CN214536776U - Casing subassembly and air conditioner - Google Patents

Abstract

The utility model provides a casing component and an air conditioner, wherein the casing component comprises a machine body and a first baffle plate, and a first air outlet opening is arranged on the machine body; the first baffle is movably arranged relative to the machine body; the first baffle comprises a first plate body and a second plate body which are connected with each other, a circulation opening is arranged on the second plate body, a guide piece is arranged at the circulation opening, and the guide piece can be rotatably arranged to control the outflow direction of gas flowing out of the circulation opening; when the first baffle moves to the first state, at least part of the first plate body is arranged opposite to the first air outlet opening so as to shield the first air outlet opening; when the first baffle moves to the second state, at least part of the circulation opening is arranged opposite to the first air outlet opening, so that the air flowing out of the first air outlet opening flows out through the circulation opening. The shell assembly is applied to the air conditioner, and the problem that hot air blown out of an upper air outlet of the air conditioner is difficult to blow to the ground can be solved.

Description

Casing subassembly and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a casing subassembly and air conditioner.

Background

The upper and lower distributed air supply cabinet machine has the advantage of remarkably improving the comfort because the heating hot air is blown out from the lower air outlet, thereby increasing the necessity of developing the upper and lower distributed air supply cabinet machine.

However, in the vertically-distributed cabinet air supply machine in the prior art, the upper air outlet is used as a main air outlet position, and in the heating mode, hot air is difficult to blow to the ground due to low density of the hot air, so that the use comfort of a user is affected.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a housing assembly and an air conditioner, which can solve the problem of the air conditioner in the prior art that the comfort is relatively poor.

In order to achieve the above object, according to an aspect of the present invention, there is provided a cabinet assembly including: the air conditioner comprises a machine body, a first air outlet opening and a second air outlet opening, wherein the machine body is provided with the first air outlet opening; the first baffle is movably arranged relative to the machine body; the first baffle comprises a first plate body and a second plate body which are connected with each other, a circulation opening is arranged on the second plate body, a guide piece is arranged at the circulation opening, and the guide piece can be rotatably arranged to control the outflow direction of gas flowing out of the circulation opening; when the first baffle moves to the first state, at least part of the first plate body is arranged opposite to the first air outlet opening so as to shield the first air outlet opening; when the first baffle moves to the second state, at least part of the circulation opening is arranged opposite to the first air outlet opening, so that the air flowing out of the first air outlet opening flows out through the circulation opening.

Further, the guide member includes a plurality of guide plates arranged at intervals, the plurality of guide plates dividing the flow opening into a plurality of flow gaps; wherein each guide plate is rotatably arranged with respect to a predetermined axis to change the flow direction of each flow gap.

Further, the body includes: the shell is provided with a third air outlet opening; the first air outlet frame is provided with a first air outlet opening, the first air outlet frame is positioned in the shell, and at least part of the third air outlet opening is opposite to and communicated with the first air outlet opening; wherein, the first baffle is movably arranged between the first air outlet frame and the shell.

Furthermore, the first baffle is an arc-shaped plate, and the first plate body and the second plate body are distributed along the radian direction of the first baffle; and/or the machine body is provided with a first side surface facing the first baffle, the first side surface is an arc-shaped surface, and the first air outlet opening is formed in the first side surface.

Further, the housing assembly further comprises: the first baffle plate is arranged on the base, and the extending direction of the first baffle plate is the same as the moving direction of the first baffle plate; the first gear is rotatably arranged and is in meshed transmission with the first rack, so that the first gear drives the first baffle to move through the first rack.

Further, still be provided with second air-out opening on the organism, the casing subassembly still includes: and the second baffle is movably arranged so that the second baffle has a shielding state for shielding the second air outlet opening and a abdicating state for abdicating at least part of the second air outlet opening.

Further, the body includes: the shell is provided with a fourth air outlet opening; the second air outlet frame is provided with a second air outlet opening, the second air outlet frame is positioned in the shell, and at least part of the fourth air outlet opening is opposite to and communicated with the second air outlet opening; the second baffle is movably arranged between the second air outlet frame and the shell.

