CN219955483U - Double-air-deflector connecting structure and air conditioner - Google Patents

Double-air-deflector connecting structure and air conditioner Download PDF

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Publication number
CN219955483U
CN219955483U CN202321078358.7U CN202321078358U CN219955483U CN 219955483 U CN219955483 U CN 219955483U CN 202321078358 U CN202321078358 U CN 202321078358U CN 219955483 U CN219955483 U CN 219955483U
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China
Prior art keywords
air deflector
connection
air
deflector
assembly
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Active
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CN202321078358.7U
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Chinese (zh)
Inventor
陈小平
吴雪良
唐清生
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Foshan Viomi Electrical Technology Co Ltd
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Foshan Viomi Electrical Technology Co Ltd
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Priority to CN202321078358.7U priority Critical patent/CN219955483U/en
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Abstract

The utility model discloses a double-air-guide-plate connecting structure, which comprises a first air guide plate, a second air guide plate and a plurality of connecting assemblies, wherein two ends of the first air guide plate extend along a first direction, two ends of the second air guide plate extend along the first direction, and the second air guide plate can rotate relative to the first air guide plate; one end of the connecting component is connected with the first air deflector, the other end of the connecting component is connected with the second air deflector, the connecting component is rotatably connected with the first air deflector and/or the second air deflector, and at least one connecting component is arranged between two end parts of the first air deflector and/or the second air deflector. The utility model also discloses an air conditioner which comprises an air conditioner indoor unit, wherein the air conditioner indoor unit is provided with the double air deflector connecting structure. The double-air-deflector connecting structure can provide a supporting function for the middle parts of the first air deflector and the second air deflector, improve the connecting strength between the first air deflector and the second air deflector and prevent the first air deflector and the second air deflector from bending deformation.

Description

Double-air-deflector connecting structure and air conditioner
Technical Field
The utility model relates to the technical field of household appliances, in particular to a double-air-deflector connecting structure and an air conditioner.
Background
The air conditioner indoor unit is characterized in that the air conditioner indoor unit is provided with only one air outlet, the air outlet is provided with only one air deflector, the structure of the air deflector is fixed and cannot be changed, when the air conditioner indoor unit rotates, the air outlet can be adjusted only through up-and-down rotation or left-and-right rotation of the air deflector, the air outlet can be guided out in the horizontal direction or in the vertical direction generally, even if the air deflector can swing up-and-down or left-and-right, the air supply direction can be adjusted, and the air outlet angle during refrigeration and heating is difficult to meet corresponding requirements.
In order to solve the problem of poor adjustability of the air outlet angle of the air outlet of the indoor unit of the common air conditioner, some air conditioners with double air deflectors are generated, the double air deflectors are rotationally connected to the air outlet to guide air, and compared with the original single air deflector, the width of each air deflector in the double air deflectors is smaller, but the length is the same, so that the air deflectors are easier to bend and deform in the actual use process.
Disclosure of Invention
In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide a double-air-guide-plate connecting structure, wherein a connecting assembly is arranged between two end parts of a first air guide plate and a second air guide plate, can provide a supporting effect for the middle parts of the first air guide plate and the second air guide plate, improves the connecting strength between the first air guide plate and the second air guide plate, and prevents the bending deformation of the first air guide plate and the second air guide plate.
The second object of the present utility model is to provide an air conditioner, which adopts the above-mentioned double air deflector connection structure, and can improve the connection strength between the first air deflector and the second air deflector, prevent the first air deflector and the second air deflector from bending and deforming, and improve the service lives of the first air deflector and the second air deflector.
One of the purposes of the utility model is realized by adopting the following technical scheme:
provided is a double air deflector connection structure, comprising:
the first air deflector extends along a first direction;
the second air deflector extends along the first direction and can rotate relative to the first air deflector;
the air conditioner comprises a plurality of connecting assemblies, wherein one end of each connecting assembly is connected with the first air deflector, the other end of each connecting assembly is connected with the second air deflector, the connecting assemblies are rotatably connected with the first air deflector and/or the second air deflector, and at least one connecting assembly is arranged between two end parts of the first air deflector and/or the second air deflector.
