CN213020265U - Machine in breakwater structure and air conditioning - Google Patents

Abstract

The utility model discloses a water baffle structure and an air-conditioning indoor unit, wherein the water baffle structure comprises a square frame, a water baffle plate and a water baffle plate, wherein the square frame comprises a top plate, a bottom plate, a left baffle plate and a right baffle plate; a plurality of slide ways are arranged at intervals, and each slide way is parallel to the top plate; the left end and the right end of the slideway are correspondingly detachably connected with the left baffle and the right baffle; the slideway comprises an upper slideway and a lower slideway, the opening of the upper slideway faces to the top plate, and the opening of the lower slideway faces to the bottom plate; the water-retaining plates are arranged on the upper slideway and the lower slideway of the slideway in a sliding manner respectively. By designing the square frame and the slide way, a proper number of water baffles are selected to be arranged on the slide way, so that the condensate water is shielded; the water baffle can be produced in a modularized manner, so that the production cost of the water baffle is reduced, the production efficiency is improved, the production and purchase periods are shortened, the replaceability is strong, and the transportation cost is low; the problem of different heat exchanger models need process the different size breakwaters is solved, breakwaters and slide sliding connection, simple to operate moreover.

Description

Machine in breakwater structure and air conditioning

Technical Field

The utility model relates to a breakwater technical field especially relates to a machine in breakwater structure and air conditioning.

Background

When the combined air conditioner is used in the area with high wind speed and high humidity, the condensed water on the surface air cooler can float to the outside of the water pan, under the condition, a water baffle is usually added at the rear end of the surface air cooler to shield the condensed water, and the condensed water is prevented from floating to the outside of the water pan.

The size of the existing water baffle is designed according to the size of a surface cooler, and the water baffle is in a nonstandard size, needs to be customized specially, and is high in manufacturing cost, long in production period and poor in replaceability.

Disclosure of Invention

The utility model provides a breakwater structure, the cost is reduced.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

a water baffle structure comprises a water baffle plate, a water baffle plate and a water baffle plate, wherein,

the square frame comprises a top plate, a bottom plate, a left baffle plate and a right baffle plate;

the plurality of slideways are distributed at intervals, and each slideway is parallel to the top plate; the left end and the right end of the slideway are correspondingly detachably connected with the left baffle and the right baffle; the slideway comprises an upper slideway and a lower slideway, the opening of the upper slideway faces to the top plate, and the opening of the lower slideway faces to the bottom plate;

the water baffle plates are square; the upper slideway and the lower slideway of the slideway are respectively provided with a plurality of water baffles in a sliding way.

Further, the slideway comprises a strip-shaped plate; the front end surface of the strip-shaped plate extends upwards to form a first upper folding edge and extends downwards to form a first lower folding edge; the rear end face of the strip-shaped plate extends upwards to form a second upper folded edge and extends downwards to form a second lower folded edge; the first upper folded edge, the top end face of the strip-shaped plate and the second upper folded edge form the upper slideway; the first lower folded edge, the bottom end face of the strip-shaped plate and the second lower folded edge form the lower slideway.

Still further, the first upper folded edge is divided into three sections along the length direction: the first upper folding edge is bent towards the horizontal direction and is parallel to the top end face of the strip-shaped plate; the first downward folding edge is divided into three sections along the length direction: the first lower hem in the middle is bent to the horizontal direction and is parallel to the bottom end face of the strip-shaped plate.

Furthermore, the left end surface of the strip-shaped plate extends upwards to form a first left stop plate, and extends downwards to form a second left stop plate; the right end face of the strip-shaped plate extends upwards to form a first right stop plate, and extends downwards to form a second right stop plate.

Still further, a plurality of reinforcing plates are fixed on the rear end face of the strip-shaped plate.

Furthermore, two ends of the front end surface and two ends of the rear end surface of the strip-shaped plate are respectively fixed with an L-shaped connecting plate; the L-shaped connecting plate is fixed with the left baffle or the right baffle.

Still further, the front end surface of the top plate extends downwards to form an upper stop plate, and the front end surface of the bottom plate extends upwards to form a lower stop plate.