Further, the second baffle is an arc-shaped plate; and/or the machine shell assembly further comprises a second rack and a second gear, the second rack is arranged on the second baffle, and the extending direction of the second rack is the same as the moving direction of the second baffle; the second gear is rotatably arranged and is in meshed transmission with the second rack, so that the second gear drives the second baffle to move through the second rack.

According to another aspect of the present invention, there is provided an air conditioner including the above-mentioned housing assembly.

Further, the air conditioner further includes: the air duct component is provided with a circulation air duct, and a first air outlet opening of the shell component is communicated with the circulation air duct so that gas in the circulation air duct flows out through the first air outlet opening.

By applying the technical scheme of the utility model, the casing assembly comprises a machine body and a first baffle plate, and a first air outlet opening is arranged on the machine body, so that hot air or cold air formed in the machine body flows out from the first air outlet opening; the first baffle is movably arranged relative to the machine body so that the first baffle has a first state and a second state relative to the machine body; the first baffle comprises a first plate body and a second plate body which are connected with each other, and a circulation opening is formed in the second plate body; when the first baffle moves to the first state, at least part of the first plate body is arranged opposite to the first air outlet opening so as to shield the first air outlet opening, and the first air outlet opening is in a closed state; when the first baffle moves to the second state, at least part of the circulation opening is arranged opposite to the first air outlet opening, so that the air flowing out of the first air outlet opening flows out through the circulation opening, and the first air outlet opening is in an open state; and because the circulation opening part is provided with the guide piece, the outflow direction of the gas flowing out of the circulation opening part can be controlled through the guide piece.

In the concrete use, be applied to the air conditioner with this shell subassembly in, and use first air-out opening as last air outlet, when first air-out opening blows out the hot-blast, flow out hot-blast from the circulation opening promptly, can come to control the hot-blast direction that blows off through rotating the guide, and then solve the problem that the hot-blast that blows off of the last air outlet of the air conditioner among the prior art is difficult to blow to the ground, and improve the use travelling comfort of air conditioner, the relatively poor problem of use travelling comfort of the air conditioner among the prior art has been solved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows an exploded view of an air conditioner according to the present invention;

fig. 2 is a schematic structural view illustrating a first baffle of a cabinet assembly of an air conditioner according to the present invention in a first state thereof;

fig. 3 is a schematic structural view illustrating a first baffle of a cabinet assembly of an air conditioner according to the present invention in a second state thereof;

fig. 4 is a schematic view showing an external structure of the air conditioner of fig. 1.

Wherein the figures include the following reference numerals:

100. an air conditioner;

10. a body; 11. a first air outlet frame; 111. a first side surface; 12. a second air outlet frame; 13. a first panel; 14. a second panel; 141. an air inlet grille; 15. a first side plate; 16. a second side plate; 17. a base; 18. a housing;

101. a first air outlet opening; 102. a second air outlet opening;

20. a first baffle plate; 21. a first plate body; 22. a second plate body; 23. a guide member; 231. a guide plate; 232. a flow-through gap; 24. a first projecting portion;

30. a first rack; 31. a first gear; 32. a first drive motor;

40. a second baffle; 41. a second projection;

50. a second rack; 51. a second gear; 52. a second drive motor;

60. an air duct member; 61. a first air flow channel section; 62. a second flow path segment; 70. a heat exchanger.

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 accompanying drawings in conjunction with embodiments.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. 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 application belongs.

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 utility model provides a casing assembly, please refer to fig. 1 to 4, which comprises a casing 10 and a first baffle 20, wherein the casing 10 is provided with a first air outlet opening 101; the first barrier 20 is movably disposed with respect to the body 10; the first baffle 20 comprises a first plate body 21 and a second plate body 22 which are connected with each other, a circulation opening is arranged on the second plate body 22, a guide piece 23 is arranged at the circulation opening, and the guide piece 23 can be rotatably arranged so as to control the outflow direction of the gas flowing out from the circulation opening; when the first baffle 20 moves to its first state, at least a portion of the first plate 21 is disposed opposite to the first air outlet 101, so as to shield the first air outlet 101; when the first baffle 20 moves to its second state, at least a portion of the flow opening is disposed opposite to the first air outlet opening 101, so that the air flowing out from the first air outlet opening 101 flows out through the flow opening.