Optionally, one end of the connecting component is rotatably connected to the first air deflector, and the other end of the connecting component is connected to the second air deflector and does not rotate relative to the second air deflector.
Optionally, one end of the connecting component is connected to the middle part of the first air deflector, and the other end of the connecting component is connected to the middle part of the second air deflector.
Optionally, the connecting assembly includes a connecting plate, one end of the connecting plate is rotatably and detachably connected to the first air deflector, and the other end of the connecting plate is detachably connected to the second air deflector and does not rotate relative to the second air deflector.
Optionally, the connecting assembly includes the connecting axle, the both ends of connecting axle are followed the first direction extends, the one end of connecting axle connect in the connecting plate and with the connecting plate relative rotation, the other end of connecting axle connect in first aviation baffle and can rotate for first aviation baffle.
Optionally, the connecting plate is provided with a limiting hole, the limiting hole penetrates through the connecting plate along the first direction, the connecting shaft penetrates through the limiting hole along the first direction and then is connected with the first air deflector, and the limiting hole is used for limiting the relative movement of the connecting shaft and the connecting plate.
Optionally, the cross section of the limiting hole is polygonal, and one end, connected with the first air deflector, of the connecting shaft is of a prismatic structure matched with the limiting hole.
Optionally, the first air deflector is provided with a connecting groove, the connecting groove is opened towards the connecting shaft along the first direction, the connecting shaft is provided with a first end, the first end is connected with the first air deflector, the inner diameter of the connecting groove is larger than the outer diameter of the first end, and the first end is inserted into the connecting groove and can rotate relative to the connecting groove.
Optionally, the connecting assembly further comprises a mounting cover detachably connected to the connecting plate, and the mounting cover is located above the connecting plate.
The second purpose of the utility model is realized by adopting the following technical scheme:
the air conditioner comprises an air conditioner indoor unit, wherein the air conditioner indoor unit is provided with the double air deflector connecting structure.
Compared with the prior art, the utility model has the beneficial effects that:
1. according to the double-air-guide-plate connecting structure, the connecting assembly is arranged between the two end parts of the first air guide plate and the second air guide plate, so that a supporting effect can be provided for the middle parts of the first air guide plate and the second air guide plate, the connecting strength between the first air guide plate and the second air guide plate is improved, and the bending deformation of the first air guide plate and the second air guide plate is prevented.
2. The air conditioner provided by the utility model adopts the double-air-deflector connecting structure, so that the connecting strength between the first air deflector and the second air deflector can be improved, the bending deformation of the first air deflector and the second air deflector is prevented, the service lives of the first air deflector and the second air deflector are prolonged, the service life of the air conditioner is prolonged, and the maintenance frequency of the air conditioner is reduced.
Drawings
FIG. 1 is a schematic diagram of a connection structure between an indoor unit and a double air deflector of an air conditioner according to the present utility model;
FIG. 2 is a schematic structural view of a dual air deflector connection structure of the present utility model;
FIG. 3 is a schematic view of a connection assembly and a first air deflector according to the present utility model;
FIG. 4 is an exploded view of the connection assembly of the present utility model with a first air deflection plate; .
In the figure: 10. a first air deflector; 11. a connecting groove; 20. a second air deflector; 30. a connection assembly; 31. a connecting plate; 32. a connecting shaft; 33. a limiting hole; 34. a mounting hole; 35. and (5) installing a cover.
Detailed Description
The utility model will be further described with reference to the accompanying drawings and detailed description below:
in the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.
As shown in fig. 1 and 2, the present embodiment provides a dual air guide plate connection structure, which includes a first air guide plate 10, a second air guide plate 20 and a plurality of connection assemblies 30, wherein the first air guide plate 10 extends along a first direction, the second air guide plate 20 extends along the first direction, the second air guide plate 20 can rotate relative to the first air guide plate 10, and the first air guide plate 10 and the second air guide plate 20 are arranged side by side along a second direction.
