CN218955146U - Air outlet device and air conditioner - Google Patents

Abstract

The application discloses an air-out device and air conditioner belongs to air conditioning equipment's technical field to solve the single technical problem of air-out direction of present air conditioner. The air outlet device comprises an air outlet piece and an air dispersing piece, wherein the air outlet piece is provided with an air outlet, the air dispersing piece can be arranged at the air outlet, a plurality of air dispersing through holes are formed in the air dispersing piece, and under the condition that at least part of the air dispersing piece shields the air outlet, air flow output by the air outlet piece can be output through the air dispersing through holes, and the air outlet directions of at least two air dispersing through holes in the plurality of air dispersing through holes are different. In the air-out device of this application, the wind piece that looses can set up in the air outlet of air-out piece for the air current of the air outlet output of air-out piece can flow to the wind piece that looses, and the air-out direction of two at least wind through-holes in a plurality of wind through-holes that looses of wind piece is different, can make to flow into the different in the air current of at least two air current of the air current that can export simultaneously behind the wind through-hole that looses of wind piece, can make the air current of the air-out device output of this application can flow to different regions like this.

Description

Air outlet device and air conditioner

Technical Field

The application belongs to the technical field of air conditioning equipment, and particularly relates to an air outlet device and an air conditioner.

Background

An Air Conditioner (Air Conditioner) is an apparatus for manually adjusting and controlling parameters such as temperature, humidity, and flow rate of Air in the environment of a building or structure. The air conditioner is provided with an air outlet, and the air outlet of the air conditioner can respectively generate hot air flow and hot air flow under the refrigerating and heating states of the air conditioner.

In the related art, the air outlet of the air conditioner is provided with the air deflector, so that the air outlet direction of the air conditioner can be changed by rotating the air deflector, but the air outlet direction of the air conditioner is single due to the single rotating direction of the air deflector, and finally, the temperature of each area of the indoor environment is uniform and the efficiency is low.

Disclosure of Invention

The air conditioner aims at solving the technical problem that the air outlet direction of the existing air conditioner is single at least to a certain extent. Therefore, the application provides an air outlet device and an air conditioner.

In a first aspect, an embodiment of the present application provides an air outlet device, including:

the air outlet piece is provided with an air outlet;

the wind dispersing piece can be arranged at the air outlet, a plurality of wind dispersing through holes are formed in the wind dispersing piece, and under the condition that at least part of the wind dispersing piece shields the air outlet, air flow output by the air outlet piece can be output through the wind dispersing through holes, and at least two of the wind dispersing through holes are different in air outlet direction.

In the air-out device that this application embodiment provided, the wind piece that looses can set up in the air outlet of air-out piece for the air current of the air outlet output of air-out piece can flow to the wind piece that looses, and the air-out direction of two at least wind through-holes in a plurality of wind through-holes that looses of wind piece is different, can make the air current flow into the air current of the wind through-hole back output of the wind piece that looses have the flow direction of two at least air currents different, can make the air current of the air-out device output of this application can flow to different regions like this. The air conditioner applying the air outlet device can output the air subjected to refrigeration or heating to different areas in the indoor environment at the same time, so that the air subjected to refrigeration or heating can be more efficiently diffused in each area of the indoor environment, and the temperatures of the areas of the indoor environment can be more efficiently consistent.

In some embodiments, the air diffusing through hole is opposite to the air outlet in a case that at least part of the air diffusing member shields the air outlet.

In some embodiments, the air conditioner further comprises a first driver, wherein the first driver is connected with the air dispersing piece, and the first driver can drive the air dispersing piece to rotate relative to the air outlet piece.

In some embodiments, the air dispersing member has a rotation center connected with the first driver, and the plurality of air dispersing through holes are disposed around the rotation center.

In some embodiments, the air-dispersing through holes have a first end adjacent to the air outlet and a second end facing away from the air outlet, the directions of the first end to the second end of at least two of the air-dispersing through holes being different.

In some embodiments, the air dispersing member has an air dispersing surface, the second end is located on the air dispersing surface, and the plurality of air dispersing through holes comprise first sub through holes, and a direction from the second end to the first end of the first sub through holes is perpendicular to the air dispersing surface.

In some embodiments, the plurality of air-diffusing through holes further comprises a second sub-through hole, and an included angle between the direction from the second end to the first end of the second sub-through hole and the air-diffusing surface is smaller than 90 degrees.

In some embodiments, the plurality of air-diffusing through holes further comprises a third sub-through hole, and an included angle between the direction from the second end to the first end of the third sub-through hole and the air-diffusing surface is greater than 90 degrees.

In some embodiments, the number of the first sub-through holes, the second sub-through holes and the third sub-through holes is plural, the plural first sub-through holes form a first sub-through hole group, the plural second sub-through holes form a second sub-through hole group, the plural third sub-through holes form a third sub-through hole group, and the first sub-through hole group, the second sub-through hole group and the third sub-through hole group are distributed at intervals along the first direction.

