Figure 5) around center of circle O.Thus, it is possible to by rotation
Center of circle O realizes the regulation to prevailing wind part 220 position, realizes different air-supply effects.The central angle on the 3rd side is θ, θ=
120°.
Thus, the rotation of prevailing wind part 220 can by arranging prevailing wind part 220, be passed through, to air channel 210 air outlet 211
The air current flow direction at place is adjusted, such that it is able to air-conditioner 100 under different working condition, such as refrigeration mode, heat
Pattern and calm sense pattern etc., are correspondingly adjusted to the wind direction at air outlet 211, it is thus possible to improve room air
Flowing velocity and rate of heat exchange, and enhance the air-supply comfortableness of air-conditioner 100.
According to the air-conditioner 100 of this utility model embodiment, air-conditioner 100 includes:Housing 10, wind guiding component 20 and wind-guiding
Plate.Housing 10 has air outlet, and wind guiding component 20 is located in housing 10, and wind guiding component 20 is air-conditioner 100 described above
Wind guiding component 20, the air outlet 211 of wind guiding component 20 is relative with air outlet, and wind deflector sets on the housing 10 and is located at air outlet
To open or to block air outlet.
According to the air-conditioner 100 of this utility model embodiment, by arranging the wind guiding component of air-conditioner 100 described above
20, the rotation of prevailing wind part 220 can be passed through, the air current flow direction at the air outlet 211 of air channel 210 is adjusted, thus
Can be to air-conditioner 100 under different working condition, such as refrigeration mode, heating mode and calm sense pattern etc., to air outlet 211
The wind direction at place is correspondingly adjusted, it is thus possible to improve flowing velocity and the rate of heat exchange of room air, and enhances
The comfortableness of the air-supply of air-conditioner 100.
In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or the spy describing with reference to this embodiment or example
Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term
State and be necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature are permissible
Any one or more embodiments or example combine in an appropriate manner.Additionally, in the case of not conflicting, this area
Technical staff the feature of the different embodiments described in this specification or example and different embodiment or example can be entered
Row combines and combines.
Although of the present utility model embodiment has been shown and described above it is to be understood that above-described embodiment is
Exemplary it is impossible to be interpreted as that those of ordinary skill in the art is in scope of the present utility model to restriction of the present utility model
Interior above-described embodiment can be changed, change, replacing and modification.
Claims (12)
1. a kind of wind guiding component of air-conditioner, described air-conditioner include housing it is characterised in that described wind guiding component be located at described
Housing is interior and includes:
Air channel, described air channel has air outlet, and described air outlet has relative upside air-out edge and downside air-out edge;
Prevailing wind part, described prevailing wind part is pivotally arranged in described upside air-out edge and sentences adjustment air current flow direction.
2. the wind guiding component of air-conditioner according to claim 1 is it is characterised in that described prevailing wind part includes the first wind-guiding
Face, the second wind-guiding face and the 3rd wind-guiding face, described prevailing wind part has primary importance state, second position state and the 3rd position
State, wherein when described prevailing wind part is located at described primary importance state, described first wind-guiding face is suitable to make described air outlet
The air-flow at place flows downward;When described prevailing wind part is located at described second position state, described second wind-guiding face is suitable to make institute
The air-flow stating air outlet flows up;When described prevailing wind part is located at described three location status, described 3rd wind-guiding face
It is suitable to so that the air-flow of described air outlet is flowed directly out.
3. the wind guiding component of air-conditioner according to claim 2 is it is characterised in that described first wind-guiding face is that wind-guiding is recessed
Face, when described prevailing wind part is located at described primary importance state, the described air channel internal face at the air-out edge of described upside
Extended surface is tangent with one end of the close described air outlet of described wind-guiding concave surface.
4. air-conditioner according to claim 3 wind guiding component it is characterised in that described first wind-guiding face away from described
Angle between the incisal plane of one end of air outlet and horizontal plane is α, and described α meets:α≥50°.
5. the wind guiding component of air-conditioner according to claim 3 is it is characterised in that described second wind-guiding face is that wind-guiding is convex
Face, when described prevailing wind part is located at described second position state, the prolonging of the described air channel internal face at the air-out edge of described upside
Face of stretching is tangent with one end of the close described air outlet of described wind-guiding convex surface.
6. the wind guiding component of air-conditioner according to claim 5 is it is characterised in that described wind-guiding concave surface is convex with described wind-guiding
The radius of curvature in face is equal.
7. the wind guiding component of air-conditioner according to claim 2 is it is characterised in that described 3rd wind-guiding face is put down for wind-guiding
Face, when described prevailing wind part be located at described three location status when, the described air channel inwall at the air-out edge of described upside towards
Extend extended surface, described wind-guiding plane and described extended surface are generally aligned in the same plane interior outside described air channel.
8. the wind guiding component of air-conditioner according to claim 2 is it is characterised in that also including assisting air guide member, described auxiliary
Air guide member is helped to be pivotally arranged at the air-out edge of described downside.
9. the wind guiding component of air-conditioner according to claim 8 is it is characterised in that the auxiliary wind-guiding of described auxiliary air guide member
Angle between face and horizontal plane is β, and when described prevailing wind part is located at described primary importance state, described β meets:58°≤β
≤80°.
10. the wind guiding component of air-conditioner according to claim 8 is it is characterised in that the auxiliary of described auxiliary air guide member is led
Angle between wind face and horizontal plane is β, and when described prevailing wind part is located at described second position state, described β meets:18°
≤β≤38°.
The wind guiding component of 11. air-conditioners according to claim 8 is it is characterised in that the auxiliary of described auxiliary air guide member is led
Angle between wind face and horizontal plane is β, and when described prevailing wind part is located at described three location status, described β meets:38°
≤β≤58°.
A kind of 12. air-conditioners are it is characterised in that include:
Housing, described housing has air outlet;
Wind guiding component, described wind guiding component is the wind guiding component of the air-conditioner according to any one of claim 1-11, institute
State wind guiding component to be located in described housing, the described air outlet of described wind guiding component is relative with described air outlet;With
Wind deflector, described wind deflector sets on the housing and sentences positioned at described air outlet opens or blocks described air outlet.
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CN201620898359.XU CN205980217U (en) | 2016-08-17 | 2016-08-17 | Air guide component and air conditioner of air conditioner |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106152442A (en) * | 2016-08-17 | 2016-11-23 | 广东美的制冷设备有限公司 | The wind guiding component of air-conditioner and air-conditioner |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106152442A (en) * | 2016-08-17 | 2016-11-23 | 广东美的制冷设备有限公司 | The wind guiding component of air-conditioner and air-conditioner |
CN106152442B (en) * | 2016-08-17 | 2022-02-25 | 广东美的制冷设备有限公司 | Air guide assembly of air conditioner and air conditioner |
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