CN219553737U - Battery cabinet heat abstractor - Google Patents

Abstract

The utility model discloses a battery cabinet heat dissipation device, which comprises a cabinet body, wherein an inner layer heat dissipation plate is fixed at the rear of the cabinet body, a transverse filter screen is arranged at the middle left part of the inner layer heat dissipation plate, a middle heat dissipation plate is arranged at the rear of the inner layer heat dissipation plate, an inclined filter screen is arranged at the center of the middle heat dissipation plate, an outer layer heat dissipation plate is fixedly arranged at the rear of the middle heat dissipation plate, a vertical filter screen is arranged at the middle left part of the outer layer heat dissipation plate, a sliding handle on the middle heat dissipation plate is pulled to move left and right in a sliding groove on an inner layer heat dissipation partition plate, so that the middle heat dissipation plate can translate in a space between the outer layer heat dissipation plate and the inner layer heat dissipation plate, and the overlapping part of the inclined filter screen on the middle heat dissipation plate, the vertical filter screen on the outer layer heat dissipation plate and the transverse filter screen on the inner layer heat dissipation plate is increased or reduced, thereby controlling the size and density of heat dissipation holes of the heat dissipation device, and finally achieving the purposes of accelerating heat dissipation of the battery cabinet or reducing heat dissipation of the battery cabinet.

Description

Battery cabinet heat abstractor

Technical Field

The utility model belongs to the technical field of battery cabinets, and particularly relates to a battery cabinet heat dissipation device.

Background

The battery cabinet is also called a battery box, the battery cabinet is mostly applied to places with higher power supply dependence degree, particularly has wide application in the fields of communication and the like, the traditional battery cabinet used at present is mostly composed of a box body and a battery rack, the basic storage battery placement requirement can be generally met, the function of the battery cabinet is only used as a cabinet for placing the storage battery, the heat dissipation technology of the heat dissipation holes is the most common heat dissipation technology of the traditional battery cabinet, the periphery of the battery cabinet is only required to be provided with the open hole design, the technology is low in realization cost, the manufacturing process is simple, the size of the heat dissipation holes of the traditional battery cabinet is fixed, the heat dissipation efficiency is low, the heat dissipation of the battery cabinet cannot be adjusted according to the external temperature environment, the heat is easily accumulated in the battery cabinet, the battery performance is affected, meanwhile, the heat dissipation holes cannot filter external dust, the dust is easily accumulated in the battery cabinet, and the battery cabinet is inconvenient to clean.

Disclosure of Invention

The utility model aims to provide a battery cabinet heat dissipation device, which solves the problems that the size of a heat dissipation hole of a traditional battery cabinet provided in the background art is fixed, the heat dissipation efficiency is low, the battery cabinet cannot be subjected to heat dissipation adjustment according to an external temperature environment, heat is easily accumulated in the battery cabinet to influence the battery performance, and meanwhile, the heat dissipation hole cannot filter external dust, so that dust is easily accumulated in the battery cabinet and the battery cabinet is inconvenient to clean.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a battery cabinet heat dissipation device comprises a cabinet body;

a plurality of battery frames are arranged in the cabinet body at equal intervals up and down;

an inner-layer cooling plate is fixed at the rear of the cabinet body, a transverse filter screen is arranged at the middle left side of the inner-layer cooling plate, a middle cooling plate is arranged at the rear of the inner-layer cooling plate, an oblique filter screen is arranged at the right center of the middle cooling plate, an outer-layer cooling plate is fixed at the rear of the middle cooling plate, and a vertical filter screen is arranged at the middle left side of the outer-layer cooling plate;

the middle cooling plate moves in the sliding rail between the inner cooling plate and the outer cooling plate through the sliding block rod, so that the inclined filter screen is overlapped with the transverse filter screen and the vertical filter screen.

Preferably, sliding rails are respectively arranged at the upper part and the lower part of the inner side of the outer layer cooling plate, meshes on the vertical filter screen are vertically distributed, meshes on the horizontal filter screen are transversely distributed, and meshes of the inclined filter screen are obliquely distributed.