In some embodiments, the plurality of first sub-vias, the plurality of second sub-vias, and the plurality of third sub-vias are all disposed at intervals along a second direction, the first direction intersecting the second direction.

In some embodiments, the second ends of the first, second, and third sub-vias have different open areas.

In some embodiments, the air conditioner further includes a second driver, where the second driver is connected to the air dispersing member, and the second driver may drive the air dispersing member to reciprocate along a direction of a third direction, so that the air dispersing member is dislocated from the air outlet, or at least part of the air dispersing through holes are opposite to the air outlet.

In some embodiments, the air dispersing member comprises a mounting plate and an air dispersing plate, the air dispersing plate is arranged on the mounting plate, the air dispersing through hole is formed in the air dispersing plate, the second driver is connected with the mounting plate, and the first driver is arranged on the mounting plate and connected with the air dispersing plate.

In some embodiments, the second driver includes a driving motor, a gear, and a rack, the rack is disposed on the mounting plate and disposed along the third direction, the driving motor is disposed on the air outlet member and connected to the gear, and the gear is meshed with the rack.

In some embodiments, when the plurality of air-dispersing through holes are opposite to the air outlet, the air outlet forms a projection area in the air-dispersing member in a direction towards the air-dispersing member, the projection area is located in the air-dispersing member, and the air-dispersing member is attached to the air-outlet member.

According to a second aspect, based on the air outlet device, the embodiment of the application also provides an air conditioner, which comprises the air outlet device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural diagram of an air outlet device disclosed in an embodiment of the present application;

FIG. 2 shows a schematic side view of an air outlet device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an air dispersing member of an air outlet device according to an embodiment of the present disclosure;

FIG. 4 shows an exploded schematic view of a wind dispersing member, a first driver and a second driver of the wind outlet device disclosed in the embodiment of the present application;

fig. 5 shows a schematic structural diagram of a wind dispersing plate of the wind outlet device disclosed in the embodiment of the application;

FIG. 6 shows a schematic cross-sectional view of A-A of FIG. 5;

FIG. 7 shows a schematic cross-sectional view of B-B in FIG. 5;

fig. 8 shows a schematic cross-sectional view of C-C in fig. 5.

Reference numerals:

100-an air outlet piece, 110-an air outlet,

200-air dispersing piece, 210-mounting plate, 220-air dispersing plate, 221-air dispersing through hole, 221 a-first sub through hole, 221 b-second sub through hole, 221 c-third sub through hole, 222-first end, 223-second end, 230-rotation center,

300-the first driver is provided with a first control signal,

400-second driver, 410-driving motor, 420-gear, 430-rack.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all the directional indicators in the embodiments of the present utility model are only used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture, and if the specific posture is changed, the directional indicators are correspondingly changed.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The present application is described below with reference to specific embodiments in conjunction with the accompanying drawings:

example 1

Referring to fig. 1 to 2, an air outlet device is disclosed in the embodiments of the present application, which includes an air outlet member 100 and an air dispersing member 200, wherein the air outlet direction of the air outlet device can be controlled, and the air outlet device can be applied to an air conditioner, and of course, the air outlet device can also be applied to other air conditioning equipment.

The air outlet piece 100 is a basic component of the air outlet device, and the air outlet piece 100 can provide a mounting foundation for other at least partial components of the air outlet device and protect the components arranged in the air outlet piece 100. The air outlet member 100 is provided with the air outlet 110, so that the air outlet 110 of the air outlet member 100 can output air flow, specifically, the air outlet member 100 can be provided to include a housing and a fan or an air pump arranged in the housing, the air outlet 110 of the air outlet member 100 can be arranged in the housing, the fan or the air pump can be started to output air flow, and the air flow can be finally output by the air outlet 110 of the housing.

The air dispersing member 200 may be disposed at the air outlet 110 of the air outlet member 100, the air dispersing member 200 is provided with an air dispersing through hole 221, and in the case that at least part of the air dispersing member 200 is blocked at the air outlet 110 of the air outlet member 100, the air dispersing through hole 221 of the air dispersing member 200 is communicated with the air outlet 110 of the air outlet member 100, so that the air flow output from the air outlet 110 of the air outlet member 100 may enter the air dispersing through hole 221 of the air dispersing member 200 and be output through the air dispersing through hole 221 of the air dispersing member 200. The number of the air dispersing through holes 221 of the air dispersing member 200 is multiple, and the air outlet directions of at least two air dispersing through holes 221 in the air dispersing through holes 221 are different, so that after the air flow output by the air outlet 110 of the shell enters the air dispersing through holes 221 of the air dispersing member 200, the air flow can be divided into a plurality of air flows for output, and the flow directions of at least two air flows in the plurality of air flows are different, so that the air outlet device has different air outlet effects. Of course, the plurality of air-dispersing through holes 221 of the air-dispersing member 200 may also be arranged to have different air-out directions, so that the flow direction of the air flow outputted through the air-dispersing through holes 221 of the air-dispersing member 200 is more diversified and rich.

