CN207962902U - A kind of swing flap structure, air conditioner indoor unit and air conditioner - Google Patents
A kind of swing flap structure, air conditioner indoor unit and air conditioner Download PDFInfo
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- CN207962902U CN207962902U CN201820177172.XU CN201820177172U CN207962902U CN 207962902 U CN207962902 U CN 207962902U CN 201820177172 U CN201820177172 U CN 201820177172U CN 207962902 U CN207962902 U CN 207962902U
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Abstract
The utility model discloses a kind of swing flap structure, air conditioner indoor unit and air conditioners, wherein, the swing flap structure includes the more than two first swing flap blades being located on the inside of air conditioner indoor set wind outlet, second swing flap blade the first swing flap blade is horizontally extending to be arranged, can vertically spin upside down, air-flow is vertically carried out vertical swing flap, and is arranged in vertical direction between more than two second swing flap blades the first swing flap blade.The embodiment of the utility model, it can overcome in the prior art, the non-uniform defect of outlet air of air-conditioning, first swing flap blade is horizontally extending to be arranged, can vertically spin upside down, air-flow is vertically carried out vertical swing flap, and it arranges in vertical direction between more than two first swing flap blades, in this way so that the outlet air of air-conditioning is more uniform.
Description
Technical field
The utility model belongs to air-conditioning technical field, and in particular to a kind of swing flap structure, air conditioner indoor unit and air conditioner.
Background technology
With the continuous development of air-conditioning technical, constantly promoted to people's living standard, air-conditioning has obtained more and more widely
It uses.During air-conditioning use, more and more users propose more requirements to air-conditioning, for example, the requirement of comfort,
It needs constantly to promote user experience.
Existing air-conditioned traditional air-out mode, is to carry out outlet air by centrifugation blade, due to the office in centrifugation blade structure
Limit, the non-uniform problem of outlet air be easy to causeing at air outlet.
In addition to this, since traditional swing flap model is the swing flap pattern that uses inside outlet frame for left and right swing flap pattern,
And the outside of outlet frame is vertical swing flap pattern, in this way, also easy ting produce the problem of outlet air unevenness.
In order to improve the requirement of user's comfort, user experience is improved, needs to solve the problems, such as that air conditioning exhausting is non-uniform.
Utility model content
The purpose of this utility model is that in view of the foregoing drawbacks, a kind of swing flap structure, air conditioner indoor unit and air-conditioning are provided
Device, to solve in the prior art, the non-uniform problem of air conditioning exhausting.
The utility model provides a kind of swing flap structure, and the swing flap structure includes being located on the inside of air conditioner indoor set wind outlet
More than two first swing flap blades, the first swing flap blade is horizontally extending to be arranged, can vertically turn over up and down
Turn, air-flow is vertically carried out vertical swing flap, and in vertical direction between more than two first swing flap blades
Arrangement.
Optionally, in more than two first swing flap blades, along vertical direction from the bottom up, described first sweep
The wind sweeping area of air blade successively increases.
Optionally, the swing flap structure further includes more than two second be located on the outside of the air conditioner indoor set wind outlet
Swing flap blade, the second swing flap blade vertically be extended, can in the horizontal direction left-right rotation, with by air-flow along water
Square to carrying out left and right swing flap, and arrange in the horizontal direction between more than two second swing flap blades.
Optionally, in more than two second swing flap blades, along horizontal direction from left to right, described second sweep
The wind sweeping area of air blade is equal.
Optionally, the swing flap structure further includes the first rotation driving portion, and the first rotation driving portion includes the first drive
Dynamic motor, the first wind-guiding connecting rod and the first wind deflector bent axle, first driving motor, the first wind-guiding connecting rod and described the
One wind deflector bent axle is set to the first side of the multiple first swing flap blade extending direction, and first driving motor drives institute
It states the first wind-guiding connecting rod and then the first wind deflector crank rotation, the first wind deflector bent axle is driven to be swept with described first
Air blade connects, to drive the first swing flap blade to spin upside down.