For convenience of description and simplification of description, in the present embodiment, the left-right direction is a first direction, and the front-rear direction is a second direction, it is understood that both ends of the first air deflector 10 extend in the left-right direction, both ends of the second air deflector 20 extend in the left-right direction, and the first air deflector 10 is located at the front side of the second air deflector 20.
More specifically, the conventional air deflectors are mostly elongated, and therefore, in this embodiment, the first air deflector 10 and the second air deflector 20 which are both rectangular structures are mainly described as examples, it will be understood that in some other embodiments, the first air deflector 10 and the second air deflector 20 may also be square, and the first air deflector 10 and the second air deflector 20 may also be elongated structures with cambered surfaces, which are relatively common in the prior art.
The embodiment also provides an air conditioner, which comprises an air conditioner indoor unit, an air conditioner outdoor unit and a connecting pipeline, wherein one end of the connecting pipeline is connected with the air conditioner outdoor unit, the other end of the connecting pipeline is connected with the air conditioner indoor unit, and the air conditioner indoor unit is provided with the double air deflector connecting structure.
More specifically, the indoor unit of the air conditioner includes a body and a housing, the body is installed inside the housing, and the first air guide plate 10 and the second air guide plate 20 are both installed on the housing.
In this embodiment, similar to the common indoor unit of the air conditioner, the indoor unit of the air conditioner of this embodiment is also provided with a driving mechanism, and the output end of the driving mechanism can be connected with the first air deflector 10 and the second air deflector 20 respectively, so as to drive the first air deflector 10 and the second air deflector 20 to rotate simultaneously and relatively.
In this embodiment, one end of the connection assembly 30 is connected to the first air deflector 10, the other end of the connection assembly 30 is connected to the second air deflector 20, the connection assembly 30 is rotatably connected to the first air deflector 10 and/or the second air deflector 20, and at least one connection assembly 30 is disposed between two ends of the first air deflector 10 and/or the second air deflector 20.
More specifically, in this embodiment, the number of the connection assemblies 30 is three, where one connection assembly 30 is located between two ends of the first air deflector 10, may be a left-leaning point on the first air deflector 10, may be a right-leaning point on the first air deflector 10, may also be a middle part of the first air deflector 10, and similarly, the connection assembly 30 is located between two ends of the second air deflector 20, may be a left-leaning point on the second air deflector 20, may also be a right-leaning point on the second air deflector 20, may also be a middle part of the second air deflector 20, and the connection assembly 30 is disposed between two ends of the first air deflector 10 and the second air deflector 20, so as to provide a supporting effect for the main body parts of the first air deflector 10 and the second air deflector 20, improve the connection strength between the first air deflector 10 and the second air deflector 20, and prevent the first air deflector 10 and the second air deflector 20 from bending deformation.
Further, the other two connecting assemblies 30 are respectively located at the left and right ends of the first air deflector 10 and the left and right ends of the second air deflector 20, so as to provide supporting effect for the two ends of the first air deflector 10 and the second air deflector 20, improve the connection strength of the two ends of the first air deflector 10 and the second air deflector 20, and prevent the two ends of the first air deflector 10 and the second air deflector 20 from bending and deforming.
In some other embodiments, there may be only one connecting assembly 30, where the connecting assembly 30 is located between two ends of the first air deflector 10, may be located on the left of the first air deflector 10, may be located on the right of the first air deflector 10, may be located on the middle of the first air deflector 10, and similarly, the connecting assembly 30 may be located between two ends of the second air deflector 20, may be located on the left of the second air deflector 20, may be located on the right of the second air deflector 20, may be located on the middle of the second air deflector 20, may also provide a supporting effect for the main body portions of the first air deflector 10 and the second air deflector 20, and may improve the connection strength between the first air deflector 10 and the second air deflector 20, and prevent the first air deflector 10 and the second air deflector 20 from bending deformation.