Specifically, when the indoor environment air flow is not smooth and the user feels stuffy and dry, the air flow output by the air dispersing through holes 221 with different air outlet directions of the air dispersing piece 200 can flow to different areas of the indoor environment, so that the air flow output by the air outlet device can act on at least two different areas of the indoor environment simultaneously, so that the air in a plurality of areas of the indoor environment can flow, the air flow efficiency of the indoor environment can be higher, the flowing range is larger, and the air flow of the indoor environment is more smooth, and the user feel comfortable.

When the air outlet device is applied to air conditioning equipment, the air flow output by the air outlet piece 100 is the air cooled or heated after heat exchange with the heat exchanger, a plurality of cold air flows or hot air flows can be formed after the heated or heated air is output through the air dispersing through holes 221 of the air dispersing piece 200, and at least two cold air flows or hot air flows can flow along different directions.

In the air outlet device provided by the embodiment of the application, the air dispersing member 200 can be arranged at the air outlet 110 of the air outlet member 100, so that the air flow output by the air outlet 110 of the air outlet member 100 can flow to the air dispersing member 200, the air outlet directions of at least two air dispersing through holes 221 in the plurality of air dispersing through holes 221 of the air dispersing member 200 are different, and the air flows can flow into at least two different areas in the air flow output after flowing into the air dispersing through holes 221 of the air dispersing member 200, so that the air flows output by the air outlet device can flow to different areas. The air conditioner applying the air outlet device can output the air subjected to refrigeration or heating to different areas in the indoor environment at the same time, so that the air subjected to refrigeration or heating can be more efficiently diffused in each area of the indoor environment, and the temperatures of the areas of the indoor environment can be more efficiently consistent.

Referring to fig. 1 and 2, in some embodiments, in order to enable the airflow output by the air outlet 110 of the air outlet piece 100 of the present application to enter into the air outlet through hole 221 of the air outlet piece 200 and output, in a case where at least part of the air outlet 110 of the air outlet piece 100 is blocked by the air outlet piece 200, the air outlet through hole 221 of the air outlet piece 200 may be specifically disposed opposite to the air outlet 110 of the air outlet piece 100, so that the air outlet 110 of the air outlet piece 100 is directly communicated with the air outlet through hole 221 of the air outlet piece 200, and the airflow output by the air outlet 110 of the air outlet piece 100 may directly enter into the air outlet through hole 221 of the air outlet piece 200 without changing the flow direction. Of course, it should be understood that when the air dispersing member 200 is completely opposite to the air outlet 110 of the air outlet member 100, each of the air dispersing through holes 221 of the air dispersing member 200 may be opposite to the air outlet 110 of the air outlet member 100.

In addition, in other embodiments, the air inlet end of the air dispersing through hole 221 of the air dispersing member 200 of the present application may be disposed in a staggered manner with respect to the air outlet 110 of the air outlet member 100. Specifically, the area of the side of the air dispersing member 200 opposite to the air outlet 110 of the air outlet member 100 is larger than the opening area of the air outlet 110 of the air outlet member 100, so that the air dispersing member 200 can be arranged to cover the air outlet 110 of the air outlet member 100, the side of the air dispersing member 200 opposite to the air outlet 110 of the air outlet member 100 and the air outlet 110 of the air outlet member 100 have a certain distance, and thus the air dispersing through holes 221 of the air dispersing member 200 can be arranged at the position adjacent to the periphery of the air dispersing member 200, so that the air dispersing through holes 221 of the air dispersing member 200 and the air outlet 110 of the air outlet member 100 are communicated with each other while the air dispersing through holes 221 and the air dispersing through holes 221 are arranged in a staggered manner. Of course, in this arrangement, the air flow output through the air outlet 110 of the air outlet member 100 enters the air dispersing through hole 221 of the air dispersing member 200 with the flow direction changed.

Referring to fig. 3 and 4, in some embodiments, in order to make the airflow output by the air-out device of the present application richer and more diversified, the air-out device of the present application may further include a first driver 300, where the first driver 300 may be configured to be connected with the air-dispersing member 200, and the first driver 300 may drive the air-dispersing member 200 to rotate relative to the air-out member 100, and accordingly, when the air-dispersing member 200 rotates relative to the air-out member 100, the plurality of air-dispersing through holes 221 of the air-dispersing member 200 may also rotate along with the air-dispersing member 200. And because the air-out direction of at least two air-out through holes 221 in a plurality of air-out through holes 221 is different, consequently, the air-out direction of at least one air-out through hole 221 intersects with the axial of air-out piece 200, can make the air-out direction of at least one air-out through hole 221 can be in the in-process of rotating along with air-out piece 200 continuously change after air-out piece 200 rotates like this to the air-out effect of the air-out device of this application is more various.