Furthermore, the top plate is an upper protection plate of the heat exchanger, and the bottom plate is a lower protection plate of the heat exchanger.

Still further, the water baffle comprises a square frame and a plurality of louvers which are fixed in the square frame and are arranged at intervals, and each louver is perpendicular to the bottom edge of the square frame.

Based on the design of above-mentioned breakwater structure, the utility model also provides an indoor set of air conditioning, including the heat exchanger and the breakwater structure, the breakwater structure is laid the lee side department of heat exchanger.

Compared with the prior art, the utility model discloses an advantage is with positive effect: the utility model discloses a breakwater structure and air-conditioning indoor unit, through designing square frame and slide, select the breakwater of suitable quantity to install on the slide to realize sheltering from the comdenstion water; the water baffle can be produced in a modularized manner, so that the production cost of the water baffle is reduced, the production efficiency is improved, the production and purchase periods are shortened, the replaceability is strong, and the transportation cost is low; the problem of different heat exchanger models need process the different size breakwaters is solved, breakwaters and slide sliding connection, simple to operate moreover.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an embodiment of a water baffle structure of the present invention;

FIG. 2 is a schematic view of the structure of the chute of FIG. 1;

FIG. 3 is a schematic view of the left end of the slide of FIG. 2;

FIG. 4 is a schematic view of the right end of the slide of FIG. 2;

FIG. 5 is a schematic view of the structure of the reinforcement plate of FIG. 2;

FIG. 6 is a schematic view of the construction of the top plate of FIG. 1;

FIG. 7 is a schematic view of the structure of the water guard plate;

FIG. 8 is a schematic view of the assembly of the square frame with the splash plate.

Reference numerals:

p, a heat exchanger;

10. a square frame; 11. a top plate; 12. a base plate; 13. a left baffle; 14. a right baffle;

15. an upper stop baffle; 16. a lower stopper plate;

20. a slideway; 21. an upper slideway, 22 and a lower slideway; 23. a strip plate;

24. a first upper hem; 24-1, a left first upper fold; 24-2, a middle first upper folded edge; 24-3, a right first upper folded edge;

25. a first lower folded edge; 25-1, folding the left first lower edge; 25-2, folding the middle first lower edge; 25-3, folding the right first lower edge;

26. a second upper folded edge; 27. a second lower hem;

28. a reinforcing plate; 29. an L-shaped connecting plate; 30. an L-shaped connecting plate; 31. an L-shaped connecting plate; 32. an L-shaped connecting plate;

33. a second left stopper plate; 34. a first right stopper plate; 35. a second right stopper plate;

40. a water baffle; 41. a frame; 42. and (4) louver.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, 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 by those skilled in the art according to specific situations.

The embodiment provides a water baffle structure for shielding condensed water, and the condensed water generated by a heat exchanger is prevented from floating outside a water pan. The splash plate structure mainly comprises a square frame 10, a plurality of slideways 20 and a plurality of splash plates 40, and is shown in figures 1 to 8.

The square frame 10 comprises a top plate 11, a bottom plate 12, a left baffle plate 13 and a right baffle plate 14; the top plate 11, the left baffle 13, the bottom plate 12 and the right baffle 14 are connected in sequence to form a square frame 10.

The plurality of slideways 20 are arranged in parallel at intervals, and each slideway 20 is parallel to the top plate 11; the left end of the slideway 20 is detachably connected with the left baffle 13, so that the slideway 20 can be conveniently disassembled and assembled; the right end of the slide way 20 is detachably connected with the right baffle 14, so that the slide way 20 can be conveniently disassembled and assembled. The chute 20 includes an upper chute 21 and a lower chute 22, the upper chute 21 opening toward the top plate 11, and the lower chute 22 opening toward the bottom plate 12. The length of the slideway 20 is greater than that of the water baffle 40, and at least one water baffle can be arranged on each of the upper slideway and the lower slideway.

Each water baffle 40 is square, the upper slideway 21 of the slideway 20 is provided with a plurality of water baffles 40 in a sliding way, and the lower slideway 22 of the slideway 20 is provided with a plurality of water baffles 40 in a sliding way.

