CN213747020U - Air diffusing module and air conditioner processing device with same - Google Patents

Abstract

The utility model discloses a wind module looses and air conditioner processing apparatus who has it, the wind module that looses includes: the air outlet panel is provided with an air outlet group, the air outlet group is provided with a central axis perpendicular to the air outlet panel, the air outlet group comprises at least two air outlet groups, the at least two air outlet groups are arranged around the central axis, and each air outlet group comprises at least two through single holes; the extending direction of the central shaft of the single hole is inclined relative to the central axis, and all the single holes of the same air outlet hole group have the same extending direction; the extending directions of all the air outlet groups of the same air outlet group are inclined in the same clockwise direction relative to the central axis. According to the utility model discloses the wind module that looses, the air current can produce the whirl behind the wind module that looses, and whirl air current wind is gentler for the whirl blows and can scatter after one section distance, thereby makes the whirl form nos wind sensation, if the whirl blows to the user when, can improve user's experience and feel, in addition, can also improve production efficiency.

Description

Air diffusing module and air conditioner processing device with same

Technical Field

The utility model belongs to the technical field of the air conditioning technique and specifically relates to a loose wind module and air conditioner processing apparatus who has it is related to.

Background

Among the correlation technique, the air conditioner has a plurality of vanes to make the structure complicated, in addition, the vane still needs the motor to drive its rotation, makes the vane swing reliability high inadequately, and the module weight that looses simultaneously is heavier, and a plurality of vanes slide from top to bottom and require the motor higher, can bring the rising of cost if using high-quality motor. Furthermore, the rotary vanes of the prior air diffusing module use a plurality of rotary vane gears to drive rotation, so that the assembly is complex and the production efficiency is low. When a plurality of rotary vanes move, the friction is large and the rotary vanes are easy to be blocked.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a wind module looses, the equipment step can be simplified to the wind module that looses, improves production efficiency, can also improve the reliability, reduces the fault rate, simultaneously, the air current can produce the whirl behind the wind module that looses, and whirl air current wind is gentler for can scatter after the whirl blows a section distance, thereby makes the whirl form the non-wind sense, if the whirl blows to the user when, can improve user's experience and feel.

The utility model discloses still provide one kind and have air conditioner processing apparatus of the module that looses wind.

According to the utility model discloses wind module looses in the embodiment of the first aspect, the wind module that looses includes: the air outlet panel is provided with an air outlet group, the air outlet group is provided with a central axis perpendicular to the air outlet panel, the air outlet group comprises at least two air outlet groups, the at least two air outlet groups are arranged around the central axis, and each air outlet group comprises at least two through single holes; the extending direction of the central shaft of the single hole is inclined relative to the central shaft, and all the single holes in the same air outlet hole group have the same extending direction; the extending directions of all the air outlet groups of the same air outlet group are inclined in the same clockwise direction relative to the central axis.

According to the utility model discloses air diffusing module, through forming at least one air outlet crowd on the air-out face, and make the relative central axis of extending direction of all air outlet groups of same air outlet crowd be same hour hand direction slope, and all haplopes of air outlet group have the same extending direction, make the air current from air-out panel one side behind the air-out panel, can form clockwise or anticlockwise whirl at the opposite side of air-out panel, and the whirl air current is when one section distance of direction activity towards keeping away from the air-out panel, the whirl air current can scatter gradually, make the distance that the whirl air current blows not far away from, thereby make the whirl air current gentle, can directly not blow to the user, or the air current velocity is lower when blowing to the user, the user basically can not perceive, and then make the air current through air diffusing module can form the sense of no wind.

In addition, according to the utility model discloses a loose wind module can also have following additional technical characterstic:

in some embodiments of the present invention, the air outlet group is opposite to the central axis, and the central axis is arranged in a central symmetry manner.

The utility model discloses an in some embodiments, the air outlet crowd is the polygon, and is same in the air outlet crowd the quantity of air outlet group with polygonal limit number equals, the central axis with triangle-shaped region between the polygon is unilateral forms one the air outlet group.