In addition, because the wind dispersing member 200 is provided with a plurality of wind dispersing through holes 221, the wind dispersing through holes 221 can be distributed in different areas of the wind dispersing member 200, correspondingly, after the wind dispersing member 200 rotates, the positions of the wind dispersing through holes 221 of the wind dispersing member 200 can also change, so that the air outlet positions of the wind dispersing through holes 221 of the wind dispersing member 200 can also change, the positions of the air flows output by the wind dispersing through holes 221 also change, and the air outlet effect of the air outlet device is more various due to the change of the flow direction of the air flows output by the wind dispersing through holes 221.

Referring to fig. 5, in some embodiments, the first driver 300 is connected to the wind dispersing member 200 at a position of the rotation center 230 of the wind dispersing member 200, and when the first driver 300 drives the wind dispersing member 200 to rotate, the wind dispersing member 200 rotates around the rotation center 230. In order to make the position change of the air dispersing through holes 221 of the air dispersing member 200 richer and more diverse in the rotating process of the air dispersing member 200, the plurality of air dispersing through holes 221 of the air dispersing member 200 are arranged around the rotation center 230 of the air dispersing member 200, so that the position of each air dispersing through hole 221 can be changed after the air dispersing member 200 rotates, the position of the air flow output by each air dispersing through hole 221 of the air dispersing member 200 can be changed, and the air outlet direction of at least part of the air dispersing through holes 221 of the air dispersing member 200 can be changed.

Specifically, the plurality of air dispersing through holes 221 of the air dispersing member 200 may be disposed at intervals in each portion of the circumferential direction of the air dispersing member 200, so that the plurality of air dispersing through holes 221 of the air dispersing member 200 may be disposed around the rotation center 230 of the air dispersing member 200, thereby ensuring that the position of each air dispersing through hole 221 of the air dispersing member 200 may be changed.

Of course, in other embodiments, the air diffusing through hole 221 of the air diffusing member 200 may be an annular hole, the annular air diffusing through hole 221 may be eccentrically disposed around the rotation center 230 of the air diffusing member 200, the plurality of air diffusing through holes 221 may be sequentially disposed around the rotation center 230 of the air diffusing member 200, and the plurality of air diffusing through holes 221 may be eccentrically disposed around the rotation center 230 of the air diffusing member 200, so that when the air diffusing through hole 221 rotates with the air diffusing member 200, the position of the air flow output by the air diffusing through hole 221 may be changed, and the direction of the air flow output by at least part of the air diffusing through holes 221 may be changed.

In addition, the partial air dispersing through holes 221 of the air dispersing member 200 can be arranged as annular holes and eccentrically wind around the rotation center 230 of the air dispersing member 200, and other air dispersing through holes 221 of the air dispersing member 200 can be distributed along the circumferential interval of the rotation center 230 of the air dispersing member 200, so that the air outlet effect of the air outlet device is more various and rich.

Referring to fig. 6-8, in some embodiments, the air diffusing through hole 221 of the air diffusing member 200 of the present application may specifically be configured to have a first end 222 and a second end 223, where the first end 222 of the air diffusing through hole 221 is disposed adjacent to the air outlet 110 of the air outlet member 100, so that the air flow output by the air outlet member 100 may enter into the air diffusing through hole 221 from the first end 222 of the air diffusing through hole 221; the second end 223 of the air-dispersing through hole 221 is disposed away from the air outlet 110 of the air-out member 100, and thus, the air flow entering into the air-dispersing through hole 221 can be outputted through the second end 223 of the air-dispersing through hole 221. The directions from the second ends 223 to the first ends 222 of at least two air dispersing through holes 221 in the plurality of air dispersing through holes 221 are different, so that the directions of the air flows output by the at least two air dispersing through holes 221 are different, and the air outlet device has different air outlet effects.

Of course, in other embodiments, the air diffusing through holes 221 of the present application may further be provided with a third end, and the third end of the air diffusing through hole 221 is located between the first end 222 and the second end 223, specifically, directions from the first end 222 to the third end of the air diffusing through holes 221 may be set to be consistent, directions from the third end to the second end 223 of at least two air diffusing through holes 211 in the air diffusing through holes 221 are different, and thus, output directions of at least two air diffusing through holes 221 in the air diffusing through holes 221 may be different.

Further, it should be noted that the axes of the plurality of air-dispersing through holes 221 of the air-dispersing member 200 may be arranged in a straight line, so that the air flow outputted from the air-out member 100 may be outputted efficiently after entering into the air-dispersing through holes 221 of the air-dispersing member 200.

Referring to fig. 6, in some embodiments, the air dispersing member 200 of the present application is specifically provided with an air dispersing surface, and the air dispersing surface of the air dispersing member 200 is disposed opposite to the air outlet 110 of the air outlet member 100, so that the second end 223 of the air dispersing through hole 221 is located on the air dispersing surface of the air dispersing member 200. The plurality of air dispersing through holes 221 of the air dispersing member 200 include a first sub through hole 221a, and a direction from the second end 223 to the first end 222 of the first sub through hole 221a is perpendicular to the air dispersing surface of the air dispersing member 200, so that an axis of the first sub through hole 221a is perpendicular to the air dispersing surface of the air dispersing member 200, and when the air dispersing member 200 rotates around the rotation center 230 thereof, a position of the first sub through hole 221a of the air dispersing member 200 is changed along with the rotation of the air dispersing member 200, thereby changing a position of the air flow outputted through the first sub through hole 221 a. And because the direction from the second end 223 to the first end 222 of the first sub through hole 221a is perpendicular to the air dispersing surface of the air dispersing member 200, the direction of the air flow output by the first sub through hole 221a cannot be changed due to the rotation of the air dispersing member 200, so that the air outlet device can always output at least one air flow with unchanged flow direction.