Further, the end parts of the first air deflector 10 and the second air deflector 20 are connected with a driving mechanism, the driving mechanism provides supporting function for the two ends of the first air deflector 10 and the second air deflector 20, the connection strength of the end parts of the first air deflector 10 and the second air deflector 20 is improved, and the end parts of the first air deflector 10 and the second air deflector 20 can be prevented from bending deformation.
In this embodiment, one end of the connection assembly 30 is rotatably connected to the first air deflector 10, the other end of the connection assembly 30 is connected to the second air deflector 20 and does not rotate relative to the second air deflector 20, it is understood that the connection assembly 30 is movably connected to the first air deflector 10, the connection assembly 30 is fixed to the second air deflector 20, so that the relative rotation between the first air deflector 10 and the second air deflector 20 can be achieved, the connection assembly 30 is fixed to the second air deflector 20, and the connection structure between the connection assembly 30 and the second air deflector 20 is more stable, that is, the stability of the connection structure between the first air deflector 10, the connection assembly 30 and the second air deflector 20 is improved while the relative rotation between the first air deflector 10 and the second air deflector 20 is ensured, and the bending deformation of the first air deflector 10 and the second air deflector 20 can be prevented better.
In some other embodiments, one end of the connection assembly 30 is rotatably connected to the second air deflector 20, and the other end of the connection assembly 30 is connected to the first air deflector 10 and does not rotate relative to the first air deflector 10, and it is understood that the connection assembly 30 is movably connected to the second air deflector 20, and the connection assembly 30 is fixed to the first air deflector 10, so that the relative rotation between the first air deflector 10 and the second air deflector 20 can be achieved, and the connection assembly 30 is fixed to the first air deflector 10, so that the connection structure between the connection assembly 30 and the first air deflector 10 is more stable, that is, the stability of the connection structure between the first air deflector 10, the connection assembly 30 and the second air deflector 20 can be improved while the relative rotation between the first air deflector 10 and the second air deflector 20 is achieved, and the bending deformation of the second air deflector 20 can be prevented.
In some other embodiments, one end of the connection assembly 30 is rotatably connected to the first air deflector 10, and the other end of the connection assembly 30 is rotatably connected to the second air deflector 20, and it is understood that the connection assembly 30 is movably connected to the first air deflector 10, and the connection assembly 30 is movably connected to the second air deflector 20, so that the relative rotation between the first air deflector 10 and the second air deflector 20 can be achieved, the stability of the connection structure between the first air deflector 10 and the second air deflector 20 can be improved through the connection assembly 30, and the bending deformation of the first air deflector 10 and the second air deflector 20 can be prevented.
In this embodiment, one end of the connection assembly 30 is connected to the middle part of the first air deflector 10, the other end of the connection assembly 30 is connected to the middle part of the second air deflector 20, and for the first air deflector 10 and the second air deflector 20 with cuboid structures, the middle part is the part that is most likely to be bent and deformed, so that the connection assembly 30 is arranged in the middle part of the first air deflector 10 and the second air deflector 20, thereby improving the structural strength of the middle parts of the first air deflector 10 and the second air deflector 20 and preventing the first air deflector 10 and the second air deflector 20 from being bent and deformed.
In some other embodiments, one end of the connection assembly 30 may be connected to a portion of the first air guiding plate 10 near the left side, that is, the distance between the connection assembly 30 and the left end of the first air guiding plate 10 is smaller than the distance between the connection assembly 30 and the right end of the first air guiding plate 10, and similarly, the other end of the connection assembly 30 is connected to a portion of the second air guiding plate 20 near the left side, that is, the distance between the connection assembly 30 and the left end of the second air guiding plate 20 is smaller than the distance between the connection assembly 30 and the right end of the second air guiding plate 20, which can also improve the stability of the connection structure between the first air guiding plate 10 and the second air guiding plate 20, and can also prevent the first air guiding plate 10 and the second air guiding plate 20 from bending deformation.