In the housing assembly of the present invention, the housing assembly includes a housing 10 and a first baffle 20, and a first air outlet opening 101 is disposed on the housing 10, so that hot air or cold air formed in the housing 10 flows out from the first air outlet opening 101; the first barrier 20 is movably disposed with respect to the body 10 such that the first barrier 20 has a first state and a second state with respect to the body 10; the first baffle 20 comprises a first plate body 21 and a second plate body 22 which are connected with each other, and a circulation opening is arranged on the second plate body 22; when the first baffle 20 moves to its first state, at least a portion of the first plate 21 is disposed opposite to the first air outlet 101 to shield the first air outlet 101, and at this time, the first air outlet 101 is in a closed state; when the first baffle 20 moves to the second state, at least a part of the flow opening is arranged opposite to the first air outlet opening 101, so that the air flowing out from the first air outlet opening 101 flows out through the flow opening, and at this time, the first air outlet opening 101 is in an open state; and since the flow opening is provided with the guide 23, the outflow direction of the gas flowing out from the flow opening can be controlled by the guide 23.

In the concrete use, be applied to the air conditioner with this shell subassembly in, and use first air-out opening 101 as last air outlet, when first air-out opening 101 blew out the hot-blast, flow out hot-blast from the circulation opening promptly, can control hot-blast direction of blowing off through rotating guide 23, and then solve the problem that the hot-blast of going up the air outlet of the air conditioner among the prior art blew off is difficult to blow to the ground, and improve the use travelling comfort of air conditioner, the relatively poor problem of use travelling comfort of the air conditioner among the prior art has been solved.

Optionally, the first baffle 20 is located outside the first wind outlet opening 101.

In the present embodiment, with respect to the specific structure of the guide 23: the guide 23 comprises a plurality of guide plates 231 arranged at intervals, the plurality of guide plates 231 dividing the flow opening into a plurality of flow gaps 232; wherein each guide plate 231 is rotatably arranged with respect to a predetermined axis to change the flow direction of each flow gap 232.

Specifically, the predetermined axis corresponding to each guide plate 231 is parallel to the central plane of the guide plate 231, or the predetermined axis corresponding to each guide plate 231 is located on the central plane of the guide plate 231; the center plane of each guide plate 231 is a plane passing through the center of the guide plate 231 and parallel to both plate surfaces of the guide plate 231. Alternatively, each guide plate 231 is a flat plate structure.

Specifically, one guide plate 231 is disposed above each of the flow gaps 232; when the first air outlet opening 101 is used as an upper air outlet, and when each circulation gap 232 blows hot air, the guide plate 231 above each circulation gap 232 can be obliquely arranged relative to the horizontal plane, and then each circulation gap 232 is arranged towards the oblique lower side, so that the hot air blown out through each circulation gap 232 flows out towards the oblique lower side, and the problem that the hot air blown out from the upper air outlet is difficult to blow to the ground is solved.

Specifically, in the outflow direction of the gas of each flow gap 232, the respective guide plates 231 each have a first end and a second end; when the first air outlet opening 101 serves as an upper air outlet and when each of the circulation gaps 232 blows out hot air, the second end of each of the guide plates 231 is located obliquely below the first end thereof such that the corresponding circulation gap 232 is disposed obliquely downward.

It should be noted that the second end of each guide plate 231 is disposed near the outside of the air conditioner, and the first end of each guide plate 231 is disposed near the inside of the air conditioner; i.e., the second end of each guide plate 231 is located outside the first end thereof.

Optionally, the guide 23 is an air outlet grille.