Optionally, the swing flap structure further includes the second rotation driving portion, and the second rotation driving portion includes the second drive
Dynamic motor, the second wind-guiding connecting rod and the second wind deflector bent axle, second driving motor, the second wind-guiding connecting rod and described the
Two wind deflector bent axles are set to the second side of the multiple second swing flap blade extending direction, and second driving motor drives institute
It states the second wind-guiding connecting rod and then the second wind deflector crank rotation, the second wind deflector bent axle is driven to be swept with described second
Air blade connects, to drive the second swing flap blade left-right rotation.
Optionally, the swing flap structure further includes the axle sleeve for damping, and the axle sleeve is set to the first swing flap leaf
The on piece third side opposite with the first side, and/or, the axle sleeve is set to opposite with the second side on the second swing flap blade
4th side.
Matching with above-mentioned swing flap structure, on the other hand the utility model provides a kind of air conditioner indoor unit, including:The above institute
The swing flap structure stated.
Optionally, the air conditioner indoor unit further includes control unit, and the control unit is set to air-conditioning panel body component
Inside, the control unit controls the swing flap structure and carries out up and down or left and right swing flap.
Matching with above-mentioned swing flap structure, the another aspect of the utility model provides a kind of air conditioner, including:It is above-described
Swing flap structure.
The embodiment of the utility model, the swing flap structure include more than two on the inside of air conditioner indoor set wind outlet
First swing flap blade, the first swing flap blade is horizontally extending to be arranged, can vertically spin upside down, with air-flow edge is perpendicular
Histogram is arranged between more than two first swing flap blades in vertical direction to progress vertical swing flap;In this way, relative to existing
The swing flap structure of technology, only in air outlet just outlet air topmost, air output is excessively concentrated, is not disperseed, and the utility model
Swing flap structure is arranged in vertical direction between more than two first swing flap blades so that two of vertical direction arrangement with
On the first swing flap blade can carry out swing flap and outlet air, to relative to only in air outlet, topmost just outlet air shows
There are swing flap structure, the swing flap structure of the utility model that the outlet air of air-conditioning can be made more uniform.
Further, the embodiment of the utility model, in more than two first swing flap blades, along vertical direction from lower past
Upper, the first swing flap blade wind sweeping area successively increases;In this way, along vertical direction from the bottom up, not only ensure that air-conditioning
Outlet air is more uniform, additionally it is possible to so that the outlet air of air-conditioning is more smooth.
Further, the embodiment of the utility model, the swing flap structure further include being located on the outside of air conditioner indoor set wind outlet
More than two second swing flap blades, the second swing flap blade vertically be extended, can in the horizontal direction left-right rotation, with
Air-flow is subjected to left and right swing flap in the horizontal direction, and is arranged in the horizontal direction between more than two second swing flap blades;In this way,
Left and right swing flap compared with the existing technology is limited to outlet air mount structure, and the swing flap structure of the utility model passes through in air conditioner indoor unit
Second swing flap blade is set on the outside of air outlet, is no longer limited by outlet air mount structure, to increase the swing flap model of left and right swing flap
It encloses.
The embodiment of the utility model as a result, the swing flap structure include two be located on the inside of air conditioner indoor set wind outlet
The the first above swing flap blade, the first swing flap blade is horizontally extending to be arranged, can vertically spin upside down, with by gas
Stream vertically carries out vertical swing flap, and arranges in vertical direction between more than two first swing flap blades;In this way, opposite
In the swing flap structure of the prior art, only in air outlet just outlet air topmost, air output is excessively concentrated, is not disperseed, and this practicality
Novel swing flap structure is arranged in vertical direction between more than two first swing flap blades so that in vertical direction arrangement
More than two first swing flap blades can carry out swing flap and outlet air, to relative to only topmost just going out in air outlet
The existing swing flap structure of wind, the swing flap structure of the utility model can make the outlet air of air-conditioning more uniform.
Other features and advantages of the utility model will illustrate in the following description, also, partly from specification
In become apparent, or understood by implementing the utility model.
Below by drawings and examples, the technical solution of the utility model is described in further detail.
Description of the drawings
Fig. 1 is the structural schematic diagram of an embodiment of the swing flap structure of the utility model;
Fig. 2 is that the swing flap structure of the utility model carries out the schematic diagram of vertical swing flap;
Fig. 3 is the structural schematic diagram of another embodiment of the swing flap structure of the utility model;
Fig. 4 is that the swing flap structure of the utility model carries out the schematic diagram of left and right swing flap;
Fig. 5 is the structural schematic diagram of the rotation driving portion of the swing flap structure of the utility model.