Specifically, when the air outlet device is applied to an air conditioner, and the user feels hot and continues to blow cold air directly to cool, the user can be located at one side of the air dispersing surface of the air dispersing member 200, so that in the process of rotating the air dispersing member 200, the cold air flow output by the first sub through hole 221a of the air dispersing member 200 can be always blown to the user, and the user feels comfortable. The flow direction of the air flow outputted by the other air dispersing through holes 221 of the air dispersing member 200 can be changed along with the rotation of the air dispersing member 200, so that the air flow outputted by the other air dispersing through holes 221 can flow to different areas of the indoor environment, and the cold air flow can be uniformly distributed in each area of the indoor environment, so that the temperatures of each area of the indoor environment are relatively consistent.

Referring to fig. 7, in some embodiments, in order to enrich and diversify the flow direction of the air flow outputted from the air dispersing through hole 221 of the air dispersing member 200 of the present application, the plurality of air dispersing through holes 221 of the air dispersing member 200 further includes a second sub-through hole 221b, and an angle between the direction from the second end 223 to the first end 222 of the second sub-through hole 221b and the air dispersing surface of the air dispersing member 200 is smaller than 90 degrees, so that the direction from the second end 223 to the first end 222 of the second sub-through hole 221b intersects with the direction from the second end 223 to the first end 222 of the first sub-through hole 221a, and accordingly, the direction of the air flow outputted through the first sub-through hole 221a and the second sub-through hole 221b of the air dispersing member 200 is different. When the first driver 300 drives the air dispersing member 200 to rotate, the second sub-through holes 221b of the air dispersing member 200 may be rotated along with the rotation of the air dispersing member 200, so that the direction of the air flow outputted through the second sub-through holes 221b of the air dispersing member 200 may be changed, and the direction of the air flow outputted through the second sub-through holes 221b may be continuously changed along with the rotation of the air dispersing member 200.

Referring to fig. 8, in some embodiments, in order to further enrich and diversify the flow direction of the air flow outputted from the air dispersion holes 221 of the air dispersion member 200 of the present application, the plurality of air dispersion holes 221 of the air dispersion member 200 further includes a third sub-through hole 221c, and the direction from the second end 223 to the first end 222 of the third sub-through hole 221c forms an angle greater than 90 degrees with the air dispersion surface of the air dispersion member 200, such that the direction from the second end 223 to the first end 222 of the third sub-through hole 221c intersects the direction from the second end 223 to the first end 222 of the first sub-through hole 221a, and intersects the direction from the second end 223 to the first end 222 of the second sub-through hole 221b, and accordingly, the directions of the air flow outputted through the first sub-through hole 221a, the second sub-through hole 221b, and the third sub-through hole 221c of the air dispersion member 200 are different. When the first driver 300 drives the air dispersing member 200 to rotate, the third sub-through hole 221c of the air dispersing member 200 may be rotated along with the rotation of the air dispersing member 200, so that the direction of the air flow outputted through the third sub-through hole 221c of the air dispersing member 200 may be changed, and the direction of the air flow outputted through the third sub-through hole 221c may be continuously changed along with the rotation of the air dispersing member 200. After the wind dispersing member 200 rotates, the position of the air flow output by the first sub through hole 221a of the wind dispersing member 200 can be changed, and the positions and the flow directions of the air flow output by the second sub through hole 221b and the third sub through hole 221c can be changed, so that the wind outlet device has rich wind outlet effects.

Referring to fig. 5 to 8, in some embodiments, in order to make the air outlet effect of the air outlet device of the present application stronger and have higher efficiency, the number of the first sub-through holes 221a, the second sub-through holes 221b and the third sub-through holes 221c of the air dispersing member 200 may be multiple, so that the air flow output by the air outlet member 100 may respectively enter into the first sub-through holes 221a, the second sub-through holes 221b and the third sub-through holes 221c and be discharged, thereby improving the flow rate of the air flow output by the air outlet device of the present application in unit time.

