CN111964245A - Water baffle assembly and air conditioning unit - Google Patents

Abstract

The invention provides a water baffle assembly and an air conditioning unit. Wherein, the breakwater subassembly includes: a frame having a receiving area; the water baffles are arranged in the accommodating area and can be tiled and/or superposed and combined, the water baffles are provided with water retaining structures for retaining water, and all the water retaining structures have at least one shape. The invention solves the problems of insufficient space and resource waste caused by the additional installation of the water baffle when the water floating phenomenon occurs in the conventional air conditioning equipment.

Description

Water baffle assembly and air conditioning unit

Technical Field

The invention relates to the technical field of air conditioning equipment, in particular to a water baffle assembly and an air conditioning unit.

Background

At present, a water baffle is additionally arranged when the head-on wind speed is more than or equal to 2.5m/s, the thickness is usually between 80 and 150mm, but due to the restriction of factors such as space limitation and structural characteristics, when the average wind speed is not more than 2.5m/s, the local wind speed is more than 2.5m/s due to the reason that the wind speed on the surface of a heat exchanger is not distributed uniformly, the phenomenon of local water floating is caused, bacteria of a box body are bred, and even the phenomena of water drop caused by blowing of a fan, unit water leakage and the like occur. To this condition, because the service environment of air-out machine can't simulate completely, just also can't avoid the too big water problem that floats that leads to of above-mentioned local wind speed completely, and when floating the water problem and discover, fan product has already basically stereotyped usually, and the space in the box is very limited, and current breakwater has the resistance great, occupation space great scheduling difficulty, brings the difficulty for follow-up rectification of unit.

Disclosure of Invention

The invention mainly aims to provide a water baffle component and an air conditioning unit, and aims to solve the problems of insufficient space and resource waste caused by the addition of a water baffle in the air conditioning unit in the prior art.

In order to accomplish the above object, according to one aspect of the present invention, there is provided a water fence assembly including: a frame having a receiving area; the water baffles are arranged in the accommodating area and can be tiled and/or superposed and combined, the water baffles are provided with water retaining structures for retaining water, and all the water retaining structures have at least one shape.

Furthermore, the water retaining structures have various shapes, and the shapes of the water retaining structures on two adjacent water retaining plates are the same or different between the water retaining plates which are tiled and combined.

Further, in each water baffle of the superposed combination, the shapes of the water baffle structures on the water baffles of the odd number layers and the water baffle structures on the water baffles of the even number layers are respectively the same or different.

Furthermore, every breakwater all has a plurality of water retaining structure, and the interval sets up between each water retaining structure to form the gas passage that supplies gas to pass through, gas passage runs through the breakwater, and the water retaining structure is by bending type or integrated into one piece of bending, and at least some of water retaining structure stretches into in the gas passage, in order to hinder liquid to pass the breakwater.

Furthermore, the water retaining structure comprises a first section and a second section which are connected in sequence, the first section of each water retaining structure forms a gas channel at intervals, the second section extends into the gas channel, an included angle is formed between the first section and the second section, and an included angle is formed between the first section and/or the second section and the direction of the gas channel penetrating through the water retaining plate.

Further, the first section and/or the second section are flat plates or arc-shaped plates.

Further, the first section and the second section form an included angle of 70-110 degrees.

Further, the water retaining structure is provided with a fold structure, the fold structure extends into the gas channel, and the curvature radius of the fold structure is gradually increased along the direction that the gas channel penetrates through the water retaining plate.

Further, between each breakwater of tiling combination, along the direction of height, the breakwater divide into the multiunit, between adjacent two sets of breakwaters, the top of the high lower breakwater is provided with the upper portion board, and the bottom of the high higher breakwater is provided with the lower part board, and the interval sets up between upper portion board and the lower part board to form the cavity that holds liquid, the upper portion board is seted up and is supplied the last hole of liquid inflow cavity.

Furthermore, the lower plate is provided with a lower hole communicated with the cavity; or the side surface of the frame is provided with a drain hole communicated with the cavity.