In this embodiment, the machine body 10 includes a casing 18 and a first air outlet frame 11, and a third air outlet opening is disposed on the casing 18; the first air outlet opening 101 is arranged on the first air outlet frame 11, the first air outlet frame 11 is positioned in the shell 18, and at least part of the third air outlet opening is arranged opposite to and communicated with the first air outlet opening 101; wherein, the first baffle 20 is movably arranged between the first air outlet frame 11 and the shell 18. When the first baffle 20 moves to its first state, the first plate 21 is shielded between the first air outlet opening 101 and the third air outlet opening; when the first baffle 20 moves to its second state, the air flowing out of the flow opening flows out through the third air outlet opening.

Optionally, the third wind outlet opening is larger than the first wind outlet opening 101.

Specifically, the first air outlet frame 11 is further provided with a first channel communicated with the first air outlet opening 101, so that the air in the first channel flows out from the first air outlet opening 101.

In the embodiment, the first baffle 20 is an arc-shaped plate, and the first plate 21 and the second plate 22 are distributed along the arc direction of the first baffle 20.

Specifically, the plurality of guide plates 231 are distributed along the arc direction of the first shutter 20.

Specifically, the body 10 has a first side surface 111 facing the first baffle 20, the first side surface 111 is an arc surface, and the first air outlet opening 101 is disposed on the first side surface 111.

Further, the first side surface 111 is disposed on the first air-out frame 11.

Alternatively, when the first baffle 20 is an arc-shaped plate, and when the first side surface 111 is an arc-shaped surface, the central axis of the cylindrical surface where the central surface of the first baffle 20 is located coincides with the central axis of the cylindrical surface where the first side surface 111 is located.

Optionally, the outer edge of each guide plate 231 is located within the flow opening; alternatively, the outer edge of each guide plate 231 is flush with the plate surface of the second plate 22.

Specifically, when the first shutter 20 is an arc-shaped plate, the first shutter 20 is rotatably provided about its axis; each guide plate 231 is of a strip structure, and the extending direction of each guide plate 231 is parallel to the axial direction of the first baffle plate 20; wherein, the axis of the first baffle 20 is the centerline axis of the cylindrical surface where the central plane of the first baffle 20 is located.

Specifically, along the extending direction of each first baffle 20, each first baffle 20 includes a first plate section and a second plate section connected to each other, and the first plate section and the second plate section are arranged at a predetermined included angle, and the value range of the predetermined included angle is 150 degrees to 180 degrees.

Specifically, when the first baffle 20 moves, the guide plates 231 can be rotated, so as to change the orientation of the flow gaps 232, thereby changing the gas outflow direction. In the specific implementation process, the first baffle 20 can be controlled to reciprocate along the movement direction of the first baffle to drive each guide plate 231 to rotate back and forth, so that the orientation of each circulation gap 232 is changed, the gas outflow direction is changed, and back and forth air sweeping and wind direction control can be realized.

In this embodiment, the housing assembly further includes a first driving assembly, and the first driving assembly is in transmission connection with the first baffle 20 to drive the first baffle 20 to move.

Specifically, the first driving assembly comprises a first rack 30 and a first gear 31, the first rack 30 is arranged on the first baffle plate 20, and the extending direction of the first rack 30 is the same as the moving direction of the first baffle plate 20; the first gear 31 is rotatably disposed around the axis thereof and is in mesh transmission with the first rack 30, so that the first gear 31 drives the first shutter 20 to move via the first rack 30.

Specifically, when the first barrier 20 is an arc-shaped plate, the first rack 30 extends in the arc direction of the first barrier 20.

Specifically, a part of the plate body of the first shutter 20 is protrudingly provided to form the first protrusion 24, and the first rack 30 is provided on the first protrusion 24.

Alternatively, when the first baffle 20 is an arc-shaped plate, the first protrusion 24 extends along the arc direction of the first baffle 20; the first projection 24 is located at one of the end portions of the first shutter 20 in the axial direction of the first shutter 20; the first projection 24 is located inside the first barrier 20.

Specifically, the first driving assembly further includes a first driving motor 32, and an output shaft of the first driving motor 32 is connected to the first gear 31 to drive the first gear 31 to rotate around an axis thereof.