In conjunction with attached drawing, reference numeral is as follows in the utility model embodiment:
1, the first swing flap blade;2, the second swing flap blade;3, the first rotation driving portion;31, the first driving motor;32,
One wind-guiding connecting rod;33, the first wind deflector bent axle;4, axle sleeve.
Specific implementation mode
It is specific below in conjunction with the utility model to keep the purpose of this utility model, technical solution and advantage clearer
Technical solutions of the utility model are clearly and completely described in embodiment and corresponding attached drawing.Obviously, described embodiment
Only it is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, this field
The every other embodiment that those of ordinary skill is obtained without making creative work, belongs to the utility model
The range of protection.
Embodiment according to the present utility model provides a kind of swing flap structure, as shown in Figure 1, the swing flap of the utility model
The structural schematic diagram of one embodiment of structure.1 is the first swing flap blade.The swing flap structure includes being located at air conditioner indoor unit outlet air
More than two first swing flap blades 1 of mouthful inside, the horizontally extending setting of the first swing flap blade 1, can be vertically
It spins upside down, air-flow is vertically carried out vertical swing flap, and in vertical side between more than two first swing flap blades 1
To arrangement;In this way, swing flap structure compared with the existing technology, only in air outlet just outlet air topmost, air output is excessively concentrated,
Do not disperse, and the swing flap structure of the utility model, arrange in vertical direction between more than two first swing flap blades 1 so that
Swing flap and outlet air can be carried out in more than two first swing flap blades 1 of vertical direction arrangement, to relative to only existing
Topmost just the existing swing flap structure of outlet air, the swing flap structure of the utility model can make the outlet air of air-conditioning more equal to air outlet
It is even.
As shown in Figure 1, in more than two first swing flap blades 1, along vertical direction from the bottom up, the first swing flap leaf
The wind sweeping area of piece 1 successively increases;In this way, along vertical direction from the bottom up, not only ensure that the outlet air of air-conditioning is more uniform,
Outlet air is blocked between can also avoiding the first swing flap blade 1 so that the outlet air of air-conditioning is more smooth.
It should be noted that traditional swing flap structure is that vertical swing flap is carried out on the outside of outlet frame, and the utility model
Swing flap structure is that vertical swing flap is carried out on the inside of outlet frame, and this swing flap structure can make the air-supply being set in outlet frame fill
Set uniform outlet air;Meanwhile by adjusting the wind sweeping area of swing flap blade from the bottom to top, it can make the mixing blown out from air duct
Wind is more swimmingly sent out.Relative to traditional swing flap structure, the outlet air of the swing flap structure of the utility model is more smooth, together
When, also reduce the noise in the indoor unit course of work.
As shown in Fig. 2, carrying out the schematic diagram of vertical swing flap for the swing flap structure of the utility model;Wherein, B0For this practicality
Novel swing flap structure carries out the starting point of vertical swing flap, from top to bottom, in turn pre-sets the location point there are five angle,
Corresponding location point is followed successively by B1、B2、B3、B4And B5。
It should be noted that button can be used, alternatively, the on or off of remote control control swing flap structure, swing flap structure
It swings only just effective in interior fan operation.
When the swing flap structure of the utility model carries out vertical swing flap, corresponding swing flap blade has 7 kinds of states:1. location point B1
Corresponding angle 1,2. location point B2Corresponding angle 2,3. location point B3Corresponding angle 3,4. location point B4Corresponding angle 4,
5. location point B5Corresponding angle 5,6. swing flap, 7. stops.User can sweep this by the on & off switch on Air-Conditioning Control Panel
The vertical swing flap of wind structure is controlled, alternatively, controlling the vertical swing flap of the swing flap structure by the on & off switch of remote controler.Position
Point B3Corresponding angle 3, the angle are that vertical swing flap is set as the state stopped.When being switched on remote controler, swing flap structure is swept
Wind state is according to the state shown on remote controler, when receiving the opposite swing flap of remote control, for 6. swing flap;When receiving halt instruction,
7. to stop, which is stopped.It should be noted that powering on every time, the first driving motor of vertical swing flap is driven
31 reset.