Further, the splash plate assembly further includes a fastener disposed between the upper plate and the lower plate to secure the upper plate and/or the lower plate.

Further, the breakwater subassembly still includes the tripe, and the tripe is located the air-out side of breakwater, and the air-out direction of tripe can be adjusted.

Further, the tripe is a plurality of, and can the piecemeal tiling combination, and the breakwater subassembly still includes the water conservancy diversion post, and the water conservancy diversion post setting is between two tripes.

Further, the breakwater assembly further comprises: the cover plate is connected with the frame and can be covered above the water baffle; the cover plate is detachably connected with the frame through the locking structure; the bottom plate, bottom plate and frame attach to can shelter from the below of breakwater, the bottom plate has the trompil that supplies the liquid outflow.

Furthermore, a drainage groove is formed in the bottom of the frame and communicated with the opening, and liquid blocked by the water baffle is drained through the opening and the drainage groove.

Further, the both sides of frame have the installation arch of holding the region towards, and installation draw-in groove has been seted up to the both sides of breakwater, and installation draw-in groove can stretch into to the installation arch in to install the breakwater to holding in the region.

Further, the mounting protrusion has a guide slope, and the mounting groove is mounted to the mounting protrusion along a guide direction of the guide slope.

According to another aspect of the invention, an air conditioning unit is provided, which comprises the water baffle component.

By applying the technical scheme of the invention, the plurality of water baffles can be arranged, and the water baffles can be tiled and/or overlapped and combined, so that the water baffles can be correspondingly combined according to actual requirements, the thickness of the water baffle component can be adjusted according to the size of the residual space in the air conditioning unit even after the air conditioning unit is shaped, meanwhile, for the condition that the wind speeds of all positions of the air conditioning unit are different, the water baffles with different water baffle structures can be selected according to the local wind speeds of the air conditioning unit, so that the water baffles can play a sufficient water baffle role, and for the condition that the wind speed of only part is overlarge, the water baffles can be arranged only at the required positions. The above-mentioned mode of setting up not only can effectively avoid floating the emergence of water condition, can also make the whole thickness and the size isoparametric of breakwater assembly can suit with the actual conditions of wind field to reduce installation space, reduce the resistance, simultaneously can also reduce the size of breakwater assembly as far as possible, reduce the cost that sets up the breakwater, thereby reach the effect that optimizes the breakwater as far as possible, also can provide theoretical support and the experimental data of optimizing the model for the integrated breakwater production and processing of follow-up batch product.

Drawings

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

FIG. 1 illustrates a front view of one arrangement of the present invention of a breakwater assembly mounted on an air conditioning unit;

FIG. 2 illustrates a top view of the water dam assembly of FIG. 1;

FIG. 3 illustrates a bottom view of the splash plate assembly of FIG. 1;

FIG. 4 is a schematic view of the cover plate, locking structure and frame of the splash plate assembly of FIG. 1;

FIG. 5 shows a cross-sectional view of FIG. 2;

FIG. 6 shows an enlarged view at A in FIG. 5;

FIG. 7 shows an enlarged view at B in FIG. 5;

FIG. 8 shows an enlarged view at C in FIG. 5;

FIG. 9 shows an enlarged view at D in FIG. 5;

FIG. 10 is a front view of an alternative arrangement of the present breakwater assembly mounted on an air conditioning unit;

FIG. 11 illustrates a top cross-sectional view of the splash plate assembly of FIG. 10;

fig. 12 shows an enlarged view at E in fig. 11;

FIG. 13 illustrates a side view of the splash plate assembly of FIG. 10;

FIG. 14 shows an enlarged view at F in FIG. 13;

FIG. 15 illustrates a bottom view of the splash plate assembly of FIG. 10; and

fig. 16 shows an enlarged view at G in fig. 15.

Wherein the figures include the following reference numerals:

10. a frame; 11. mounting a boss; 111. a guide slope; 20. a water baffle; 21. a water retaining structure; 211. a first stage; 212. a second stage; 213. a corrugated structure; 22. a gas channel; 30. an upper plate; 40. a lower plate; 41. a lower hole; 50. a cavity; 61. louver blades; 62. a flow guide column; 70. a cover plate; 80. a locking structure; 90. a base plate; 91. and (6) opening holes.