In a specific implementation, the first shutter 20 may be reciprocated by controlling the number of meshing steps of the first gear 31 and the first rack 30.

In this embodiment, the machine body 10 is further provided with a second air outlet opening 102, the enclosure assembly further includes a second baffle 40, and the second baffle 40 is movably disposed, so that the second baffle 40 has a shielding state for shielding the second air outlet opening 102 and a abdicating state for abdicating at least part of the second air outlet opening 102; that is, when the second baffle 40 is in the shielding state, the second baffle 40 completely shields the second air outlet opening 102, so that the second air outlet opening 102 is in the closed state; when the second baffle 40 is in the abdicating state, the second air outlet opening 102 is in the fully opened state or the partially opened state; that is, when the second baffle 40 gives way to the portion of the second outlet opening 102, the second baffle 40 shields the rest of the second outlet opening 102. Fig. 2 shows a structural schematic view of the second wind outlet opening 102 in a closed state, and fig. 3 shows a schematic view of the second wind outlet opening 102 in a fully opened state.

Specifically, a fourth air outlet opening is arranged on the casing 18; the machine body 10 further includes a second air-out frame 12, the second air-out opening 102 is disposed on the second air-out frame 12, the second air-out frame 12 is located in the housing 18, and at least a portion of the fourth air-out opening is disposed opposite to and communicated with the second air-out opening 102; wherein, the second baffle 40 is movably arranged between the second air outlet frame 12 and the shell 18. When the second baffle 40 moves to the shielding state, the second baffle 40 is shielded between the second air outlet opening 102 and the fourth air outlet opening; when the second baffle 40 moves to its abdicating state, the air flowing out from the second air outlet opening 102 flows out through the fourth air outlet opening.

Optionally, the size and shape of the fourth outlet opening and the second outlet opening 102 are the same; alternatively, the fourth outlet opening is larger than the second outlet opening 102.

Specifically, the second air outlet frame 12 is further provided with a second channel communicated with the second air outlet opening 102, so that the air in the second channel flows out from the second air outlet opening 102.

Optionally, the second baffle 40 is an arc-shaped plate; the second shutter 40 is rotatably provided about its axis; the axis of the second baffle 40 is the central axis of the cylindrical surface on which the central plane of the second baffle 40 lies.

In this embodiment, the housing assembly further includes a second driving assembly, and the second driving assembly is in transmission connection with the second barrier 40 to drive the second barrier 40 to move.

Specifically, the second driving assembly includes a second rack 50 and a second gear 51, the second rack 50 is disposed on the second barrier 40, and the extending direction of the second rack 50 is the same as the moving direction of the second barrier 40; the second gear 51 is rotatably disposed around the axis thereof and is in mesh transmission with the second rack 50, so that the second gear 51 drives the second shutter 40 to move through the second rack 50.

Specifically, when the second barrier 40 is an arc-shaped plate, the second rack 50 extends in the arc direction of the second barrier 40.

Specifically, a part of the plate body of the second shutter 40 is protrudingly provided to form a second protrusion 41, and the second rack 50 is provided on the second protrusion 41.

Alternatively, when the second baffle 40 is an arc-shaped plate, the second projection 41 extends along the arc direction of the second baffle 40; the second projecting portion 41 is located at one of the end portions of the second shutter 40 in the axial direction of the second shutter 40; the second projection 41 is located inward of the second shutter 40.

Specifically, the second driving assembly further includes a second driving motor 52, and an output shaft of the second driving motor 52 is connected to the second gear 51 to drive the second gear 51 to rotate about an axis thereof.

Specifically, the housing 18 includes a first panel 13, a second panel 14, a first side plate 15, a second side plate 16, and a base 17, and the first panel 13, the second panel 14, the first side plate 15, the second side plate 16, and the base 17 together enclose a mounting cavity.

Specifically, the first air-out frame 11 and the second air-out frame 12 are both arranged in the installation cavity.

The utility model also provides an air conditioner 100, air conditioner 100 includes foretell casing subassembly.

Specifically, the first outlet opening 101 is located at the upper portion of the air conditioner 100, and the second outlet opening 102 is located at the lower portion of the air conditioner 100.

