CN215909371U - Sweep wind mechanism, air-out part and machine in air conditioning - Google Patents

Abstract

The utility model provides a wind sweeping mechanism, a wind outlet component and an indoor unit of an air conditioner, wherein the wind sweeping mechanism comprises: the first air guide plate assembly comprises a plurality of first air guide plates which are arranged at intervals along a first preset direction, and the plurality of first air guide plates are rotatably arranged at the air outlet; the second air guide plate assembly comprises a plurality of second air guide plates which are arranged at intervals along a second preset direction, the second preset direction and the first preset direction are arranged at a preset angle, and the plurality of second air guide plates are all rotatably arranged at the air outlet; the driving structure, first air deflector subassembly and second air deflector subassembly all are connected with the driving structure to drive first air deflector subassembly and second air deflector subassembly synchronous motion through the driving structure. Through the technical scheme provided by the utility model, the technical problem that the wind sweeping effect of the wind sweeping mechanism in the prior art is poor can be solved.

Description

Sweep wind mechanism, air-out part and machine in air conditioning

Technical Field

The utility model relates to the technical field of indoor units of air conditioners, in particular to a wind sweeping mechanism, a wind outlet component and an indoor unit of an air conditioner.

Background

At present, an air guide plate structure is generally arranged at an air outlet of an air conditioner indoor unit in the prior art, and air at the air outlet is guided to different positions through the air guide structure, so that the indoor comfort is improved, and the air sweeping and refrigerating effects are achieved.

However, the air deflector in the prior art can only keep the air sweeping in the same fixed dimension direction, and lacks the air sweeping in other dimension directions, so that the refrigeration effect is not good, and the phenomenon of condensed water can also occur due to uneven and incomplete air sweeping.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a wind sweeping mechanism, a wind outlet component and an air conditioner indoor unit, and aims to solve the technical problem that the wind sweeping effect of the wind sweeping mechanism in the prior art is poor.

In order to achieve the above object, according to one aspect of the present invention, there is provided a wind sweeping mechanism including: the first air guide plate assembly comprises a plurality of first air guide plates which are arranged at intervals along a first preset direction, and the plurality of first air guide plates are rotatably arranged at the air outlet; the second air guide plate assembly comprises a plurality of second air guide plates which are arranged at intervals along a second preset direction, the second preset direction and the first preset direction are arranged at a preset angle, and the plurality of second air guide plates are all rotatably arranged at the air outlet; the driving structure, first air deflector subassembly and second air deflector subassembly all are connected with the driving structure to drive first air deflector subassembly and second air deflector subassembly synchronous motion through the driving structure.

Further, the driving structure includes: the driving part is in transmission connection with the transmission assembly, the transmission assembly is provided with a first transmission end and a second transmission end, the first transmission end is connected with the first air guide plate assembly, and the second transmission end is connected with the second air guide plate assembly so as to drive the first air guide plate assembly to move through the first transmission end and drive the second air guide plate assembly to move through the second transmission end.

Further, the transmission assembly includes: one end of the worm is connected with the driving piece, the other end of the worm is connected with the first air guide plate assembly, so that the driving piece drives the first air guide plate assembly to rotate through the worm, and the worm is provided with a first transmission end; the worm wheel is matched with the worm, the worm wheel is connected with the second air deflector assembly, so that the worm wheel drives the second air deflector assembly to rotate, and the worm wheel is provided with a second transmission end.

Further, the transmission assembly further comprises: the installation casing, the installation casing have first intercommunication mouth, second intercommunication mouth and with the installation cavity of first intercommunication mouth and the equal intercommunication of second intercommunication mouth, worm and worm wheel are all installed in the installation cavity, first intercommunication mouth sets up with first transmission end relatively, second intercommunication mouth sets up with second transmission end relatively.