Detailed Description

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

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless specified to the contrary, use of the terms of orientation such as "upper, lower, top, bottom" or the like, generally refer to the orientation as shown in the drawings, or to the component itself in a vertical, perpendicular, or gravitational orientation; likewise, for ease of understanding and description, "inner and outer" refer to the inner and outer relative to the profile of the components themselves, but the above directional words are not intended to limit the invention.

The invention provides a water baffle assembly and an air conditioning unit, and aims to solve the problems of insufficient space and resource waste caused by the fact that a water baffle is additionally arranged on the air conditioning unit in the prior art. The air conditioning unit is provided with the water baffle component.

1-16, a splash plate assembly comprising a frame 10 and a plurality of splash plates 20, the frame 10 having a receiving area; the water baffles 20 are arranged in the accommodating area, the water baffles 20 can be combined in a flat way and/or in a superposed way, the water baffles 20 are provided with water baffles 21 for retaining water, and all the water baffles 21 have at least one shape.

This embodiment is through being provided with a plurality of breakwaters 20, and can tiling combination and/or stack combination between each breakwater 20, thereby make breakwater 20 carry out corresponding combination according to the actual demand, even after air conditioning unit stereotypes, also can be according to the inside residual space size adjustment breakwater assembly's of air conditioning unit thickness, and simultaneously, to the different circumstances of air conditioning unit each department wind speed, can select breakwater 20 that has different manger plate structures 21 according to the local wind speed of air conditioning unit, in order to guarantee that breakwater 20 can play abundant manger plate effect, and to the too big circumstances of local wind speed only, can only set up breakwater 20 in the position department of needs. The above-mentioned mode of setting up not only can effectively avoid floating the emergence of water condition, can also make the whole thickness and the size isoparametric of breakwater board subassembly can suit with the actual conditions of wind field to reduce installation space, reduce the resistance, simultaneously can also reduce the size of breakwater board subassembly as far as possible, reduce the cost that sets up breakwater 20, thereby reach the effect that optimizes as far as possible and set up breakwater 20, also can provide the theoretical support and the test data of optimizing the model for the integrated breakwater production and processing of follow-up batch product.

The water retaining structure 21 of the present embodiment has various shapes so as to be reasonably selected according to the actual situation of the wind field. The water baffle 20 is divided into a plurality of types according to the shapes of the water blocking structures 21 on the water baffle 20, each type of water baffle 20 can be provided with a plurality of water baffles, the embodiment takes the water blocking structure 21 which is only provided with one type of shape on each water baffle 20 as an example for explanation, in this way, the water baffles 20 with the same type of water baffle structures 21 are of the same type, the water baffles 20 with different types of water baffle structures 21 are of different types, the water baffles of different types are combined, namely the arrangement of the water baffle structures 21 is combined, and the arrangement of the water baffle structures 21 can be matched with the local actual wind speed of the air conditioning unit. Of course, a plurality of water baffles 21 may be provided on one water baffle 20, but such an arrangement may cause a problem that the plurality of water baffles 21 cannot be adapted to the actual wind speed of each place of the air conditioning unit at the same time, and is not beneficial to reducing the cost, so the arrangement mode of the embodiment is preferred.

In the embodiment, the shapes of the water baffles 21 on two adjacent water baffles 20 are the same or different between the water baffles 20 of the tiled combination.