In this embodiment, the air conditioner 100 further includes an air duct component 60, the air duct component 60 has a circulation air duct, and the first air outlet opening 101 of the casing assembly is communicated with the circulation air duct, so that the air in the circulation air duct flows out through the first air outlet opening 101.

Specifically, the first air-out frame 11 is connected with the air duct component 60, and the first channel is butted and communicated with the circulation air duct.

In this embodiment, the second air outlet opening 102 is communicated with the circulation air duct, so that the air in the circulation air duct flows out through the second air outlet opening 102.

Specifically, the second air-out frame 12 is connected to the air duct unit 60, and the second channel is connected to and communicates with the circulation air duct.

Optionally, the first channel and the second channel are respectively butted with two ends of the circulation air duct.

In this embodiment, the ventilation duct includes a first ventilation duct section 61 and a second ventilation duct section 62, the first ventilation duct section 61 is used for being butted with and communicated with the first passage, and the second ventilation duct section 62 is used for being butted with and communicated with the second passage.

Specifically, a fan blade is arranged in the circulation air duct, and the fan blade divides the circulation air duct into a first circulation air duct section 61 and a second circulation air duct section 62.

Specifically, the housing 18 has an air inlet opening therein so that the outside air enters the housing 18 through the air inlet opening. More specifically, the air intake opening is provided on the second panel 14.

Specifically, an air inlet grille 141 is provided at the air inlet opening.

Specifically, the air conditioner 100 further includes a heat exchanger 70, the heat exchanger 70 being disposed within the housing 18, i.e., the heat exchanger 70 being disposed within the mounting cavity; the heat exchanger 70 is located at one side of the air inlet opening to perform a heat exchange process on the gas entering the housing 18 through the air inlet opening.

Specifically, the air duct member 60 is located at one side of the heat exchanger 70, so that the air subjected to the heat exchange treatment by the heat exchanger 70 enters the circulation air duct; that is, under the action of the fan blades, the air after heat exchange treatment by the heat exchanger 70 enters the circulation air duct.

More specifically, the heat exchanger 70 is disposed between the housing 18 and the wind tunnel member 60; i.e., the heat exchanger 70 is disposed between the second panel 14 and the air duct member 60.

Optionally, the heat exchanger 70 is an evaporator.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:

in the housing assembly of the present invention, the housing assembly includes a housing 10 and a first baffle 20, and a first air outlet opening 101 is disposed on the housing 10, so that hot air or cold air formed in the housing 10 flows out from the first air outlet opening 101; the first barrier 20 is movably disposed with respect to the body 10 such that the first barrier 20 has a first state and a second state with respect to the body 10; the first baffle 20 comprises a first plate body 21 and a second plate body 22 which are connected with each other, and a circulation opening is arranged on the second plate body 22; when the first baffle 20 moves to its first state, at least a portion of the first plate 21 is disposed opposite to the first air outlet 101 to shield the first air outlet 101, and at this time, the first air outlet 101 is in a closed state; when the first baffle 20 moves to the second state, at least a part of the flow opening is arranged opposite to the first air outlet opening 101, so that the air flowing out from the first air outlet opening 101 flows out through the flow opening, and at this time, the first air outlet opening 101 is in an open state; and since the flow opening is provided with the guide 23, the outflow direction of the gas flowing out from the flow opening can be controlled by the guide 23.

In the concrete use, be applied to the air conditioner with this shell subassembly in, and use first air-out opening 101 as last air outlet, when first air-out opening 101 blew out the hot-blast, flow out hot-blast from the circulation opening promptly, can control hot-blast direction of blowing off through rotating guide 23, and then solve the problem that the hot-blast of going up the air outlet of the air conditioner among the prior art blew off is difficult to blow to the ground, and improve the use travelling comfort of air conditioner, the relatively poor problem of use travelling comfort of the air conditioner among the prior art has been solved.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

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.