In some embodiments of the present invention, the air outlet panel is provided with at least one row of the air outlet group, so that the air outlet panel is formed as a grid plate.

Optionally, the outlet groups are polygonal, and two adjacent outlet groups share one side.

The utility model discloses an in some embodiments, the air-out panel is a plurality of, adjacent two on the air-out panel air-out hole crowd one-to-one sets up.

Optionally, the central axes of the corresponding air outlet groups on the two adjacent air outlet panels are overlapped, and the extending directions of all the air outlet groups of the corresponding two air outlet groups are inclined in the same clockwise direction relative to the central axes.

Optionally, the two corresponding air outlet groups are arranged in a one-to-one correspondence manner, and an included angle is formed between the extending directions of the two corresponding air outlet groups.

The utility model discloses still provide an air conditioner processing apparatus who looses wind module who has above-mentioned embodiment.

According to the utility model discloses air conditioner processing apparatus of second aspect embodiment includes: the air-conditioning unit comprises a unit body and an air-diffusing module, wherein the unit body is provided with an air outlet, and the air-diffusing module is arranged at the air outlet.

Therefore, the air dispersing module is arranged at the air outlet of the air conditioning treatment device, so that air flow in the air conditioning treatment device can form a rotational flow when entering the air dispersing module, and the rotational flow can be dispersed after being screwed out in the direction away from the air outlet and moving for a certain distance, so that the rotational flow is softer, a user cannot feel air conditioning air, and the condition that the air conditioning air directly blows to the user and the health of the user is damaged can be avoided.

Optionally, the air diffusing module is slidably disposed on the body, and is configured to block or avoid the air outlet.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of an air conditioning treatment apparatus according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic structural diagram of an embodiment of applying the air diffusing module of the embodiment of the present invention to a cabinet air conditioner;

fig. 4 is a schematic structural diagram of another embodiment of applying the air diffusing module of the embodiment of the present invention to a cabinet air conditioner;

fig. 5 is a schematic structural diagram of a wind module according to an embodiment of the present invention;

fig. 6 is an angled perspective view of a wind module according to an embodiment of the present invention;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6;

fig. 8 is a perspective view of another angle of the air dispersal module according to an embodiment of the present invention;

FIG. 9 is an enlarged view of area C of FIG. 8;

fig. 10 is a rear view of a wind module according to an embodiment of the present invention;

FIG. 11 is an enlarged view of area D of FIG. 10;

FIG. 12 is a cross-sectional view taken along line E-E of FIG. 10;

fig. 13 is a schematic view of the air outlet group of the air dispersing module forming a rotational flow according to the embodiment of the present invention.

Reference numerals:

a wind-dispersing module 100;

an air outlet panel 1;

an air outlet group 2; an air outlet group 21; a single aperture 211;

an air conditioning processing device 1000;

a body 200; an air outlet 201.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-13, the air dispersing module 100 according to the embodiment of the present invention is described below, the air dispersing module 100 can be disposed on the air conditioning processing apparatus 1000, so that the air generated in the air conditioner can generate a rotational flow when passing through the air dispersing module 100, the rotational flow can be dispersed after blowing a distance, and form a non-wind feeling, so that the body can not receive the air conditioner air, thereby preventing the cool air or hot air of the air conditioner from directly blowing to the body, which leads to the air conditioning disease of the user.

As shown in fig. 1 to 13, the air diffusing module 100 according to an embodiment of the present invention includes: at least one air outlet panel 1, be equipped with air outlet group 2 on the air outlet panel 1, air outlet group 2 has the central axis of perpendicular to air outlet panel 1, air outlet group 2 includes two at least air outlet group 21, two at least air outlet group 21 encircle the central axis and arrange, every air outlet group 21 all includes two at least haplopes 211 that link up, the relative central axis of the central axis extending direction of haplopore 211 inclines, all haplopes 211 of same air outlet group 21 have the same extending direction, the extending direction of all air outlet group 21 of same air outlet group 2, relative central axis is the slope of same hour hand direction.