Specifically, the tiling combination is divided into two kinds of mode of setting, one kind is the extension of same kind of manger plate structure 21, two breakwaters 20 of the same kind tile in the coplanar promptly to increase the coverage area of this kind of manger plate structure 21, another kind is the combination of different kind of manger plate structures 21, two breakwaters 20 of different kinds tile in the coplanar promptly, thereby change the shape of the manger plate structure 21 that the different regions of air conditioning unit installed, make the actual air-out condition looks adaptation of the shape of manger plate structure 21 and the different positions of air conditioning unit. Generally speaking, because the air outlet conditions of the air conditioning unit are different, the two setting manners may be used simultaneously, that is, the shapes of the water blocking structures 21 on two adjacent water blocking plates 20 may be the same or different, but the shapes of the water blocking structures 21 on two adjacent water blocking plates 20 may be different. It should be noted that, in both of the above two setting modes, the water baffle 20 is tiled in the same plane, so that the area of the whole surface formed by the water baffle 20 can cover the air outlet to be shielded on the air conditioning unit, thereby ensuring the reliability of the water baffle function.

The tiling combination of different kinds of retaining structures 21 can satisfy actual complicated operating mode, solves air conditioning unit local wind speed too big, local serious scheduling problem that floats water, avoids a sword to cut the phenomenon, and targeted control reduces the material waste as far as possible, has the guide meaning to the sample trial-manufacture before the mass production, effectively promotes the energy-conserving cost reduction of product.

In the embodiment, the overlapping combination means that the water baffles 20 are sequentially overlapped according to the thickness direction thereof, and the shapes of the water baffles 21 on the water baffles 20 of the odd-numbered layers and the even-numbered layers are respectively the same or different between the water baffles 20 of the overlapping combination, preferably, the shapes of the water baffles 21 of the odd-numbered layers and the even-numbered layers are respectively the same, that is, the water baffles 21 on the water baffles 20 of the first, third and fifth … layers are the same and are in one shape, and the water baffles 21 on the water baffles 20 of the second, fourth and sixth … layers are the same and are in another shape, so that the water baffles 20 can play a better water-blocking role after being overlapped and combined.

The thickness of the water baffle 20 of the embodiment is 15-25mm, which can be adjusted according to the actual situation, and when the water quantity is not large or the structure is compact, the thickness is preferably small, and when the water baffles 20 are overlapped and combined, the number of the overlapped water baffles is not more than six. The water baffle 20 can be made of glass fiber reinforced plastic, PVC, aluminum alloy, stainless steel, ABS plastic, etc. according to actual conditions.

The setting mode of the tiling combination and the stacking combination can be set in one mode or in two modes, and the specific setting mode can be determined according to the remaining space of the air conditioning unit, the minimum quantity required for solving the water floating problem and other factors.

As shown in fig. 5 to 8, each water guard 20 has a plurality of water guard structures 21, the water guard structures 21 are arranged at intervals and form a gas passage 22 for gas to pass through, the gas passage 22 penetrates through the water guard 20, the water guard structures 21 are formed by bending or integrally forming a bent plate, the specific mode can be determined according to the material of the water guard 20, the width direction of the water guard structures 21 is substantially the same as the direction in which the gas passage 22 penetrates through the water guard 20, and at least one part of the water guard structures 21 extends into the gas passage 22 to block liquid from passing through the water guard 20.

The water retaining structure 21 can be bent in various ways, and the embodiment includes the following ways:

in a first mode

As shown in fig. 6 and 8, the water-blocking structure 21 includes a first section 211 and a second section 212 connected in sequence, the first section 211 of each water-blocking structure 21 forms the gas channel 22 at intervals, the second section 212 extends into the gas channel 22, an included angle is formed between the first section 211 and the second section 212, and an included angle is formed between the first section 211 and/or the second section 212 and the direction of the gas channel 22 penetrating through the water-blocking plate 20. The first section 211 and the second section 212 form an approximately hook-shaped structure, the opening of the hook-shaped structure faces the wind inlet side of the water baffle component, the length of the first section 211 is larger than that of the second section 212, the first section 211 plays a role in main body supporting, partitioning and water retaining, and the second section 212 plays a role in water retaining. Thus, when the air mixed with water passes through the water guard 20, the flow path of the wind is easily changed, so that the wind can easily pass through the gas passage 22, and the water is attached to the water guard structure 21 under the inertia effect and flows down along the water guard structure 21 under the gravity effect, thereby realizing water guard.