Furthermore, the first air guide plate assembly further comprises a first air guide connecting rod, the plurality of first air guide plates are all connected with the first air guide connecting rod, and the first air guide connecting rod is connected with the driving structure, so that the driving structure drives the plurality of first air guide plates to rotate through the first air guide connecting rod; and/or the second air guide plate assembly further comprises a second air guide connecting rod, the second air guide plates are all connected with the second air guide connecting rod, and the second air guide connecting rod is connected with the driving structure, so that the driving structure drives the second air guide plates to rotate through the second air guide connecting rod.

When the first air guide plate assembly is in the first air guide state, the plurality of first air guide plates are rotatably arranged at the air outlet to guide air; when the first air guide plate assembly is in a first closed state, the plurality of first air guide plates cover the air outlet; and/or the second air guide plate assembly has a second air guide state and a second closed state, and when the second air guide plate assembly is in the second air guide state, the plurality of second air guide plates are rotatably arranged at the air outlet to guide air; when the second air deflector assembly is in a second closed state, the plurality of second air deflectors cover the air outlet.

According to another aspect of the present invention, there is provided a wind discharging part comprising: the air outlet frame is provided with an air outlet; the air sweeping mechanism is provided, and a first air guide component of the air sweeping mechanism and a second air guide component of the air sweeping mechanism are arranged at the air outlet.

Furthermore, the air outlet is arranged at the top of the air outlet frame, and at least part of the driving assembly of the air sweeping mechanism is arranged on the side wall of the air outlet frame.

Furthermore, the wind sweeping mechanism is the wind sweeping mechanism provided above, a first wind guide connecting rod of the wind sweeping mechanism is installed on the outer side wall of the wind outlet frame, and connecting shafts of a plurality of first wind deflectors of the wind sweeping mechanism penetrate through the wind outlet frame and are connected with the first wind guide connecting rod; and the second air guide connecting rod of the air sweeping mechanism is arranged on the outer side wall of the air outlet frame, and connecting shafts of a plurality of second air deflectors of the air sweeping mechanism penetrate through the air outlet frame and are connected with the second air guide connecting rod.

According to another aspect of the present invention, there is provided an air conditioning indoor unit including: the air outlet component is the air outlet component provided by the above way; the indoor unit casing and the air outlet part are installed on the top of the indoor unit casing.

By applying the technical scheme of the utility model, the plurality of first air deflectors are arranged at intervals along the first preset direction, and the plurality of first air deflectors can rotate along the first preset direction; through setting up a plurality of second aviation baffles that set up along the second direction interval that predetermines, a plurality of second aviation baffles all can be followed the second and predetermine the direction and rotated. Like this, through the motion of a first air guide component of drive structure synchronous drive and second air guide component to realize the wind-guiding of two not equidirectional, thereby improve and sweep wind effect and sweep wind homogeneity, with further improvement refrigeration effect. In addition, the first air guide assembly and the second air guide assembly are driven to move by one driving structure, so that the structure can be simplified, and the production cost is reduced. Therefore, the technical problem that the wind sweeping effect of the wind sweeping mechanism in the prior art is poor can be solved through the wind sweeping mechanism provided by the embodiment.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic view illustrating an installation of a first air deflector at an air outlet of a roof according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a wind sweeping mechanism provided according to an embodiment of the utility model;

FIG. 3 illustrates a schematic structural diagram of a mounting housing provided in accordance with an embodiment of the present invention;

fig. 4 is a schematic structural diagram of the top of the air outlet component according to the embodiment of the present invention (in the figure, arrows located on the top of the air outlet frame indicate the air guiding direction of front and rear air guiding, and arrows located on the air outlet frame indicate the air guiding direction of left and right air guiding).