That is, the air diffusing module 100 may include one air outlet panel 1, may also include two air outlet panels 1, and may also include three or more than three, which is not limited herein. The air outlet panel 1 may be provided with an air outlet group 2, and when the air diffusing module 100 includes a plurality of air outlet panels 1, each air outlet panel 1 may be provided with an air outlet group 2. Further, the air outlet panel 1 may be provided with one air outlet group 2, and may also be provided with two or more air outlet groups 2, which is not limited herein.

The air outlet group 2 may include two air outlet groups 21, the air outlet group 2 may also include three or more air outlet groups 21, the plurality of air outlet groups 21 may be disposed around the central axis, that is, the plurality of air outlet groups 21 may be disposed around the central axis, the plurality of air outlet groups 21 may also be disposed along the radial direction of the central axis, and the plurality of air outlet groups 21 may also be disposed along the radial direction of the central axis and around the central axis.

Further, each air outlet group 21 includes at least two through holes 211, that is, each air outlet group 2 may include at least two through holes 211, and the through holes 211 penetrate through the air outlet panel 1, so that the airflow on one side of the air outlet panel 1 may flow to the other side of the air outlet panel 1 through the through holes 211, and may be blown into the room to exchange heat.

For example, as shown in fig. 11, a certain included angle is formed between the hole extending direction of the single hole 211 and the central axis, that is, the hole extending direction of the single hole 211 is not parallel to the width direction of the air outlet panel 1, so that the airflow on one side of the air outlet panel 1 collides with the hole wall of the single hole 211 when entering the single hole 211, and the flow rate of the airflow can be reduced. There is the contained angle between the center axis of haplopore 211 and the central axis of air-out panel 1, and the pore wall of haplopore 211 forms the inclined plane promptly, and when the air current passed through haplopore 211, haplopore 211 can lead the air current to can form the inclined plane air current when making the air current spiral out haplopore 211, from this, the inclined plane air current of spiraling out from a plurality of haplopores 211 can constitute the whirl, when a plurality of haplopores 211 extended towards same hour hand direction, the whirl can rotate with clockwise or anticlockwise.

Wherein, the extending direction of all the single holes 211 of the same air outlet group 21 is consistent, specifically, the extending direction of all the single holes 211 is parallel to each other, and the included angle between the hole extending direction of all the single holes 211 and the central axis is equal. Further, the extending directions of all the outlet groups 21 of the same outlet group 2 are inclined in the same clockwise direction with respect to the central axis, that is, the extending directions of all the outlet groups 21 of the same outlet group 2 may be clockwise with respect to the central axis, and the extending directions of all the outlet groups 21 of the same outlet group 2 may also be counterclockwise with respect to the central axis. From this, the air current of air-out panel 1 one side is behind air-out panel 1, can form clockwise or anticlockwise whirl at air-out panel 1's opposite side, and the whirl air current is when moving for a distance towards the direction of keeping away from air-out panel 1, the whirl air current can scatter gradually, make the distance that the whirl air current blows not far away, thereby make the whirl air current softer, can directly blow to the user, or the air current velocity of flow is lower when blowing to the user, the user basically can not perceive, and then make the air current through air-dispersing module 100 can form the no wind sense for the user, user's travelling comfort is improved, and avoid the air current directly to blow to the user and can make the user feel uncomfortable, the user is directly blown by the air current simultaneously and can lead to the user to suffer from the air conditioning disease, influence user's health.