Optionally, the first section 211 and/or the second section 212 are flat plates or arc plates. The flat plate structure facilitates the processing of the water retaining structure 21, as shown in fig. 8; the structure of the arc-shaped plate makes the water blocking effect of the water blocking structure 21 more effective, as shown in fig. 6. The specific structure can be selected according to actual conditions.

Preferably, the first section 211 and the second section 212 form an included angle of 70 ° to 110 °.

Mode two

As shown in fig. 7, the water retaining structure 21 has a corrugated structure 213, the corrugated structure 213 extends and bends outwards from the side of the water retaining structure 21 and extends into the gas passage 22, and the radius of curvature of the corrugated structure 213 increases gradually along the direction that the gas passage 22 penetrates the water retaining plate 20, generally between 6 and 10 folds, so that the water blocking effect of the corrugated structure 213 is gradually enhanced as the air flows through the water retaining plate 20, thereby ensuring a good water retaining effect.

The two water retaining structures 21 can both play a good water retaining role, and of course, the water retaining structures 21 in other forms can be arranged according to needs, or both the two water retaining structures can be improved.

Because the water baffle assembly is generally vertically arranged, a combination mode of horizontal laying and vertical laying is adopted in the tiling combination, for the horizontal laying, the water baffles 20 can be directly connected or arranged at intervals according to the air outlet condition of the air conditioning unit, the direct connection is shown in fig. 11 and 12, and the interval arrangement is shown in fig. 5; for the vertical laying, similar to the horizontal laying, the water baffles 20 may be directly connected to each other or may be spaced apart from each other, and for the vertical laying, the spacing may be fully utilized to facilitate the drainage of water.

Specifically, as shown in fig. 10, 13 and 14, between the water baffles 20 of the tiled combination, along the height direction, the water baffles 20 are divided into a plurality of groups, between two adjacent groups of water baffles 20, an upper portion plate 30 is disposed on the top of the water baffle 20 with a lower height, a lower portion plate 40 is disposed on the bottom of the water baffle 20 with a higher height, and the upper portion plate 30 and the lower portion plate 40 are disposed at intervals to form a cavity 50 for accommodating liquid, the upper portion plate 30 is provided with an upper hole for the liquid to flow into the cavity 50, so that the water stopped by the water baffle 20 with a higher height can flow downwards into the cavity 50 along the water baffle 20 and then be uniformly discharged from the cavity 50.

Alternatively, as shown in fig. 15 and 16, the lower plate 40 is opened with a lower hole 41 communicating with the cavity 50 to facilitate the drainage of the water in the cavity 50. Of course, a drainage hole communicating with the cavity 50 may be opened at a side surface of the frame 10 to separately drain the water in the cavity 50.

Optionally, the splash plate assembly further includes fasteners disposed between the upper plate 30 and the lower plate 40 to secure the upper plate 30 and/or the lower plate 40. The fastener is preferably an L-shaped or C-shaped bent pressing sheet, the L-shaped or C-shaped bent pressing sheet is arranged on the upper plate 30, the C-shaped bent pressing sheet is arranged on the lower plate 40, and the two bent pressing sheets are in press fit through a butterfly nut so as to fix the upper plate 30 and the lower plate 40.

As shown in fig. 5, the breakwater assembly further includes a louver 61, the louver 61 is located on the air outlet side of the breakwater 20, and the air outlet direction of the louver 61 can be adjusted. The resistance can be adjusted through the arrangement of the louvers 61, the local wind field can be changed, the purpose of optimizing the flow field is achieved, particularly when the louvers are close to the air conditioning unit, the louvers have an effective flow field adjusting effect, and uniform heat exchange of the heat exchanger is guaranteed.

Similar to the water baffle 20 blocking arrangement, the louver 61 is a plurality of, and can be according to the horizontal or vertical blocking tiling combination of flow field condition to air-out control better, the water baffle subassembly still includes the guide post 62, as shown in fig. 6-8, the guide post 62 sets up between two louvers 61, in order to play support and adjustment effect to the louver 61.