Wherein the figures include the following reference numerals:

10. a first air deflection assembly; 11. a first air deflector; 12. a first air guide connecting rod; 20. a second air deflection assembly; 21. a second air deflector; 22. a second air guide connecting rod; 30. a drive structure; 31. a worm; 32. a worm gear; 33. installing a shell; 331. a first communication port; 332. a second communication port; 333. mounting a box; 334. installing a cover; 34. a first crankshaft; 35. a second crankshaft; 36. a motor; 40. an air outlet frame; 41. and (7) air outlet.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 to 4, a first embodiment of the present invention provides a wind sweeping mechanism, which includes a first air guiding plate assembly 10, a second air guiding plate assembly 20 and a driving structure 30, wherein the first air guiding plate assembly 10 includes a plurality of first air guiding plates 11 arranged at intervals along a first preset direction, and the plurality of first air guiding plates 11 are all rotatably arranged at an air outlet 41. The second air deflection assembly 20 comprises a plurality of second air deflection plates 21 arranged at intervals along a second preset direction, the second preset direction and the first preset direction are arranged at a preset angle, and the plurality of second air deflection plates 21 are all rotatably arranged at the air outlet 41. The first air deflection assembly 10 and the second air deflection assembly 20 are both connected with the driving structure 30 so as to drive the first air deflection assembly 10 and the second air deflection assembly 20 to move synchronously through the driving structure 30.

By adopting the wind sweeping mechanism provided by the embodiment, the plurality of first air deflectors 11 are arranged at intervals along the first preset direction, and the plurality of first air deflectors 11 can rotate along the first preset direction; through setting up a plurality of second aviation baffles 21 that set up along second preset direction interval, a plurality of second aviation baffles 21 all can be followed the second and preset the direction and rotated. Like this, through the motion of a first air guide component of drive structure 30 synchronous drive and second air guide component to realize the wind-guiding of two different directions, thereby improve and sweep wind effect and sweep wind homogeneity, with further improvement refrigeration effect. In addition, the first air guide assembly and the second air guide assembly are driven to move simultaneously by one driving structure 30, so that the structure can be simplified, and the production cost can be reduced. Therefore, the technical problem that the wind sweeping effect of the wind sweeping mechanism in the prior art is poor can be solved through the wind sweeping mechanism provided by the embodiment.

Specifically, the driving structure 30 in this embodiment includes a driving member and a transmission assembly, the driving member is connected to the transmission assembly in a transmission manner, the transmission assembly has a first transmission end and a second transmission end, the first transmission end is connected to the first air guide plate assembly 10, and the second transmission end is connected to the second air guide plate assembly 20, so as to drive the first air guide plate assembly 10 to move through the first transmission end and drive the second air guide plate assembly 20 to move through the second transmission end. With the adoption of the structure, the first air guide plate assembly 10 and the second air guide plate assembly 20 can be driven synchronously by one driving piece to guide air synchronously, so that the air guide effect is improved better.

In this embodiment, the transmission assembly includes a worm 31 and a worm wheel, one end of the worm 31 is connected to the driving member, and the other end of the worm 31 is connected to the first air deflector assembly 10, so that the driving member drives the first air deflector assembly 10 to rotate through the worm 31, and the worm 31 has a first transmission end. The worm wheel 32 is matched with the worm 31, the worm wheel 32 is connected with the second air deflector assembly 20, so that the worm wheel 32 drives the second air deflector assembly 20 to rotate, and the worm wheel 32 is provided with a second transmission end. By adopting the structure, the structure is simple, the transmission is stable, and the first air guide plate assembly 10 and the second air guide plate assembly 20 are driven to perform air guide movement stably.

Specifically, the transmission assembly in this embodiment further includes an installation housing 33, the installation housing 33 has a first communicating opening 331, a second communicating opening 332, and an installation cavity communicated with both the first communicating opening 331 and the second communicating opening 332, the worm 31 and the worm wheel 32 are both installed in the installation cavity, the first communicating opening 331 is disposed opposite to the first transmission end, and the second communicating opening 332 is disposed opposite to the second transmission end. By adopting the structure, the first transmission end can be conveniently in transmission connection with the first air guide plate assembly 10, and the second transmission end can be conveniently in transmission connection with the second air guide plate assembly 20. Specifically, the transmission assembly in this embodiment further includes a first crankshaft 34 and a second crankshaft 35, the first crankshaft 34 is installed at the first communication port 331, so that the first transmission end drives the first air deflector assembly 10 to move through the first crankshaft 34; the second crankshaft 35 is installed at the second communication port 332, so that the second transmission end drives the second air guiding plate assembly 20 to move through the second crankshaft 35. Specifically, the first communication port 331 and the second communication port 332 are provided at an interval. A motor 36 is also mounted in the mounting cavity, and the motor 36 is connected with the worm 31.