If the slideway is designed to be one, an installation space of the water baffle is formed between the upper slideway and the top plate 11, and an installation space of the water baffle is formed between the lower slideway and the bottom plate 12. When the water baffle is arranged on the upper slideway, the bottom end surface of the water baffle is abutted against the upper slideway, and the top end surface of the water baffle is abutted against the top plate 11. When the water baffle is arranged on the lower slideway, the top end surface of the water baffle is abutted against the lower slideway, and the bottom end surface of the water baffle is abutted against the bottom plate 12.

If there are more than one ramp, the ramp adjacent to the top plate 11 is called the top ramp, the ramp adjacent to the bottom plate 12 is called the bottom ramp, and the remaining ramps are called the middle ramps.

An installation space of the water baffle is formed between the upper slideway of the top slideway and the top plate 11, and an installation space of the water baffle is formed between the lower slideway of the top slideway and the upper slideway of the adjacent slideway.

An installation space of the water baffle is formed between the upper slideway of the middle slideway and the lower slideway adjacent to the upper slideway, and an installation space of the water baffle is formed between the lower slideway of the middle slideway and the upper slideway adjacent to the upper slideway.

An installation space of the water baffle is formed between the upper slideway of the bottom slideway and the lower slideway of the adjacent slideway, and an installation space of the water baffle is formed between the lower slideway of the bottom slideway and the bottom plate 12.

The water baffle is designed in a modularized processing way, the size of the water baffle can be the same, for example, all the water baffles are designed to be 50mm multiplied by 50 mm; the water baffle with several sizes can also be designed, such as 50mm multiplied by 50mm, 50mm multiplied by 100mm and the like.

According to the size of the heat exchanger, the length and the width of the square frame 10 and the length of the slide ways are designed, the number of the slide ways and the size and the number of the water baffle plates are selected, and the selected water baffle plates are installed on the slide ways and used for effectively shielding the condensed water. Therefore, in the water baffle structure of the embodiment, by designing the square frame and the slide way, a proper number of water baffles are selected to be arranged on the slide way, so that the condensed water is shielded; the water baffle can be produced in a modularized manner, so that the production cost of the water baffle is reduced, the production efficiency is improved, the production and purchase periods are shortened, the replaceability is strong, and the transportation cost is low; the problem of different heat exchanger models need process the different size breakwaters is solved, breakwaters and slide sliding connection, simple to operate moreover.

The length and the width of the square frame and the length of the slide way are designed according to the size of the heat exchanger, the water baffle plate is simpler and easier to process than a new water baffle plate, and the length and the width of the square frame can be changed by changing the lengths of the top plate 11, the bottom plate 12, the left baffle plate 13 and the right baffle plate 14; and the slide is cut according to the required length.

For example, the water guard plate modular processing design is designed with water guard plates of 9 sizes, and the length (mm) and the width (mm) are respectively: 610 × 610, 610 × 508, 610 × 305, 508 × 610, 508 × 508, 508 × 305, 305 × 610, 305 × 508, 305 × 305; the thickness of the material can be designed to be different according to different materials. According to the actual size of the heat exchanger, the size of the square frame 10 and the length of the slide way are designed, one slide way and water baffles with 6 sizes are selected, the water baffles are arranged on the upper slide way or the lower slide way, and as shown in fig. 8, the sizes of the 6 water baffles are respectively as follows: 610, 305; 508 × 305; 305 × 305; 610 and 610; 610 × 508; sixthly, 305 and 610.

In the present embodiment, as shown in fig. 2 to 5, the chute 20 comprises a strip 23, and the strip 23 is horizontally arranged.

The front end surface of the strip-shaped plate 23 extends upwards to form a first upper folding edge 24, and the front end surface of the strip-shaped plate 23 extends downwards to form a first lower folding edge 25.

The rear end face of strip 23 extends upward to form a second upper hem 26, and the rear end face of strip 23 extends downward to form a second lower hem 27.