Specifically, when the air current of air-out panel 1 one side is when passing through haplopore 211 and moving to the opposite side of air-out panel 1, every air current that flows out from haplopore 211 can flow out haplopore 211 with the tangential direction on haplopore 211 limit to air-out hole crowd 2 can form around the clockwise or anticlockwise whirl of central axis, and the center of whirl is the low pressure vortex, and then make the air current that flows out from haplopore 211 when keeping away from air-out panel 1 activity, the whirl can move towards the center, thereby make the velocity of flow and the pressure reduction of whirl, and then make the whirl can scatter. Wherein, the air flows from the adjacent single holes 211 collide when moving, thereby reducing the flow velocity of the rotational flow and gradually dispersing the rotational flow.

According to the air diffusing module 100 of the embodiment of the present invention, by forming at least one air outlet hole group 2 on the air outlet surface, and the extending directions of all the air outlet groups 21 of the same air outlet group 2 are inclined in the same clockwise direction relative to the central axis, and all the single holes 211 of the outlet group 21 have the same extending direction, so that after the air flow from one side of the outlet panel 1 passes through the outlet panel 1, clockwise or anticlockwise rotational flow can be formed on the other side of the air outlet panel 1, and when the rotational flow air flow moves for a distance in the direction far away from the air outlet panel 1, the rotational flow air flow can be gradually dispersed, the distance of the rotational flow air flow can not be far away, so that the rotational flow air flow is soft and can not be directly blown to users, or the air flow velocity is low when the air is blown to the user and is basically imperceptible to the user, so that the air flow passing through the air dispersing module 100 can form a non-wind feeling.

In an example, be located a plurality of air outlet crowd 2 on same air-out panel 1, a plurality of air outlet crowd 2 can all follow clockwise or anticlockwise slope to make the whirl on the same air-out panel 1 all be clockwise or anticlockwise rotation, so that the distance that makes the whirl can move about is some scattering again far away, thereby can improve heat transfer effect.

In another example, two adjacent outlet groups 2 of the plurality of outlet groups 2 located on the same outlet panel 1 have different inclinations, that is, two adjacent outlet groups 2, one outlet group 2 inclines clockwise, and the other outlet group 2 inclines counterclockwise, so that when the two adjacent outlet groups 2 move in a direction away from the outlet panel 1, the airflows of the two adjacent outlet groups 2 may collide to scatter the rotational flow, thereby generating a non-wind effect of the outlet airflow.

In some embodiments of the present invention, the air outlet group 2 is arranged in a central symmetry manner with respect to the central axis, for example, as shown in fig. 11, a plurality of air outlet groups 21 in the air outlet group 2 are arranged in a central symmetry manner with respect to the central axis, so that when the air flows out of the air outlet groups 21, a rotational flow around the central axis can be formed.

In one example, the air outlet groups 21 are centrosymmetric with respect to the central axis, and meanwhile, the air outlet groups 21 are symmetric with respect to the X axis or the Y axis on the air outlet surface, so that the distance between two adjacent air outlet groups 21 is the same, and the swirl flowing out from the single hole 211 is uniformly distributed, so that the swirl can be better dispersed, and the problem that the distance between one air flow and the other air flows is long, so that the air flow cannot collide with the other air flows and directly blow to a user is solved.

The utility model discloses an in some embodiments, air outlet crowd 2 is the polygon, and the quantity of the air outlet group 21 in same air outlet crowd 2 is equal with polygonal limit number, and the central axis forms an air outlet group 21 with the triangle-shaped region between the polygon is unilateral.

For example, as shown in fig. 11, when the outlet group 2 is hexagonal, there are 6 outlet groups 21, and the central point of the hexagon is the central axis position, so that when the airflow is screwed out from the 6 outlet groups 21, 6 airflow can rotate around the central axis, and a low-pressure vortex is formed at the central axis.

In one example, a triangular area between the central axis and one side of the polygon forms an air outlet group 21, so that the aperture of the single hole 211 of the air outlet group 21 is gradually reduced in the direction close to the central axis of the air outlet group 21, thereby minimizing the aperture of the single hole 211 close to the central axis, further minimizing the air flow flowing out at the central axis, and further forming a central low-pressure vortex at the central axis, so that the air flow can better move toward the center, and the swirling pressure and flow velocity are reduced.