In this embodiment, the first air deflection assembly 10 may further include a first air deflection connecting rod 12, the plurality of first air deflection plates 11 are all connected to the first air deflection connecting rod 12, and the first air deflection connecting rod 12 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of first air deflection plates 11 to rotate through the first air deflection connecting rod 12. Or, the second air guiding plate assembly 20 may further include a second air guiding connecting rod 22, the plurality of second air guiding plates 21 are all connected to the second air guiding connecting rod 22, and the second air guiding connecting rod 22 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of second air guiding plates 21 to rotate through the second air guiding connecting rod 22. Or, the first air deflection assembly 10 may further include a first air deflection connecting rod 12, the plurality of first air deflection plates 11 are all connected to the first air deflection connecting rod 12, and the first air deflection connecting rod 12 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of first air deflection plates 11 to rotate through the first air deflection connecting rod 12; the second air deflection assembly 20 may further include a second air deflection connecting rod 22, the plurality of second air deflection plates 21 are all connected to the second air deflection connecting rod 22, and the second air deflection connecting rod 22 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of second air deflection plates 21 to rotate through the second air deflection connecting rod 22.

Preferably, the first air deflection assembly 10 in this embodiment may further include a first air deflection connecting rod 12, the plurality of first air deflection plates 11 are all connected to the first air deflection connecting rod 12, and the first air deflection connecting rod 12 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of first air deflection plates 11 to rotate through the first air deflection connecting rod 12; the second air deflection assembly 20 may further include a second air deflection connecting rod 22, the plurality of second air deflection plates 21 are all connected to the second air deflection connecting rod 22, and the second air deflection connecting rod 22 is connected to the driving structure 30, so that the driving structure 30 drives the plurality of second air deflection plates 21 to rotate through the second air deflection connecting rod 22. By adopting the structure, the plurality of first air deflectors 11 or second air deflectors 21 can be driven to rotate by driving the first air guide connecting rod 12 or the second air guide connecting rod 22, and the structure is simple, the transmission is stable, and the assembly is convenient.

Specifically, the first air deflection assembly 10 has a first air deflection state and a first closed state, and when the first air deflection assembly 10 is in the first air deflection state, the plurality of first air deflection plates 11 are all rotatably arranged at the air outlet 41 for deflecting air; when the first air deflection assembly 10 is in the first closed state, the plurality of first air deflection plates 11 are disposed to cover the air outlet 41. Or, the second air deflection assembly 20 has a second air deflection state and a second closed state, and when the second air deflection assembly 20 is in the second air deflection state, the plurality of second air deflection plates 21 are all rotatably arranged at the air outlet 41 for air deflection; when the second air deflection assembly 20 is in the second closed state, the plurality of second air deflection plates 21 are disposed to cover the air outlet 41. Or, the first air deflection assembly 10 has a first air deflection state and a first closed state, and when the first air deflection assembly 10 is in the first air deflection state, the plurality of first air deflection plates 11 are all rotatably arranged at the air outlet 41 for deflecting air; when the first air deflection assembly 10 is in the first closed state, the plurality of first air deflection plates 11 cover the air outlet 41; the second air deflection assembly 20 has a second air deflection state and a second closed state, and when the second air deflection assembly 20 is in the second air deflection state, the plurality of second air deflection plates 21 are all rotatably arranged at the air outlet 41 for air deflection; when the second air deflection assembly 20 is in the second closed state, the plurality of second air deflection plates 21 are disposed to cover the air outlet 41.