Specifically, the plurality of first sub-through holes 221a of the air dispersing member 200 may form a first sub-through hole 221a group, and the plurality of first sub-through holes 221a in the first sub-through hole 221a group are disposed at intervals; the plurality of second sub-through holes 221b of the air dispersing member 200 may form a second sub-through hole 221b group, and the plurality of second sub-through holes 221b in the second sub-through hole 221b group are spaced apart; the plurality of third sub-through holes 221c of the air dispersing member 200 may form a third sub-through hole 221c group, and the plurality of third sub-through holes 221c in the third sub-through hole 221c group are disposed at intervals. The first, second and third sub-through hole 221a, 221b and 221c may be spaced apart in the first direction, so that each of the air-dispersing through holes 221 may be disposed at each portion of the air-dispersing member 200, and thus each portion of the air-dispersing member 200 may uniformly discharge air. The number of the first sub-through hole 221a group, the second sub-through hole 221b group and the third sub-through hole 221c group can be multiple, so that the first sub-through hole 221a group, the second sub-through hole 221b group and the third sub-through hole 221c group can be sequentially arranged at equal intervals along the first direction, and the first sub-through hole 221a group, the second sub-through hole 221b group and the third sub-through hole 221c group are uniformly distributed in the air dispersing piece 200, so that the air outlet effect of the air outlet device is better.

Referring to fig. 5, in some embodiments, in order to sequentially distribute the first sub-via 221a group, the second sub-via 221b group, and the third sub-via 221c group of the wind dispersing member 200, the plurality of first sub-vias 221a of the first sub-via 221a group may be disposed at intervals along the second direction, the plurality of second sub-vias 221b of the second sub-via 221b group may also be disposed at intervals along the second direction, the plurality of third sub-vias 221c of the third sub-via 221c group may also be disposed at intervals along the second direction, and the first direction intersects the second direction, such that the wind dispersing member 200 is provided with the wind dispersing vias 221 in both the first direction and the second direction, thereby further uniformly distributing the plurality of wind dispersing vias 221 of the wind dispersing member 200 to the wind dispersing vias 221. Specifically, the first direction and the second direction may be perpendicular to each other, so that the plurality of air dispersing through holes 221 of the air dispersing member 200 may be linearly distributed.

Of course, in other embodiments, the first sub-through holes 221a, the second sub-through holes 221b and the third sub-through holes 221c of the present application may be further distributed in the air dispersing member 200, so that the direction of the air flowing out of the second sub-through holes 221b and the third sub-through holes 221c may be changed after the first driver 300 drives the air dispersing member 200 to rotate.

Referring to fig. 5, in some embodiments, a plurality of first sub-through holes 221a of the wind dispersing member 200 of the present application have a central first sub-through hole 221a set, and a connection line of the centers of the plurality of first sub-through holes 221a of the central first sub-through hole 221a set may be configured to pass through the rotation center 230 of the wind dispersing member 200, so that when the wind dispersing member 200 rotates, the middle portion of the wind dispersing member 200 may output airflow flowing to the wind dispersing surface perpendicular to the wind dispersing member 200, and further the wind outlet device of the present application may always output a direct blowing airflow.

In addition, the plurality of first sub-through holes 221a of the central first sub-through hole 221a group may be distributed on both sides of the rotation center 230 of the air dispersing member 200, so that each area on the plate surface of the air dispersing member 200 is fully utilized, and the purpose of increasing the number of the air dispersing through holes 221 of the air dispersing member 200 is achieved.

In some embodiments, in order to make the air outlet effect of the air outlet device of the present application richer and more diverse, the opening area of the second end 223 of the first sub-through hole 221a of the air dispersion member 200, the opening area of the second end 223 of the second sub-through hole 221b of the air dispersion member 200, and the opening area of the second end 223 of the third sub-through hole 221c of the air dispersion member 200 may be set to be different, so that the flow rates of the air streams flowing out through the first sub-through hole 221a, the second sub-through hole 221b, and the third sub-through hole 221c of the air dispersion member 200 may be different.

The opening areas of the second ends 223 of the first sub through holes 221a, the second sub through holes 221b and the third sub through holes 221c of the air dispersing member 200 can be also set to be adjustable, and particularly, control valves with adjustable opening sizes can be arranged at the second ends 223 of the first sub through holes 221a, the second ends 223 of the second sub through holes 221b and the second ends 223 of the third sub through holes 221c, so that the flow rates of air flows flowing out of the first sub through holes 221a, the second sub through holes 221b and the third sub through holes 221c can be controlled, and the air outlet quantity of the air outlet device can be adjusted according to requirements.

Referring to fig. 1 and fig. 2, in some embodiments, in order to improve the maximum air output of the air outlet device of the present application, the air outlet 110 of the air outlet piece 100 and the air dispersing piece 200 may be arranged in a staggered manner, specifically, when the air dispersing piece 200 and the air outlet 110 of the air outlet piece 100 are arranged in a staggered manner, the air flow flowing out from the air outlet 110 of the air outlet piece 100 may flow out into the indoor environment without entering the air dispersing through holes 221 of the air dispersing piece 200, so that the air flow flowing out from the air outlet 110 of the air outlet piece 100 may not be blocked by the solid portions of the air dispersing piece 200 located between the air dispersing through holes 221, so that the air flow output from the air outlet 110 of the air outlet piece 100 may be completely output, and the air output of the air outlet device may further reach the maximum air output.