In another example, the outlet group 2 is a regular polygon, the central axis passes through the center of the regular polygon, and the triangular region between the central axis and one side of the regular polygon is composed of at least part of two outlet groups 21. That is, a portion of one of the air outlet groups 21 and a portion of the other air outlet group 21 are located in the triangular region together, so that the single hole 211 in the air outlet group 21 may have a certain included angle with the horizontal line, and the single hole 211 may be disposed toward the central axis, so that the swirling flow may be well formed and rotate around the central axis.

In one embodiment, the single hole 211 may be trapezoidal, triangular, or rectangular, or may form other polygons, and the shapes of the single holes 211 in the air outlet group 21 may be the same or different. The air outlet group 21 is formed by a plurality of single holes 211 with unequal shapes and sizes, and the single holes form a shape similar to a triangle. In addition, the size of the single hole 211 may be set according to practical situations, and is not limited.

In another embodiment, the single hole 211 may have a long hole shape, an oval shape, or the like, and other arc-shaped holes may be formed without limitation.

In an embodiment, at least one spiral air outlet group 2 is disposed on the air outlet panel 1, so that the air outlet panel 1 is formed as a grid plate, that is, the number of the air outlet groups 2 may be one, two or more, a grid may be formed on the air outlet panel 1 by disposing a plurality of air outlet groups 2, and an air flow may form a spiral flow through the grid and move in a direction away from the air outlet panel 1, so as to exchange heat.

In an example, a plurality of air outlet crowd 2 can set up along the length direction of air outlet panel 1, and the certain distance in interval between two adjacent air outlet crowd 2 to make the air current just can back out air treatment device through air outlet crowd 2, and not be equipped with the air current of air outlet crowd 2 regional contact with air outlet panel 1 and then can not back out, thereby can control the outflow of air current.

In another example, a plurality of air outlet groups 2 may be disposed along the length direction and the width direction of the air outlet panel 1, and there is no space between two adjacent air outlet groups 2, so that the air outlet panel 1 is integrally formed as a grid plate, and thus, when air flows into the air outlet panel 1, the air flows can be screwed out through the air outlet groups 2, and further, the heat exchange efficiency can be improved. The length direction of the air outlet panel 1 may be the left-right direction in fig. 8, and the width direction of the air outlet panel 1 may be the front-back right direction in fig. 8.

Optionally, the outlet groups 2 are polygonal, and two adjacent outlet groups 2 share one side, for example, as shown in fig. 7, two adjacent outlet groups 2 are adjacent to each other, and there is no spacing distance between two adjacent outlet groups 2. The weight of the air diffusing module 100 can be reduced by sharing one side of the two adjacent air outlet groups 2, so that the air diffusing module 100 can be conveniently installed on the air conditioning processing device 1000, and meanwhile, the air diffusing module 100 can conveniently move relative to the air conditioning processing device 1000, so that the swirling effect is improved. In addition, through two adjacent air outlet crowd 2 sharing one side, can also reduce and block the regional area that the air current circulated to air outlet panel 1 opposite side to can make there be more air current can the back-out, and then improve heat exchange efficiency.

The utility model discloses an in some embodiments, air-out panel 1 is a plurality of, 2 one-to-one settings of air-out hole crowd on two adjacent air-out panels 1, that is to say, when a plurality of air-out panels 1 set up along the fore-and-aft direction in figure 6, air-out hole crowd 2 that is equipped with on two consecutive air-out panels 1 can correspond from beginning to end, thereby make the air current flow through can get into the air-out hole crowd 2 that is located the rear side behind the air-out hole crowd 2 that is located the place ahead, and then make the air current through a plurality of air-out hole crowd 2 back that set up along the fore-and-aft direction, can screw out and can better heat transfer. It is understood that the plurality herein is two or more, and not limited.