Preferably, the first air deflection assembly 10 in this embodiment has a first air deflection state and a first closed state, and when the first air deflection assembly 10 is in the first air deflection state, the plurality of first air deflection plates 11 are all rotatably disposed at the air outlet 41 for guiding air; when the first air deflection assembly 10 is in the first closed state, the plurality of first air deflection plates 11 cover the air outlet 41; the second air deflection assembly 20 has a second air deflection state and a second closed state, and when the second air deflection assembly 20 is in the second air deflection state, the plurality of second air deflection plates 21 are all rotatably arranged at the air outlet 41 for air deflection; when the second air deflection assembly 20 is in the second closed state, the plurality of second air deflection plates 21 are disposed to cover the air outlet 41. By adopting the structure, the wind guide in different directions can be conveniently realized, the wind sweeping effect is improved, and the air outlet 41 can be effectively closed, so that external dust or impurities are prevented from entering the air outlet 41 in a non-working state.

The utility model solves the following technical problems: the transmission component drives the first air deflector 11 and the second air deflector 21 to sweep air in front, back, left and right directions through the motor 36, so that the generation of condensed water can be limited while a better refrigeration effect is achieved; when the air conditioner stops working, the first air deflector 11 and the second air deflector 21 rotate to a horizontal closed sealing state at the same time, and the protection of the air outlet 41 at the upper part is enhanced, so that dust, foreign matters and the like are not easy to enter the air channel. The driving structure 30 can realize multidirectional air sweeping through one motor 36, has a simple structure, saves resources and can be popularized and used. The air deflector can sweep air in left, right, front and back directions only through the motor 36, the generation of condensed water can be limited while a better refrigerating effect is achieved, a certain protection effect is achieved, and foreign matters are not easy to enter an air channel.

The position of the air outlet 41 at the upper part of the head moving part is shown in fig. 1, the first air deflector 11 and the second air deflector 21 are positioned at the top of the air outlet 41, and cold (hot) air from the air duct passes through the air sweeping of the first air deflector 11 and the second air deflector 21, so that a good cooling (heating) effect is achieved. The main components for controlling the front-back and left-right movement of the first air deflector 11 and the second air deflector 21 include a first air guiding connecting rod 12, a second air guiding connecting rod 22, a first crankshaft 34, a second crankshaft 35, a stepping motor 36, a worm 31, a worm wheel 32, a motor 36, and the like. The motor 36, the worm wheel 32 and the worm 31 in the movement mechanism are fixedly mounted in a fixed mounting box 333 shown in fig. 3 (thereby realizing the meshing transmission of the worm wheel 32 and the worm 31), and then the mounting box 333 is closed with a mounting cover 334 (shown in fig. 3) to perform a certain degree of sealing (preventing condensed water from entering) and then is fixed on the position of the upper air outlet part shown in fig. 2, and the position has a long positioning rib feature, so that the mounting box 333 can be conveniently positioned on the position, and meanwhile, in order to ensure the working stability of the movement mechanism, the mounting box 333 needs to be fastened and screwed on the position. The first crankshaft 34 and the second crankshaft 35 (connected to the worm 31 and the worm wheel 32, respectively) are connected to the first air guide connecting rod 12 and the second air guide connecting rod 22 (shown in fig. 2) on the outside, and the front, rear, left and right first air guide plates 11 and the second air guide plates 21 (shown in fig. 4) are controlled by the first air guide connecting rod 12 and the second air guide connecting rod 22 to swing (shown in fig. 2).

The whole driving structure 30 directly drives the worm 31 to move only through one motor 36, and the worm 31 drives the worm wheel 32 to realize transmission between the staggered shafts. Therefore, when the air conditioner runs, the motor 36 drives the worm wheel 32 and the worm 31 to move, and the front, back, left and right air deflectors rotate and reciprocate through the movement of the worm wheel 32 and the worm 31 in the mounting box 333 and the rotation of the crank connecting rod, so that the front, back, left and right swing is realized, the air is swept uniformly and comprehensively, and the phenomenon of condensed water is not easy to occur; when the air conditioner stops working, the front air deflector and the rear air deflector on the upper portion and the left air deflector and the right air deflector on the lower portion rotate to a horizontal closed sealing state under the driving of the worm wheel 32 and the worm 31, the double-layer closing achieves a better protection effect, and external dust and sundries are prevented from falling into the air duct.