Of course, the wind dispersing member 200 of the present application may be further partially arranged in a dislocation manner with the air outlet 110 of the air outlet member 100, so that the partial wind dispersing member 200 is disposed opposite to the air outlet 110 of the air outlet member 100, and therefore, the partial wind dispersing member 200 has a blocking effect on the air flow flowing out of the air outlet 110 of the air outlet member 100, and the partial air flow flowing out of the air outlet 110 of the air outlet member 100 needs to be outputted through the wind dispersing through hole 221 of the wind dispersing member 200, thereby achieving the purpose of reducing the flow of the air flow outputted by the air outlet device of the present application. Therefore, the purpose of controlling the air outlet flow of the air outlet device can be achieved by controlling the relative position relationship between the air dispersing member 200 and the air outlet member 100.

Referring to fig. 4, specifically, the air outlet device of the present application may further provide a second driver 400, where the second driver 400 is connected to the air dispersing member 200, and the second driver 400 may drive the air dispersing member 200 to move along a third direction, so that the air dispersing member 200 is dislocated with the air outlet 110 of the air outlet member 100, or at least some of the air dispersing through holes 221 in the air dispersing member 200 are opposite to the air outlet 110 of the air outlet member 100, or all of the air dispersing through holes 221 in the air dispersing member 200 are opposite to the air outlet 110 of the air outlet member 100, so that the air outlet volume of the air outlet device of the present application may be adjusted as required.

In some embodiments, the wind dispersing member 200 of the present application specifically includes a mounting plate 210 and a wind dispersing plate 220, where a plurality of wind dispersing through holes 221 of the wind dispersing member 200 are disposed on the wind dispersing plate 220, the wind dispersing plate 220 is movably disposed on the mounting plate 210, the first driver 300 may be disposed on the mounting plate 210 and connected to the wind dispersing plate 220, and a connection portion between the first driver 300 and the wind dispersing plate 220 is a rotation center 230 of the wind dispersing member 200, so that the first driver 300 may drive the wind dispersing plate 220 to rotate relative to the mounting plate 210, and further, a direction of an air flow flowing out from at least part of the wind dispersing through holes 221 on the wind dispersing plate 220 may be changed.

The second driver 400 is connected with the mounting plate 210, the second driver 400 can drive the mounting plate 210 to reciprocate along a third direction, and because the air diffuser 220 is connected with the mounting plate 210 through the first driver 300, the second driver 400 can drive the mounting plate 210, the air diffuser 220 and the first driver 300 to reciprocate along the third direction, so that a plurality of air diffuser through holes 221 of the air diffuser 220 can be opposite to or staggered with the air outlets 110 of the air outlet piece 100.

Specifically, the second driver 400 of the present application may include a driving motor 410, a gear 420 and a rack 430, the rack 430 may be disposed on the mounting plate 210 and extend along a third direction, and the driving motor 410 may be disposed on the air outlet member 100, so that the driving motor 410 may be fixed. The output of the driving motor 410 is connected to the gear 420, and the gear 420 is engaged with the rack 430. When the driving motor 410 drives the gear 420 to rotate forward and backward, the rack 430 can be driven to reciprocate relative to the gear 420, and because the rack 430 extends along the third direction, the mounting plate 210 connected with the rack 430 can reciprocate along the third direction, and finally the wind dispersing member 200 can reciprocate along the third direction. The number of the driving motors 410, the gears 420 and the racks 430 may be two, the two racks 420 may be disposed on two opposite sides of the mounting plate 210, the two driving motors 410 may be disposed on two sides of the air outlet member 100, and the two gears 420 are respectively connected with the two driving motors 410, so that the air dispersing member 200 may be balanced and stable during movement, and the air dispersing member 200 is prevented from deflecting.

Referring to fig. 1 and 2, in some embodiments, in order to make the air dispersing member 200 of the present application opposite to the air outlet 110 of the air outlet member 100, the air flow flowing out of the air outlet 110 of the air outlet member 100 may flow out through the air dispersing through holes 221 of the air dispersing member 200. Under the condition that the plurality of air dispersing through holes 221 of the air dispersing member 200 are opposite to the air outlet 110 of the air dispersing member 100, the air outlet 110 of the air dispersing member 100 can form a projection area on the air dispersing member 200 in the direction towards the air dispersing member 200, the projection area is positioned in the air dispersing member 200, the air dispersing member 200 is attached to the air dispersing member 100, no gap exists between the air dispersing member 100 and the air dispersing member 200, and air flows flowing out through the air outlet 110 of the air dispersing member 100 can flow out from the plurality of air dispersing through holes 221 of the air dispersing member 200, so that the purpose of fully changing the air outlet direction of the air outlet device of the application can be achieved.

In a second aspect, based on the air outlet device above, an embodiment of the present application further provides an air conditioner, where the air conditioner includes the air outlet device above.