In addition, through being equipped with a plurality of air-out panels 1 for when the air current was located the air-out panel 1 of rear side from the air-out panel 1 flow direction that is located the front side, can reduce the velocity of flow, thereby make the whirl velocity of flow that spirals out to indoor lower, prevent that high-speed rotatory whirl can directly blow to the user.

Optionally, the central axes of the corresponding air outlet groups 2 on the two adjacent air outlet panels 1 coincide, that is, the air outlet groups 2 are opposite in front and back, and the central axes of the two air outlet groups 2 coincide, further, the single holes 211 in the air outlet groups 2 opposite in front and back may be communicated, so that the air flow may be screwed out to the indoor for heat exchange after passing through the single holes 211.

In addition, the extending directions of all the outlet groups 21 of the two corresponding outlet groups 2 are inclined in the same clockwise direction with respect to the central axis, that is, if the outlet group 21 located at the front side extends in the clockwise direction, the outlet group 21 located at the rear side opposite to the outlet group 21 also extends in the clockwise direction. If the air outlet group 21 located on the rear side extends in the counterclockwise direction, the air outlet group 21 located on the front side opposite thereto also extends in the counterclockwise direction.

Optionally, the air outlet groups 21 of the two corresponding air outlet groups 2 are arranged in a one-to-one correspondence manner, and an included angle is formed between the extending directions of the two corresponding air outlet groups 21, so that the air current screwed out from the air outlet group 21 located on the front side can be screwed out along the tangential direction of the air outlet panel 1 and has a certain included angle with the air outlet group 21 in the process of passing through the two corresponding adjacent air outlet groups 2, and the included angle is formed between the extending directions of the two corresponding air outlet groups 21, so that the air current screwed out from the air outlet group 21 located on the front side can better enter the air outlet group 21 located on the rear side. If the extension side of two air outlet group 21 that correspond is the same, can make the air current that is located front side air outlet group 21 and screws out when getting into the air outlet group 21 that is located the rear side, can have certain contained angle with between the air outlet group 21 of rear side to lead to the air current can not screw out betterly.

The utility model discloses still provide an air conditioner processing apparatus 1000 that has the scattered wind module 100 of above-mentioned embodiment.

According to the utility model discloses air conditioner processing apparatus 1000 of second aspect embodiment includes: the air-cooling fan comprises a machine body 200 and an air-dispersing module 100, wherein the machine body 200 is provided with an air outlet 201, and the air-dispersing module 100 is arranged at the air outlet 201.

Therefore, the air diffusing module 100 is arranged at the air outlet 201 of the air conditioning processing device 1000, so that the airflow in the air conditioning processing device 1000 can form a rotational flow when entering the air diffusing module 100, and the rotational flow can be dispersed after being screwed out in the direction away from the air outlet 201 and moving for a distance, so that the rotational flow is softer, a user cannot feel air conditioning air, and the condition that the air conditioning air directly blows to the user and the health of the user is damaged can be avoided.

Optionally, the air diffusing module 100 is slidably disposed on the body 200 for shielding or avoiding the air outlet 201, that is, the air diffusing module 100 can slide relative to the body 200, for example, when the air conditioner processor is just opened and needs rapid cooling, the air diffusing module 100 can slide and avoid the air outlet, so that the air flow can be directly blown into the room for rapid cooling. When a person is in a room, the air diffusing module 100 is driven to move, the air outlet panel 1 of the air diffusing module 100 shields the air outlet 201, so that air flow needs to pass through the air diffusing module 100 when being discharged, the air flow can generate a rotational flow after passing through the air diffusing module 100, the rotational flow is rotated out for a certain distance and then is dispersed, and no wind feeling is generated.