The swing flap structure of the utility model is controlled other than carrying out vertical swing flap inside outlet frame on the outside of outlet frame
Swing flap increases the angle of left and right swing flap, expands the area of left and right swing flap, improves the air-supply of the swing flap structure or so swing flap
Range.As shown in figure 3, the structural schematic diagram of another embodiment for the swing flap structure of the utility model.2 be the second swing flap leaf
Piece.The swing flap structure further includes the more than two second swing flap blades 2 being located on the outside of air conditioner indoor set wind outlet, and second sweeps
Air blade 2 vertically be extended, can in the horizontal direction left-right rotation, with air-flow is carried out in the horizontal direction left and right sweep
Wind, and arrange in the horizontal direction between more than two second swing flap blades 2;In this way, left and right swing flap compared with the existing technology
It is limited to outlet air mount structure, the swing flap structure of the utility model on the outside of air conditioner indoor set wind outlet by being arranged the second swing flap leaf
Piece 2 is no longer limited by outlet air mount structure, to increase the swing flap range of left and right swing flap.
As shown in figure 3, in more than two second swing flap blades 2, along horizontal direction from left to right, the second swing flap leaf
The wind sweeping area of piece 2 is equal, in this way, relative to existing swing flap structure, not only increases the swing flap range of left and right swing flap, also
It can ensure that the air output for carrying out left and right swing flap is uniform.
As shown in figure 4, carrying out the schematic diagram of left and right swing flap for the swing flap structure of the utility model;Wherein, A0For this practicality
Novel swing flap structure carries out the starting point of left and right swing flap, from top to bottom, in turn pre-sets the location point there are five angle,
Corresponding location point is followed successively by A1、A2、A3、A4And A5.It should be noted that button can be used, alternatively, remote control control swing flap knot
The swing of the on or off of structure, swing flap structure is only just effective in interior fan operation.
When the swing flap structure of the utility model carries out left and right swing flap, corresponding swing flap blade has 7 kinds of states:1. location point A1
Corresponding angle 1,2. location point A2Corresponding angle 2,3. location point A3Corresponding angle 3,4. location point A4Corresponding angle 4,
5. location point A5Corresponding angle 5,6. swing flap, 7. stops.User can sweep this by the on & off switch on Air-Conditioning Control Panel
The left and right swing flap of wind structure is controlled, alternatively, controlling the left and right swing flap of the swing flap structure by the on & off switch of remote controler.Position
Point A3Corresponding angle 3, the angle are that left and right swing flap is set as the state stopped.When being switched on remote controler, swing flap structure is swept
Wind state is according to the state shown on remote controler, when receiving the opposite swing flap of remote control, for 6. swing flap;When receiving halt instruction,
7. to stop, which is stopped.It should be noted that powering on every time, the second driving motor of left and right swing flap is driven
It resets.
As shown in figure 5, the structural schematic diagram of the rotation driving portion for the swing flap structure of the utility model.3 be the first rotation
Driving portion 3,31 is the first driving motor, and 32 be the first wind-guiding connecting rod, and 33 be the first wind deflector bent axle, and 4 be axle sleeve.Such as Fig. 3 institutes
Show, the swing flap structure further includes the first rotation driving portion 3, and the first rotation driving portion 3 is led including the first driving motor 31, first
Wind connecting rod 32 and the first wind deflector bent axle 33, the first driving motor 31, the first wind-guiding connecting rod 32 and the first wind deflector bent axle 33 are set
It is placed in the first side of multiple first swing flap blade, 1 extending directions, the first driving motor 31 drives the first wind-guiding connecting rod 32 and then band
Dynamic first wind deflector bent axle 33 rotation, the first wind deflector bent axle 33 are connect with the first swing flap blade 1, to drive the first swing flap blade
1 spins upside down.
As shown in figure 5, the swing flap structure further includes the axle sleeve 4 for damping, axle sleeve 4 is set to the first swing flap blade 1
The upper third side opposite with the first side.
As shown in Figure 5, the first driving motor 31, the first wind-guiding connecting rod 32 and the first wind deflector bent axle 33 are swept positioned at first
The side of air blade 1, corresponding, axle sleeve 4 is set to the opposite other side of the first swing flap blade 1.