The second embodiment of the utility model provides an air outlet component, which comprises an air outlet frame 40, wherein an air outlet 41 is arranged on the air outlet frame 40; the air sweeping mechanism is the air sweeping mechanism provided in the above embodiments, and the first air guiding assembly of the air sweeping mechanism and the second air guiding assembly of the air sweeping mechanism are installed at the air outlet 41. By adopting the structure, the air outlet uniformity of the air outlet component can be improved conveniently.

In the present embodiment, the air outlet 41 is disposed at the top of the air-out frame 40, and at least part of the driving assembly of the air-sweeping mechanism is mounted on the sidewall of the air-out frame 40. Adopt such structure setting, can be convenient for carry out the top air-out, improve the homogeneity of top air-out. In addition, the structural layout can be optimized through the structural arrangement, and the influence of the driving assembly on the air output of the air outlet 41 is reduced.

Specifically, the wind sweeping mechanism is the wind sweeping mechanism provided above, a first wind guide connecting rod 12 of the wind sweeping mechanism is installed on the outer side wall of the wind outlet frame 40, and connecting shafts of a plurality of first wind guide plates 11 of the wind sweeping mechanism penetrate through the wind outlet frame 40 and are connected with the first wind guide connecting rod 12; the second air guide connecting rod 22 of the air sweeping mechanism is installed on the outer side wall of the air outlet frame 40, and connecting shafts of a plurality of second air guide plates 21 of the air sweeping mechanism penetrate through the air outlet frame 40 and are connected with the second air guide connecting rod 22. By adopting the structure, the installation structure can be optimized conveniently, the spatial layout of the structure can be improved conveniently, and the influence on the air outlet 41 is avoided as much as possible.

The third embodiment of the utility model provides an indoor unit of an air conditioner, which comprises an air outlet component, wherein the air outlet component is an indoor unit shell of the air outlet component, and the air outlet component is arranged at the top of the indoor unit shell. The indoor unit of the air conditioner in the embodiment may be mainly a cabinet air conditioner.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: this drive mechanism drives first aviation baffle, second aviation baffle through a motor and carries out all around diversified sweeping wind, plays better refrigeration effect, restriction condensation water's production, and the foreign matter is more difficult to get into the air outlet at top simultaneously, plays certain guard action.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wind sweeping mechanism, comprising:

the air guide plate comprises a first air guide plate assembly (10), wherein the first air guide plate assembly (10) comprises a plurality of first air guide plates (11) which are arranged at intervals along a first preset direction, and the first air guide plates (11) are all rotatably arranged at an air outlet (41);

the second air guide plate assembly (20), the second air guide plate assembly (20) comprises a plurality of second air guide plates (21) which are arranged at intervals along a second preset direction, the second preset direction and the first preset direction are arranged at a preset angle, and the plurality of second air guide plates (21) are all rotatably arranged at the air outlet (41);

the air guide plate comprises a driving structure (30), wherein the first air guide plate assembly (10) and the second air guide plate assembly (20) are connected with the driving structure (30) so as to drive the first air guide plate assembly (10) and the second air guide plate assembly (20) to move synchronously through the driving structure (30).

2. The aeolian mechanism according to claim 1, characterised in that said driving structure (30) comprises:

driving piece and drive assembly, the driving piece with the drive assembly transmission is connected, drive assembly has first transmission end and second transmission end, first transmission end with first air deflection assembly (10) are connected, the second transmission end with second air deflection assembly (20) are connected, in order to pass through first transmission end drives first air deflection assembly (10) motion, pass through the second transmission end drives second air deflection assembly (20) motion.