As shown in fig. 2 to 4, the breakwater assembly further includes a cover plate 70, a locking structure 80 and a bottom plate 90, wherein the cover plate 70 is connected to the frame 10 and can be covered on the uppermost portion of the breakwater 20; the cover plate 70 is detachably connected with the frame 10 through a locking structure 80; the bottom plate 90 is connected to the frame 10 and covers the lowermost portion of the splash plate 20, and the bottom plate 90 has an opening 91 through which liquid flows. During installation, the water baffles 20 are sequentially inserted into the accommodating area along the vertical direction, the cover plate 70 is covered above the water baffles 20, and the cover plate 70 is locked on the frame 10 through the locking structure 80. The locking structure 80 can be locked by a plurality of methods such as a buckle and a lock. The opening 91 on the bottom plate 90 is helpful for discharging the water obtained by the water baffle 20 out of the water baffle 20, so that water accumulation in the water baffle 20 is avoided, and the continuous use of the water baffle assembly is realized.

In addition, the bottom of the frame 10 is opened with a drainage channel, the drainage channel is communicated with the opening 91, and the liquid blocked by the water baffle 20 is discharged to a special water pan through the opening 91 and the drainage channel.

As shown in fig. 5 and 9, both sides of frame 10 have installation bulge 11, installation bulge 11 is protruding in the region towards holding to have certain length along vertical direction, installation clamping groove has been seted up to breakwater 20's both sides, during the installation, stretch into installation clamping groove to installation bulge 11 in, and promote breakwater 20 along the protruding length direction of installation bulge 11 vertical direction motion promptly, can be with breakwater 20 stable installation in the region of holding, avoid the gas circulation process to cause the condition of breakwater 20 vibrations simultaneously.

Optionally, the mounting protrusion 11 has a guiding inclined plane 111, and the guiding inclined plane 111 is inclined to a direction close to the axis of the mounting protrusion 11 along the direction in which the mounting protrusion 11 extends into the receiving area, so that the mounting slot can be mounted on the mounting protrusion 11 along the guiding direction of the guiding inclined plane 111, thereby facilitating the mounting operation. And if necessary, a rubber layer can be arranged on the contact surface between the mounting clamping groove and the mounting bulge 11, so that the effects of sealing, sound insulation and vibration prevention are achieved.

It should be noted that, a plurality in the above embodiments means at least two.

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

1. the problems of insufficient space and resource waste caused by the additionally arranged water baffle of the air conditioning unit in the prior art are solved;

2. the water baffles can be correspondingly combined according to actual requirements, and the thickness of the water baffle assembly can be adjusted according to the size of the residual space in the air conditioning unit;

3. the water baffles with different water retaining structures can be selected according to the local wind speed of the air conditioning unit so as to ensure that the water baffles can play a sufficient water retaining role;

4. while the water floating condition is effectively avoided, the parameters of the water baffle plate assembly, such as the whole thickness, the size and the like, can be adapted to the actual condition of the air conditioning unit, so that the installation space is reduced, and the resistance is reduced;

5. the size of the water baffle assembly is reduced as much as possible, and the cost for arranging the water baffle is reduced;

6. through the test design of breakwater subassembly, optimize the breakwater type, as an organic whole formula breakwater's production and processing provides theoretical support and experimental data

It is to be understood that the above-described embodiments are only a few, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

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

Claims (18)

1. A breakwater assembly, comprising:

a frame (10), the frame (10) having a receiving area;

the water baffle plates (20) are arranged in the accommodating area, the water baffle plates (20) can be tiled and/or overlapped, the water baffle plates (20) are provided with water baffle structures (21) for water baffle, and all the water baffle structures (21) have at least one shape.

2. The splash plate assembly of claim 1, wherein said splash structure (21) has a plurality of shapes, and the shapes of the splash structures (21) on two adjacent splash plates (20) are the same or different between the splash plates (20) in a tiled combination.

3. The splash plate assembly of claim 1, wherein the splash plate structures (21) on the splash plates (20) of the odd and even tiers are identical or different in shape from one another in each of said splash plates (20) in the stacked combination.