It will be appreciated that, in some other embodiments, one end of the connection assembly 30 may be connected to a portion of the first air deflector 10 near the right side, that is, the distance between the connection assembly 30 and the right end of the first air deflector 10 is smaller than the distance between the connection assembly 30 and the left end of the first air deflector 10, and similarly, the other end of the connection assembly 30 is connected to a portion of the second air deflector 20 near the right side, that is, the distance between the connection assembly 30 and the right end of the second air deflector 20 is smaller than the distance between the connection assembly 30 and the left end of the second air deflector 20, which can also improve the stability of the connection structure between the first air deflector 10 and the second air deflector 20, and can also prevent the first air deflector 10 and the second air deflector 20 from bending deformation.
Further, similar to the common indoor unit of the air conditioner, the indoor unit of the air conditioner of this embodiment is also provided with a driving mechanism, where the output end of the driving mechanism can be connected with the first air deflector 10 and the second air deflector 20 respectively, so as to drive the first air deflector 10 and the second air deflector 20 to rotate simultaneously and relatively, and the driving mechanism not only plays a role of providing power, but also provides a supporting function for two ends of the first air deflector 10 and the second air deflector 20.
More specifically, the driving mechanism of the present embodiment is located on the right side of the first air deflector 10 and the second air deflector 20, and the driving mechanism is connected with the right end portions of the first air deflector 10 and the second air deflector 20 to drive the first air deflector 10 and the second air deflector 20 to rotate, in this case, the right end portions of the first air deflector 10 and the second air deflector 20 are connected with the driving mechanism, so that the bending deformation resistance is stronger, and therefore, one of the connection assemblies 30 can be arranged on the portions, close to the left side, of the first air deflector 10 and the second air deflector 20, so that the connection strength of the first air deflector 10 and the second air deflector 20 can be adaptively improved, and the bending deformation of the end portions of the first air deflector 10 and the second air deflector 20 can be prevented.
In this embodiment, as shown in fig. 3 and 4, the connection assembly 30 includes a connection plate 31, one end of the connection plate 31 is rotatably and detachably connected to the first air deflector 10, and the other end of the connection plate 31 is detachably connected to the second air deflector 20 and does not rotate relative to the second air deflector 20. More specifically, the connecting plate 31 can be mounted on the second air deflector 20 through screws, so that the stability of the connecting structure of the connecting plate 31 and the second air deflector 20 can be ensured, and corresponding parts can be conveniently detached and replaced.
In some other embodiments, the connection plate 31 may be fastened to the second air deflector 20 by a buckle, so that the connection structure stability of the connection plate 31 and the second air deflector 20 can be ensured, and the corresponding parts can be conveniently detached and replaced.
In the present embodiment, as shown in fig. 3 and 4, the connection assembly 30 includes a connection shaft 32, two ends of the connection shaft 32 extend along a first direction, one end of the connection shaft 32 is connected to the connection plate 31 and does not rotate relative to the connection plate 31, and the other end of the connection shaft 32 is connected to the first air deflector 10 and can rotate relative to the first air deflector 10. More specifically, the two ends of the connecting shaft 32 extend in the left-right direction, the connecting shaft 32 can penetrate through the connecting plate 31 and then is connected with the first air deflector 10, but the connecting shaft 32 can not drive the first air deflector 10 to rotate when rotating, so that the first air deflector 10 and the second air deflector 20 can be ensured to rotate relatively, the connecting shaft 32 can strengthen the structural strength of the connecting structure between the first air deflector 10 and the second air deflector 20, the stability is improved, and the bending deformation of the first air deflector 10 and the second air deflector 20 is better prevented.