3. The sweep mechanism of claim 2, wherein the transmission assembly includes:

one end of the worm (31) is connected with the driving piece, the other end of the worm (31) is connected with the first air deflector assembly (10), so that the driving piece drives the first air deflector assembly (10) to rotate through the worm (31), and the worm (31) is provided with the first transmission end;

worm wheel (32), with worm (31) cooperation, worm wheel (32) with second air deflection subassembly (20) are connected, so that worm wheel (32) drive second air deflection subassembly (20) rotate, worm wheel (32) have the second transmission end.

4. The sweep mechanism of claim 3, wherein the drive assembly further comprises:

an installation shell (33), the installation shell (33) have first intercommunication mouth (331), second intercommunication mouth (332) and with first intercommunication mouth (331) with the installation cavity that second intercommunication mouth (332) all communicate, worm (31) with worm wheel (32) all install in the installation cavity, first intercommunication mouth (331) with first transmission end sets up relatively, second intercommunication mouth (332) with second transmission end sets up relatively.

5. The wind sweeping mechanism of claim 1,

the first air guide plate assembly (10) further comprises a first air guide connecting rod (12), the first air guide plates (11) are all connected with the first air guide connecting rod (12), and the first air guide connecting rod (12) is connected with the driving structure (30) so that the driving structure (30) drives the first air guide plates (11) to rotate through the first air guide connecting rod (12); and/or the presence of a gas in the gas,

the second air guide plate assembly (20) further comprises a second air guide connecting rod (22), the second air guide plates (21) are all connected with the second air guide connecting rod (22), and the second air guide connecting rod (22) is connected with the driving structure (30) so that the driving structure (30) can drive the second air guide plates (21) to rotate through the second air guide connecting rod (22).

6. The wind sweeping mechanism of claim 1,

the first air guide plate assembly (10) has a first air guide state and a first closed state, and when the first air guide plate assembly (10) is in the first air guide state, the plurality of first air guide plates (11) are all rotatably arranged at the air outlet (41) for guiding air; when the first air deflector assembly (10) is in the first closed state, the plurality of first air deflectors (11) cover the air outlet (41); and/or the presence of a gas in the gas,

the second air guide plate assembly (20) has a second air guide state and a second closed state, and when the second air guide plate assembly (20) is in the second air guide state, the plurality of second air guide plates (21) are all rotatably arranged at the air outlet (41) for guiding air; when the second air deflector assembly (20) is in the second closed state, the plurality of second air deflectors (21) cover the air outlet (41).

7. An air outlet component, comprising:

the air outlet frame (40), the air outlet frame (40) is provided with an air outlet (41);

-a wind sweeping mechanism according to any one of claims 1 to 6, wherein the first wind guiding assembly of the wind sweeping mechanism and the second wind guiding assembly of the wind sweeping mechanism are mounted at the wind outlet (41).

8. The air outlet component according to claim 7, wherein the air outlet (41) is disposed at the top of the air outlet frame (40), and at least part of the driving assembly of the air sweeping mechanism is mounted on the side wall of the air outlet frame (40).

9. The air outlet component of claim 7, characterized in that the air sweeping mechanism is the air sweeping mechanism of claim 5, the first air guiding connecting rod (12) of the air sweeping mechanism is mounted on the outer side wall of the air outlet frame (40), and connecting shafts of the first air guiding plates (11) of the air sweeping mechanism are connected with the first air guiding connecting rod (12) through the air outlet frame (40); and a second air guide connecting rod (22) of the air sweeping mechanism is arranged on the outer side wall of the air outlet frame (40), and connecting shafts of a plurality of second air guide plates (21) of the air sweeping mechanism penetrate through the air outlet frame (40) and are connected with the second air guide connecting rod (22).

10. An air conditioning indoor unit, characterized in that, the air conditioning indoor unit includes:

an air outlet component, the air outlet component being the air outlet component of any one of claims 7 to 9;

the indoor unit shell, the air outlet part is installed at the top of the indoor unit shell.

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