4. The water deflector assembly according to claim 1, wherein each water deflector (20) is provided with a plurality of water deflector structures (21), the water deflector structures (21) are arranged at intervals and form gas channels (22) for gas to pass through, the gas channels (22) penetrate through the water deflector (20), the water deflector structures (21) are formed by bending or integrally forming bent plates, and at least one part of the water deflector structures (21) extends into the gas channels (22) to block liquid from passing through the water deflector (20).

5. The water deflector assembly according to claim 4, characterized in that the water deflector (21) comprises a first section (211) and a second section (212) which are connected in sequence, the first section (211) of each water deflector (21) is spaced to form the gas channel (22), the second section (212) extends into the gas channel (22), an included angle is formed between the first section (211) and the second section (212), and an included angle is formed between the first section (211) and/or the second section (212) and the direction of the gas channel (22) penetrating through the water deflector (20).

6. Breakwater plate assembly according to claim 5, characterized in that said first section (211) and/or said second section (212) are flat or curved plates.

7. Splash plate assembly according to claim 5, characterized in that the first section (211) and the second section (212) form an angle of 70 ° to 110 °.

8. The water deflector assembly according to claim 4, characterized in that the water deflector (21) has a corrugated structure (213), the corrugated structure (213) extending into the gas passage (22), and the radius of curvature of the corrugated structure (213) gradually increases in a direction in which the gas passage (22) penetrates the water deflector (20).

9. The water baffle plate assembly of claim 1, wherein the water baffle plates (20) are divided into a plurality of groups along the height direction between the water baffle plates (20) in the tiled combination, an upper plate (30) is arranged on the top of the water baffle plate (20) with a lower height between two adjacent groups of the water baffle plates (20), a lower plate (40) is arranged on the bottom of the water baffle plate (20) with a higher height, and the upper plate (30) and the lower plate (40) are arranged at intervals to form a cavity (50) for containing liquid, and the upper plate (30) is provided with an upper hole for liquid to flow into the cavity (50).

10. The splash plate assembly of claim 9, wherein said lower plate (40) defines a lower aperture (41) in communication with said cavity (50); or the side surface of the frame (10) is provided with a drain hole communicated with the cavity (50).

11. The splash plate assembly of claim 9, further comprising a fastener disposed between said upper plate (30) and said lower plate (40) to secure said upper plate (30) and/or said lower plate (40).

12. The breakwater assembly of claim 1, further comprising a louver (61), wherein the louver (61) is located on the air outlet side of the breakwater (20), and the air outlet direction of the louver (61) can be adjusted.

13. The breakwater assembly of claim 12, wherein said louvers (61) are plural and capable of being combined in a tiled manner, and further comprising a flow guide post (62), said flow guide post (62) being disposed between two of said louvers (61).

14. The breakwater assembly of claim 1, further comprising:

the cover plate (70), the said cover plate (70) is connected with said frame (10), and can cover and set up above the said splash board (20);

the cover plate (70) is detachably connected with the frame (10) through the locking structure (80);

the bottom plate (90) is connected with the frame (10) and can shield the lower part of the water baffle plate (20), and the bottom plate (90) is provided with an opening (91) for liquid to flow out.

15. The breakwater assembly according to claim 14, wherein a drain groove is formed at the bottom of the frame (10), the drain groove is communicated with the opening (91), and the liquid blocked by the breakwater (20) is drained through the opening (91) and the drain groove.

16. The splash plate assembly according to claim 1, wherein the frame (10) has mounting protrusions (11) facing the receiving area on both sides, and the splash plate (20) has mounting slots on both sides, the mounting slots being capable of extending into the mounting protrusions (11) to mount the splash plate (20) in the receiving area.

17. Breakwater assembly according to claim 16, characterized in that the mounting boss (11) has a guiding bevel (111), and the mounting groove is mounted to the mounting boss (11) in a guiding direction of the guiding bevel (111).

18. An air conditioning assembly comprising a water dam assembly as claimed in any one of claims 1 to 17.

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