Further, in this embodiment, as shown in fig. 4, the first air guiding plate 10 is provided with a connecting slot 11, the connecting slot 11 is opened towards the connecting shaft 32 along the first direction, the connecting shaft 32 has a first end, the first end is connected with the first air guiding plate 10, the inner diameter of the connecting slot 11 is larger than the outer diameter of the first end, and the first end is inserted into the connecting slot 11 and can rotate relative to the connecting slot 11.
More specifically, taking the connection assembly 30 located at the left end of the first air deflector 10 as an example, the connection plate 31 extends in the front-rear direction, the connection shaft 32 extends in the left-right direction, the right end of the connection shaft 32 is the first end, the connection shaft 32 can be inserted into the connection groove 11 from left to right after passing through the connection plate 31, after the connection shaft 32 is inserted into the connection groove 11, the connection shaft 32 can relatively rotate with the connection groove 11, that is, the connection shaft 32 can relatively rotate with the first air deflector 10, the inner diameter of the connection groove 11 is slightly larger than the outer diameter of the right end of the connection shaft 32, the connection groove 11 can support the connection shaft 32 while ensuring that the connection shaft 32 can relatively rotate with the first air deflector 10, and the connection shaft 32 can be ensured to have stronger structural strength and better stability.
In this embodiment, as shown in fig. 4, a limiting hole 33 is formed on the connecting plate 31, the limiting hole 33 penetrates through the connecting plate 31 along the first direction, the connecting shaft 32 penetrates through the limiting hole 33 along the first direction and then is connected with the first air deflector 10, and the limiting hole 33 is used for limiting the relative movement between the connecting shaft 32 and the connecting plate 31, so that the relative rotation between the connecting shaft 32 and the second air deflector 20 is ensured not to occur, and the relative rotation between the second air deflector 20 and the first air deflector 10 is realized.
In some embodiments, the spacing hole 33 is in interference fit with the connecting shaft 32, and after the connecting shaft 32 is inserted into the spacing hole 33, the connecting shaft 32 cannot easily slide out from the spacing hole 33, and can be better installed in the spacing hole 33, so that the connecting structure between the connecting shaft 32 and the connecting plate 31 is more stable, and the stability of the connecting structure between the first air deflector 10, the connecting assembly 30 and the second air deflector 20 is improved, and the first air deflector 10 and the second air deflector 20 are better prevented from bending deformation.
In this embodiment, the cross section of the limiting hole 33 is polygonal, and one end of the connecting shaft 32 connected to the first air deflector 10 is a prismatic structure adapted to the limiting hole 33.
More specifically, taking the connection assembly 30 located at the left side of the first air deflector 10 as an example, the cross section of the limiting hole 33 is polygonal, the limiting hole 33 is located at the right side of the connection plate 31, the right end of the connection shaft 32 is of a prismatic structure adapted to the limiting hole 33, for example, the cross section of the limiting hole 33 is rectangular, the right end of the connection shaft 32 is of a quadrangular prism adapted to the rectangular structure, after the right end of the connection shaft 32 is inserted into the limiting hole 33, the limiting hole 33 can play a role in limiting, so that the connection shaft 32 is ensured not to rotate relative to the limiting hole 33 when rotating, and the limiting effect is better.
In some other embodiments, the right end portion of the connecting shaft 32 may be provided with a protruding fool-proof block along the radial direction of the connecting shaft 32, a fool-proof slot may extend from a part of the cross section of the limiting hole 33, the right end portion of the connecting shaft 32 may be inserted into the limiting hole 33 more conveniently and rapidly according to a fool-proof design adapted to the limiting hole 33, so that the installation efficiency is higher, the fool-proof design also has a limiting effect, and it is ensured that the connecting shaft 32 will not rotate relative to the limiting hole 33 when rotating, and the connecting shaft 32 can drive the limiting member to rotate together when rotating, thereby driving the second air deflector 20 to rotate together.