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 chassis assembly, comprising:

the air conditioner comprises a machine body (10), wherein a first air outlet opening (101) is formed in the machine body (10);

a first baffle (20), the first baffle (20) being movably arranged relative to the machine body (10); the first baffle (20) comprises a first plate body (21) and a second plate body (22) which are connected with each other, a circulation opening is formed in the second plate body (22), a guide piece (23) is arranged at the circulation opening, and the guide piece (23) can be rotatably arranged to control the outflow direction of gas flowing out of the circulation opening;

when the first baffle (20) moves to the first state, at least part of the first plate body (21) is arranged opposite to the first air outlet opening (101) so as to shield the first air outlet opening (101); when the first baffle (20) moves to the second state, at least part of the circulation opening is arranged opposite to the first air outlet opening (101) so that the air flowing out of the first air outlet opening (101) flows out through the circulation opening.

2. The cabinet assembly according to claim 1, wherein the guide (23) comprises a plurality of guide plates (231) arranged at intervals, the plurality of guide plates (231) dividing the flow opening into a plurality of flow gaps (232);

wherein each of the guide plates (231) is rotatably disposed with respect to a predetermined axis to change a flow direction of each of the flow gaps (232).

3. The cabinet assembly according to claim 1, wherein the body (10) comprises:

the shell (18), the shell (18) is provided with a third air outlet opening;

the first air outlet frame (11), the first air outlet opening (101) is arranged on the first air outlet frame (11), the first air outlet frame (11) is positioned in the shell (18), and at least part of the third air outlet opening is arranged opposite to and communicated with the first air outlet opening (101);

wherein the first baffle (20) is movably arranged between the first air outlet frame (11) and the shell (18).

4. The cabinet assembly according to claim 1,

the first baffle plate (20) is an arc-shaped plate, and the first plate body (21) and the second plate body (22) are distributed along the radian direction of the first baffle plate (20); and/or

The machine body (10) is provided with a first side surface (111) facing the first baffle (20), the first side surface (111) is an arc-shaped surface, and the first air outlet opening (101) is formed in the first side surface (111).

5. The cabinet assembly of claim 1, further comprising:

a first rack (30), wherein the first rack (30) is arranged on the first baffle plate (20), and the extending direction of the first rack (30) is the same as the moving direction of the first baffle plate (20);

a first gear (31), wherein the first gear (31) is rotatably arranged and is in meshing transmission with the first rack (30), so that the first gear (31) drives the first baffle (20) to move through the first rack (30).

6. The cabinet assembly according to claim 1, wherein a second air outlet opening (102) is further disposed on the cabinet (10), and the cabinet assembly further comprises:

the second baffle plate (40) is movably arranged, so that the second baffle plate (40) has a shielding state for shielding the second air outlet opening (102) and an abdicating state for abdicating at least part of the second air outlet opening (102).

7. The cabinet assembly according to claim 6, wherein the body (10) comprises:

the shell (18), a fourth air outlet opening is arranged on the shell (18);

the second air outlet frame (12), the second air outlet opening (102) is arranged on the second air outlet frame (12), the second air outlet frame (12) is located in the shell (18), and at least part of the fourth air outlet opening is arranged opposite to and communicated with the second air outlet opening (102);

wherein the second baffle (40) is movably arranged between the second air outlet frame (12) and the shell (18).

8. The cabinet assembly according to claim 6,

the second baffle (40) is an arc-shaped plate; and/or

The machine shell assembly further comprises a second rack (50) and a second gear (51), the second rack (50) is arranged on the second baffle plate (40), and the extending direction of the second rack (50) is the same as the moving direction of the second baffle plate (40); the second gear (51) is rotatably arranged and is in meshed transmission with the second rack (50), so that the second gear (51) drives the second baffle (40) to move through the second rack (50).

9. An air conditioner comprising a cabinet assembly, wherein the cabinet assembly is as claimed in any one of claims 1 to 8.

10. The air conditioner according to claim 9, further comprising:

the air duct component (60) is provided with a circulation air duct, and a first air outlet opening (101) of the shell component is communicated with the circulation air duct, so that air in the circulation air duct flows out through the first air outlet opening (101).

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