The first upper folding edge 24, the top end surface of the strip-shaped plate 23 and the second upper folding edge 26 form an upper slideway 21; the bottom end face of the water baffle is in sliding connection with the top end face of the strip-shaped plate 23, and the first upper folding edge 24 and the second upper folding edge 26 play a role of limiting and stopping to prevent the water baffle from sliding out of the upper slideway 21.

The first lower folding edge 25, the bottom end face of the strip-shaped plate 23 and the second lower folding edge 27 form a lower slideway 22; the top end face of the water baffle is in sliding connection with the bottom end face of the strip-shaped plate 23, and the first lower folding edge 25 and the second lower folding edge 27 play a role of limiting and stopping to prevent the water baffle from sliding out of the lower slideway 22.

Through designing foretell slide, can realize with the sliding connection of breakwater, moreover, the structure is fairly simple, with low costs, be convenient for realize.

Referring to fig. 2, the first upper folded edge 24 is divided into three sections along the length direction thereof: the left first upper folding edge 24-1, the middle first upper folding edge 24-2 and the right first upper folding edge 24-3, wherein the middle first upper folding edge 24-2 is bent towards the horizontal direction to be parallel to the top end face of the strip-shaped plate 23 so as to be convenient for taking and placing the water baffle and discharging condensed water; the length of the middle first upper folding edge 24-2 is larger than that of the water baffle, so that the water baffle can conveniently enter the upper slideway from the middle first upper folding edge 24-2.

Referring to fig. 2, the first lower folded edge 25 is divided into three sections along its length: the left first lower folding edge 25-1, the middle first lower folding edge 25-2 and the right first lower folding edge 25-3, wherein the middle first lower folding edge 25-2 is bent towards the horizontal direction to be parallel to the bottom end face of the strip-shaped plate 23 so as to be convenient for taking and placing the water baffle and discharging condensed water; the length of the middle first lower folding edge 25-2 is larger than that of the water baffle plate, so that the water baffle plate can conveniently enter the lower slideway from the middle first lower folding edge 25-2.

The left end face of the strip-shaped plate 23 extends upwards to form a first left stop plate (not shown in the figure), and the left end face of the strip-shaped plate 23 extends downwards to form a second left stop plate 33, so as to stop the limiting water baffle and prevent the water baffle from sliding out of the slide way when sliding left, as shown in figure 3.

The right-hand member of strip shaped plate 23 upwards extends and forms first right backstop 34, and the right-hand member face of strip shaped plate 23 downwards extends and forms second right backstop 35 for backstop spacing breakwater, roll-off slide when preventing the breakwater right slip, see fig. 4 and show.

In order to increase the strength of the strip 23, a plurality of reinforcing plates 28 are fixed to the rear end face of the strip 23, as shown in fig. 5.

In order to be connected with the left baffle 13 and the right baffle 14 conveniently, two ends of the front end surface and two ends of the rear end surface of the strip-shaped plate 23 are respectively fixed with an L-shaped connecting plate; the L-shaped connecting plate is fixed with the left baffle 13 or the right baffle 14. Specifically, an L-shaped connecting plate 29 is fixed to the left end of the front end surface of the strip-shaped plate 23, and the L-shaped connecting plate 29 is connected to the left baffle 13; an L-shaped connecting plate 31 is fixed at the right end of the front end face of the strip-shaped plate 23, and the L-shaped connecting plate 31 is connected with the right baffle plate 14; an L-shaped connecting plate 30 is fixed at the left end of the rear end face of the strip-shaped plate 23, and the L-shaped connecting plate 30 is connected with the left baffle 13; an L-shaped connecting plate 32 is fixed at the right end of the rear end face of the strip-shaped plate 23, and the L-shaped connecting plate 32 is connected with the right baffle 14. Realize through four L shape connecting plates that strip shaped plate 23 is fixed with being connected of left baffle 13, right baffle 14, not only connect stably, simple structure, with low costs moreover, be convenient for realize.

The front end face of the top plate 11 extends downwards to form an upper stop baffle 15 which plays a role of limiting and stopping the water baffle and prevents the water baffle from sliding out of the slideway; the front end surface of the bottom plate 12 extends upwards to form a lower stop plate 16 which plays a role of limiting and stopping the water baffle and prevents the water baffle from sliding out of the slide way; as shown in fig. 6.