Other than the first rotation driving portion 3 that the first swing flap blade 1 of above-mentioned driving swing flap structure is spun upside down, swing flap
Structure further includes the second rotation driving portion of 2 left-right rotation of the second swing flap blade for driving swing flap structure.The swing flap structure is also
Including the second rotation driving portion, the second rotation driving portion includes that the second driving motor, the second wind-guiding connecting rod and the second wind deflector are bent
Axis, the second driving motor, the second wind-guiding connecting rod and the second wind deflector bent axle are set to multiple second swing flap blade, 2 extending directions
The second side, the second driving motor drive the second wind-guiding connecting rod and then drive the second wind deflector crank rotation, the second wind deflector bent axle
It is connect with the second swing flap blade 2, to drive 2 left-right rotation of the second swing flap blade.The swing flap structure further includes for damping
Axle sleeve 4, axle sleeve 4 are set to the 4th side opposite with the second side on the second swing flap blade 2.It should be noted that driving second is swept
The first rotation that the structure of second rotation driving portion of 2 left-right rotation of air blade is spun upside down with the first swing flap blade 1 of driving is driven
The structure in dynamic portion 3 is similar, and no longer with illustrating, the structure of specific second rotation driving portion please refers to as shown in Figure 5 first turn
The structure of dynamic driving portion 3.
Through a large amount of verification experimental verification, using the technical solution of the utility model, the swing flap structure includes being located at air conditioning chamber
More than two first swing flap blades 1 on the inside of interior machine air outlet, the 1 horizontally extending setting of the first swing flap blade, energy edge
Vertical direction is spun upside down, air-flow is vertically carried out vertical swing flap, and between more than two first swing flap blades 1
It arranges in vertical direction;In this way, swing flap structure compared with the existing technology, only in air outlet just outlet air topmost, air output
It excessively concentrates, does not disperse, and the swing flap structure of the utility model, in vertical direction between more than two first swing flap blades 1
Arrangement so that swing flap and outlet air can be carried out in more than two first swing flap blades 1 of vertical direction arrangement, to phase
For only in air outlet, topmost just the existing swing flap structure of outlet air, the swing flap structure of the utility model can make air-conditioning
Outlet air is more uniform.
Further, the embodiment of the utility model, in more than two first swing flap blades 1, along vertical direction under
Up, the wind sweeping area of the first swing flap blade 1 successively increases;In this way, along vertical direction from the bottom up, not only ensure that air-conditioning
Outlet air it is more uniform, additionally it is possible to so that the outlet air of air-conditioning is more smooth.
Further, the embodiment of the utility model, the swing flap structure further include being located on the outside of air conditioner indoor set wind outlet
More than two second swing flap blades 2, the second swing flap blade 2 vertically be extended, can in the horizontal direction left-right rotation,
Air-flow is carried out left and right swing flap in the horizontal direction, and arrange in the horizontal direction between more than two second swing flap blades 2;This
Sample, left and right swing flap compared with the existing technology are limited to outlet air mount structure, and the swing flap structure of the utility model passes through in air conditioning chamber
Second swing flap blade 2 is set on the outside of interior machine air outlet, is no longer limited by outlet air mount structure, to increase sweeping for left and right swing flap
Demeanour is enclosed.
Embodiment according to the present utility model additionally provides a kind of air conditioner indoor unit corresponding to swing flap structure.The air-conditioning
Indoor unit includes:Above-described swing flap structure.
Vertical swing flap is carried out in order to preferably control the swing flap structure choice, or selection carries out left and right swing flap, air conditioning chamber
Interior machine further includes control unit, and control unit is set to the inside of air-conditioning panel body component, control unit control swing flap structure into
Capable upper and lower or left and right swing flap.
Embodiment according to the present utility model additionally provides a kind of air conditioner corresponding to swing flap structure.The air conditioner packet
It includes:Above-described swing flap structure.
To sum up, it will be readily appreciated by those skilled in the art that under the premise of not conflicting, above-mentioned each advantageous manner can be certainly
It combined, be superimposed by ground.
The above description is only the embodiments of the present invention, is not intended to limit the utility model, for this field
Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model,
Any modification, equivalent replacement, improvement and so on should be included within the right of the utility model.