In addition, the air diffusing module 100 is arranged at the air outlet, and the air diffusing module 100 can be driven to slide integrally, so that the air diffusing module 100 can rotate, the air diffusing module 100 can move between the position of shielding the air outlet 201 and the position of avoiding the air outlet 201, the assembling steps of the air diffusing module 100 can be simplified, and the production efficiency can be improved. Meanwhile, the air diffusing module 100 is driven to move integrally, so that the air diffusing module 100 can be more reliable in the moving process, and the phenomenon that the air diffusing module 100 cannot be used integrally due to the fact that the air diffusing module 100 fails in the moving process is avoided.

It can be understood that, in the related art, the plurality of rotary vanes are driven to move by arranging the plurality of rotary vanes at the air outlet 201 to adjust the wind direction, but when the plurality of rotary vanes are driven to move, a motor is required to drive the rotary vanes to rotate, so that the reliability of the rotation of the rotary vanes is not high, and meanwhile, the plurality of rotary vanes are heavy in weight, and the sliding up and down requires a large use of the motor used and causes the cost to rise. And the installation of a plurality of rotary vanes may reduce the assembly efficiency.

In one embodiment, at least one air dispersing module 100 is disposed at the air outlet 201 of the cabinet air conditioner, so that the air discharged from the cabinet air conditioner can generate a rotational flow when passing through the air dispersing module 100, and further, a non-wind feeling can be generated, thereby improving the user experience. For example, as shown in fig. 3, one air diffusing module 100 is disposed at the air outlet 201 of the cabinet air conditioner, for example, as shown in fig. 4, two air diffusing modules 100 are disposed at the air outlet 201 of the cabinet air conditioner, and certainly, a plurality of air diffusing modules 100 may be disposed on the cabinet air conditioner, and each air diffusing module 100 may extend in the up-down direction, the left-right direction, or other directions, so that the air flow swirling out from the air diffusing module 100 may improve the heat exchange efficiency, and the air flow directly blowing to the user may not be generated.

Other configurations and operations of the air conditioner processor according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "some embodiments," "optionally," "further," or "some examples," etc., mean 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer 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.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. An air dispersion module, comprising: the air outlet panel is provided with an air outlet group, the air outlet group is provided with a central axis perpendicular to the air outlet panel, the air outlet group comprises at least two air outlet groups, the at least two air outlet groups are arranged around the central axis, and each air outlet group comprises at least two through single holes;

the extending direction of the central shaft of the single hole is inclined relative to the central shaft, and all the single holes in the same air outlet hole group have the same extending direction;

the extending directions of all the air outlet groups of the same air outlet group are inclined in the same clockwise direction relative to the central axis.

2. The air dispersing module of claim 1 wherein the outlet groups are arranged in a central symmetry with respect to the central axis.

3. The diffuser module of claim 1, wherein the outlet groups are polygonal, the number of outlet groups in the same outlet group is equal to the number of sides of the polygon, and a triangular region between the central axis and a single side of the polygon forms one outlet group.

4. The air dispersing module of claim 1, wherein the outlet panel is provided with at least one row of outlet holes, so that the outlet panel is formed as a grid plate.

5. The air dispersing module of claim 4, wherein the air outlet groups are polygonal, and two adjacent air outlet groups share one side.

6. The air dispersing module of claim 1, wherein the plurality of air outlet panels are provided, and the air outlet groups on two adjacent air outlet panels are arranged in a one-to-one correspondence manner.

7. The air dispersing module of claim 6, wherein the central axes of the corresponding outlet groups of two adjacent outlet panels are coincident, and the extending directions of all the outlet groups of the corresponding two outlet groups are inclined in the same clockwise direction with respect to the central axes.

8. The air dispersing module of claim 7, wherein the air outlet groups of the two corresponding air outlet groups are arranged in a one-to-one correspondence manner, and an included angle is formed between the extending directions of the two corresponding air outlet groups.

9. An air conditioning treatment apparatus, comprising:

a body having an air outlet;

the air diffusing module is arranged at the air outlet and is according to any one of claims 1-8.

10. An air conditioning treatment unit according to claim 9, wherein said air diffusing module is slidably disposed on said body for blocking or avoiding said air outlet.

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