Specifically, the air conditioner may further include a heat exchanger, which may be disposed in the air outlet member 100, and the air outlet member 100 may suck air, which has exchanged heat with the heat exchanger, into and output the air through the air outlet 110 of the air outlet member 100.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

Claims (16)

1. An air outlet device, comprising:

an air outlet piece (100) provided with an air outlet (110); and

the wind dispersing piece (200) can be arranged at the air outlet (110), a plurality of wind dispersing through holes (221) are formed in the wind dispersing piece (200), and under the condition that at least part of the wind dispersing piece (200) shields the air outlet (110), air flow output by the wind outlet piece (100) can be output through the wind dispersing through holes (221), and the wind outlet directions of at least two wind dispersing through holes (221) in the wind dispersing through holes (221) are different.

2. The air outlet device according to claim 1, wherein the air diffusing through hole (221) is opposite to the air outlet (110) in case that at least part of the air diffusing member (200) shields the air outlet (110).

3. The air outlet device according to claim 2, further comprising a first driver (300), wherein the first driver (300) is connected to the air dispersing member (200), and the first driver (300) is capable of driving the air dispersing member (200) to rotate relative to the air outlet member (100).

4. An air outlet device according to claim 3, wherein the air dispersing member (200) has a rotation center (230) connected to the first driver (300), and a plurality of the air dispersing through holes (221) are provided around the rotation center (230).

5. The air outlet device according to claim 3 or 4, wherein the air diffusing through holes (221) have a first end (222) and a second end (223), the first end (222) being adjacent to the air outlet (110), the second end (223) being directed away from the air outlet (110), the direction from the first end (222) to the second end (223) of at least two of the plurality of air diffusing through holes (221) being different.

6. The air outlet device according to claim 5, wherein the air dispersing member (200) has an air dispersing surface, the second end (223) is located on the air dispersing surface, the plurality of air dispersing through holes (221) comprise a first sub through hole (221 a), and a direction from the second end (223) to the first end (222) of the first sub through hole (221 a) is perpendicular to the air dispersing surface.

7. The air outlet device according to claim 6, wherein the plurality of air diffusing through holes (221) further comprises a second sub through hole (221 b), and an angle between a direction from the second end (223) to the first end (222) of the second sub through hole (221 b) and the air diffusing surface is smaller than 90 degrees.

8. The air outlet device according to claim 7, wherein the plurality of air diffusing through holes (221) further comprises a third sub through hole (221 c), and an angle between a direction from the second end (223) to the first end (222) of the third sub through hole (221 c) and the air diffusing surface is larger than 90 degrees.

9. The air outlet device according to claim 8, wherein the number of the first sub-through holes (221 a), the second sub-through holes (221 b) and the third sub-through holes (221 c) is plural, the plural first sub-through holes (221 a) form a first sub-through hole (221 a) group, the plural second sub-through holes (221 b) form a second sub-through hole (221 b) group, the plural third sub-through holes (221 c) form a third sub-through hole (221 c) group, and the first sub-through hole (221 a) group, the second sub-through hole (221 b) group and the third sub-through hole (221 c) group are distributed at intervals along the first direction.

10. The air outlet device according to claim 9, wherein a plurality of the first sub-through holes (221 a), a plurality of the second sub-through holes (221 b), and a plurality of the third sub-through holes (221 c) are all arranged at intervals along a second direction, the first direction intersecting the second direction.

11. The air outlet arrangement according to any of the claims 8-10, characterized in that the second end (223) of the first sub-through hole (221 a), the second end (223) of the second sub-through hole (221 b) and the second end (223) of the third sub-through hole (221 c) have different opening areas.

12. The air outlet device according to claim 11, further comprising a second driver (400), wherein the second driver (400) is connected to the air dispersing member (200), and the second driver (400) can drive the air dispersing member (200) to reciprocate along a direction of a third direction, so that the air dispersing member (200) is dislocated with the air outlet (110), or at least part of the air dispersing through holes (221) are opposite to the air outlet (110).

13. The air outlet device according to claim 12, wherein the air dispersing member (200) comprises a mounting plate (210) and an air dispersing plate (220), the air dispersing plate (220) is arranged on the mounting plate (210), the air dispersing through hole (221) is formed in the air dispersing plate (220), the second driver (400) is connected with the mounting plate (210), and the first driver (300) is arranged on the mounting plate (210) and connected with the air dispersing plate (220).

14. The air outlet device according to claim 13, wherein the second driver (400) includes a driving motor (410), a gear (420) and a rack (430), the rack (430) is disposed on the mounting plate (210) and is disposed along the third direction, the driving motor (410) is disposed on the air outlet member (100) and is connected to the gear (420), and the gear (420) is meshed with the rack (430).

15. The air outlet device according to any one of claims 12-14, wherein, in case that the plurality of air diffusing through holes (221) are opposite to the air outlet (110), the air outlet (110) forms a projection area on the air diffusing member (200) in a direction toward the air diffusing member (200), the projection area is located in the air diffusing member (200), and the air diffusing member (200) is attached to the air outlet member (100).

16. An air conditioner comprising the air outlet device according to any one of claims 1 to 15.

Images