Claims (10)
1. a kind of swing flap structure, which is characterized in that include more than two first sweeping on the inside of air conditioner indoor set wind outlet
Air blade (1), the first swing flap blade (1) is horizontally extending to be arranged, can vertically spin upside down, with by air-flow
Vertical swing flap is vertically carried out, and is arranged in vertical direction between more than two first swing flap blades (1).
2. swing flap structure as described in claim 1, which is characterized in that in more than two first swing flap blades (1),
Along vertical direction from the bottom up, the wind sweeping area of the first swing flap blade (1) successively increases.
3. swing flap structure as described in claim 1, which is characterized in that the swing flap structure further includes being located in the air conditioning chamber
More than two second swing flap blades (2) on the outside of machine air outlet, the second swing flap blade (2), which vertically extends, to be set
Set, can in the horizontal direction left-right rotation, air-flow is carried out left and right swing flap in the horizontal direction, and more than two described second sweep
Air blade is arranged in the horizontal direction between (2).
4. swing flap structure as claimed in claim 3, which is characterized in that in more than two second swing flap blades (2),
Along horizontal direction from left to right, the wind sweeping area of the second swing flap blade (2) is equal.
5. swing flap structure as described in claim 1, which is characterized in that the swing flap structure further includes the first rotation driving portion
(3), the first rotation driving portion (3) includes that the first driving motor (31), the first wind-guiding connecting rod (32) and the first wind deflector are bent
Axis (33), first driving motor (31), the first wind-guiding connecting rod (32) and the first wind deflector bent axle (33) setting
In the first side of the multiple first swing flap blade (1) extending direction, the first driving motor (31) driving described first is led
Wind connecting rod (32) and then the first wind deflector bent axle (33) rotation is driven, the first wind deflector bent axle (33) and described the
Sweep air blade (1) connection, to drive the first swing flap blade (1) to spin upside down.
6. swing flap structure as claimed in claim 3, which is characterized in that the swing flap structure further includes the second rotation driving portion,
The second rotation driving portion includes the second driving motor, the second wind-guiding connecting rod and the second wind deflector bent axle, second driving
Motor, the second wind-guiding connecting rod and the second wind deflector bent axle are set to the multiple second swing flap blade (2) extension side
To the second side, second driving motor drives the second wind-guiding connecting rod and then the second wind deflector bent axle driven to turn
Dynamic, the second wind deflector bent axle is connect with the second swing flap blade (2), to drive the second swing flap blade (2) left and right
Rotation.
7. swing flap structure as claimed in claim 6, which is characterized in that the swing flap structure further includes the axle sleeve for damping
(4), the axle sleeve (4) is set to third side opposite with the first side on the first swing flap blade (1), and/or, the axle sleeve
(4) it is set to the 4th side opposite with the second side on the second swing flap blade (2).
8. a kind of air conditioner indoor unit, which is characterized in that including the swing flap structure described in any one of claim 1-7.
9. air conditioner indoor unit as claimed in claim 8, which is characterized in that the air conditioner indoor unit further includes control unit, institute
The inside that control unit is set to air-conditioning panel body component is stated, the control unit controls the swing flap structure and carries out up and down, or
Person or so swing flap.
10. a kind of air conditioner, which is characterized in that including the swing flap structure described in any one of claim 1-7.
Priority Applications (1)
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CN201820177172.XU CN207962902U (en) | 2018-02-01 | 2018-02-01 | A kind of swing flap structure, air conditioner indoor unit and air conditioner |
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CN201820177172.XU CN207962902U (en) | 2018-02-01 | 2018-02-01 | A kind of swing flap structure, air conditioner indoor unit and air conditioner |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109916068A (en) * | 2019-01-30 | 2019-06-21 | 植仲培 | A kind of air-conditioning wind direction regulating device |
CN113932436A (en) * | 2021-09-13 | 2022-01-14 | 珠海格力电器股份有限公司 | Air guide mechanism and air conditioner |
-
2018
- 2018-02-01 CN CN201820177172.XU patent/CN207962902U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109916068A (en) * | 2019-01-30 | 2019-06-21 | 植仲培 | A kind of air-conditioning wind direction regulating device |
CN113932436A (en) * | 2021-09-13 | 2022-01-14 | 珠海格力电器股份有限公司 | Air guide mechanism and air conditioner |
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