In this embodiment, as shown in fig. 4, the connecting plate 31 is provided with a mounting hole 34, the mounting hole 34 penetrates through the connecting plate 31 along the left-right direction, specifically, taking the connecting assembly 30 located at the left side of the first air deflector 10 as an example for illustration, the mounting hole 34 is located at the left side of the connecting plate 31, the limiting hole 33 is located at the right side of the connecting plate 31, and the connecting shaft 32 can be inserted into the connecting slot 11 of the first air deflector 10 after sequentially penetrating through the mounting hole 34 and the limiting hole 33 from left to right, so that the installation is more convenient.
In this embodiment, as shown in fig. 2, the connection assembly 30 further includes a mounting cover 35, the mounting cover 35 is detachably connected to the connection plate 31, and the mounting cover 35 is located above the connection plate 31, for example, by being fastened to the upper side of the connection plate 31 through a buckle, so that the internal structure of the connection assembly 30 can be shielded, and the aesthetic degree of the indoor unit of the air conditioner can be improved.
It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (10)

1. A double air deflector connection structure, comprising:
the first air deflector extends along a first direction;
the second air deflector extends along the first direction and can rotate relative to the first air deflector;
the air conditioner comprises a plurality of connecting assemblies, wherein one end of each connecting assembly is connected with the first air deflector, the other end of each connecting assembly is connected with the second air deflector, the connecting assemblies are rotatably connected with the first air deflector and/or the second air deflector, and at least one connecting assembly is arranged between two end parts of the first air deflector and/or the second air deflector.
2. The dual air deflector connection structure of claim 1, wherein one end of the connection assembly is rotatably connected to the first air deflector and the other end of the connection assembly is connected to the second air deflector without rotating relative to the second air deflector.
3. The double air deflector connection structure of claim 2, wherein one end of the connection assembly is connected to the middle portion of the first air deflector and the other end of the connection assembly is connected to the middle portion of the second air deflector.
4. The dual air deflector connection structure of claim 3, wherein the connection assembly comprises a connection plate having one end rotatably and detachably connected to the first air deflector and the other end detachably connected to the second air deflector and not rotated relative to the second air deflector.
5. The dual air deflector connection structure of claim 4, wherein the connection assembly comprises a connection shaft, both ends of the connection shaft extend in the first direction, one end of the connection shaft is connected to the connection plate and does not rotate relative to the connection plate, and the other end of the connection shaft is connected to the first air deflector and can rotate relative to the first air deflector.
6. The dual air deflector connection structure of claim 5, wherein the connection plate is provided with a limiting hole, the limiting hole penetrates through the connection plate along the first direction, the connection shaft penetrates through the limiting hole along the first direction and then is connected with the first air deflector, and the limiting hole is used for limiting the relative movement of the connection shaft and the connection plate.
7. The dual air deflector connection structure of claim 6, wherein the cross section of the limiting aperture is polygonal, and the end of the connection shaft connected with the first air deflector is a prismatic structure adapted to the limiting aperture.
8. The dual air deflector connection structure of claim 5, wherein the first air deflector is provided with a connection slot, the connection slot is opened toward the connection shaft along the first direction, the connection shaft has a first end, the first end is connected with the first air deflector, the inner diameter of the connection slot is larger than the outer diameter of the first end, and the first end is inserted into the connection slot and can rotate relative to the connection slot.
9. The double air deflector connection structure of any of claims 4 to 8, wherein the connection assembly further comprises a mounting cap removably attached to the connection plate, the mounting cap being located above the connection plate.
10. An air conditioner characterized by comprising an air conditioner indoor unit provided with the double air deflector connection structure according to any one of claims 1 to 9.
CN202321078358.7U 2023-05-06 2023-05-06 Double-air-deflector connecting structure and air conditioner Active CN219955483U (en)

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Application Number Priority Date Filing Date Title
CN202321078358.7U CN219955483U (en) 2023-05-06 2023-05-06 Double-air-deflector connecting structure and air conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321078358.7U CN219955483U (en) 2023-05-06 2023-05-06 Double-air-deflector connecting structure and air conditioner

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CN219955483U true CN219955483U (en) 2023-11-03

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