In this embodiment, the top plate 11 is an upper protection plate of the heat exchanger P, and the bottom plate 12 is a lower protection plate of the heat exchanger P, as shown in fig. 6, that is, the upper and lower protection plates of the heat exchanger are reused, so that the material is saved, the cost is reduced, and the occupied space is reduced.

In the embodiment, the water baffle 40 includes a square frame 41 and a plurality of louvers 42 arranged at intervals, the louvers 42 are fixed in the square frame 41, and each louver 42 is perpendicular to the bottom edge of the square frame 41, so as to facilitate the condensed water to flow down.

Based on the design of above-mentioned breakwater structure, this embodiment has still provided an air conditioning indoor set, including the heat exchanger and breakwater structure, the breakwater structure lay in the leeward side department of heat exchanger for shelter from the comdenstion water that the heat exchanger produced, prevent that the comdenstion water from wafting outside the water collector.

The specific structure of the water baffle structure is described in detail with reference to the detailed description of the above embodiments and the detailed description of the drawings in the specification, and is not repeated herein. The air conditioner indoor unit provided with the water baffle structure can achieve the same technical effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A water baffle structure is characterized by comprising,

the square frame comprises a top plate, a bottom plate, a left baffle plate and a right baffle plate;

the plurality of slideways are distributed at intervals, and each slideway is parallel to the top plate; the left end and the right end of the slideway are correspondingly detachably connected with the left baffle and the right baffle; the slideway comprises an upper slideway and a lower slideway, the opening of the upper slideway faces to the top plate, and the opening of the lower slideway faces to the bottom plate;

the water baffle plates are square; the upper slideway and the lower slideway of the slideway are respectively provided with a plurality of water baffles in a sliding way.

2. The breakwater structure of claim 1, wherein said runners comprise strip-shaped plates;

the front end surface of the strip-shaped plate extends upwards to form a first upper folding edge and extends downwards to form a first lower folding edge;

the rear end face of the strip-shaped plate extends upwards to form a second upper folded edge and extends downwards to form a second lower folded edge;

the first upper folded edge, the top end face of the strip-shaped plate and the second upper folded edge form the upper slideway;

the first lower folded edge, the bottom end face of the strip-shaped plate and the second lower folded edge form the lower slideway.

3. The water dam structure of claim 2,

the first upper folding edge is divided into three sections along the length direction: the first upper folding edge is bent towards the horizontal direction and is parallel to the top end face of the strip-shaped plate;

the first downward folding edge is divided into three sections along the length direction: the first lower hem in the middle is bent to the horizontal direction and is parallel to the bottom end face of the strip-shaped plate.

4. The water dam structure of claim 2,

the left end surface of the strip-shaped plate extends upwards to form a first left stop plate and extends downwards to form a second left stop plate;

the right end face of the strip-shaped plate extends upwards to form a first right stop plate, and extends downwards to form a second right stop plate.

5. The breakwater structure of claim 2, wherein a plurality of reinforcing plates are fixed to the rear end faces of the strip-shaped plates.

6. The water baffle structure as claimed in claim 2, wherein an L-shaped connecting plate is fixed at each of two ends of the front end surface and two ends of the rear end surface of the strip-shaped plate; the L-shaped connecting plate is fixed with the left baffle or the right baffle.

7. The splash plate structure of claim 1, wherein the top plate has a front face extending downwardly to form an upper stop and the bottom plate has a front face extending upwardly to form a lower stop.

8. The breakwater structure of claim 1, wherein the top plate is an upper shield plate of a heat exchanger, and the bottom plate is a lower shield plate of the heat exchanger.

9. The dam structure of claim 1, wherein said dam includes a square frame and a plurality of spaced louvers fixed within said square frame, each of said louvers being perpendicular to a bottom edge of said square frame.

10. An air conditioning indoor unit, characterized in that: comprising a heat exchanger and an breakwater structure according to any one of claims 1 to 9, which breakwater structure is arranged at the lee side of the heat exchanger.

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