Preferably, a battery cabinet heat abstractor, outer heating panel four corners be provided with the screw respectively, inlayer heating panel four corners is provided with the screw respectively, outer heating panel passes through screw fixed connection on screw and the inlayer heating panel, inlayer heating panel upper and lower side is provided with the slide rail respectively, the top slide rail lower right side is equipped with the spout, the spout is parallel with the slide rail.

Preferably, the upper and lower sides of middle heating panel are provided with the slider pole respectively, the slider pole is connected with middle heating panel integration, the top the slider pole lower right side inboard is provided with the smooth handle, smooth handle and middle heating panel vertical welding, smooth handle can pass the spout, middle heating panel can move about in the spout through smooth handle and translate.

Preferably, an ash collecting drawer is arranged right below the middle radiating plate, the side face of the ash collecting drawer is in a right trapezoid shape, the ash collecting drawer is connected with the cabinet body in an embedded mode, a pull groove is formed in the right side face of the ash collecting drawer, and the ash collecting drawer moves in the cabinet body through the pull groove.

Compared with the prior art, the utility model provides the battery cabinet heat dissipation device, which has the following beneficial effects:

1. according to the battery cabinet heat dissipation device, the sliding handle on the middle heat dissipation plate is pulled to move left and right in the sliding groove on the inner heat dissipation partition plate, so that the middle heat dissipation plate can translate in the space between the outer heat dissipation plate and the inner heat dissipation plate, and further the overlapping part of the inclined filter screen on the middle heat dissipation plate, the vertical filter screen on the outer heat dissipation plate and the transverse filter screen on the inner heat dissipation plate is increased or decreased, the size and density of the heat dissipation holes of the heat dissipation device are controlled, and finally the purpose of accelerating heat dissipation of the battery cabinet or reducing heat dissipation of the battery cabinet is achieved.

2. According to the battery cabinet heat dissipation device, the middle heat dissipation plate between the outer layer heat dissipation plate and the inner layer heat dissipation plate is moved left and right, so that the inclined filter screen on the middle heat dissipation plate can be in contact with the vertical filter screen on the outer layer heat dissipation plate and the horizontal filter screen on the inner layer heat dissipation plate, friction force can be generated due to relative movement between the inclined filter screen and the horizontal filter screen as well as between the inclined filter screen and the vertical filter screen, and dust on the horizontal filter screen, the inclined filter screen and dust on the vertical filter screen can be cleaned through friction.

3. According to the battery cabinet heat dissipation device, when friction is generated between the filter screens, dust on the filter screens can fall off, the falling dust can be collected through the dust collection drawer under the middle heat dissipation plate, and the dust collection drawer can be pulled away from the cabinet body, so that the collected dust can be conveniently poured out.

Drawings

FIG. 1 is a schematic diagram of the front structure of a battery cabinet of the present utility model;

FIG. 2 is a schematic view of the back structure of the battery cabinet of the present utility model;

FIG. 3 is a schematic view of the right side structure of the battery cabinet of the present utility model;

fig. 4 is a schematic diagram of a disassembled structure of a heat dissipating device of a battery cabinet according to the present utility model;

FIG. 5 is a schematic view of a part of the structure of an outer heat dissipating plate according to the present utility model;

FIG. 6 is a schematic view of a partial structure of an intermediate heat dissipating plate according to the present utility model;

fig. 7 is a schematic view of a partial structure of an inner heat dissipation plate according to the present utility model.

In the figure: 1. a cabinet body; 2. a battery holder; 3. an outer layer heat dissipation plate; 4. a middle heat dissipation plate; 5. an inner layer heat dissipation plate; 6. an ash collecting drawer; 7. a screw; 8. a sliding handle; 9. a slider bar; 10. a slide rail; 11. a chute; 12. a screw hole; 13. a transverse filter screen; 14. a vertical filter screen; 15. an inclined filter screen; 16. and (5) pulling grooves.

Detailed Description

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

The utility model provides a battery cabinet heat dissipation device as shown in figures 1-7, which comprises a cabinet body 1;

a plurality of battery frames 2 are arranged in the cabinet body 1 at equal intervals up and down, an inner-layer heat dissipation plate 5 is fixed at the rear of the cabinet body 1, a transverse filter screen 13 is arranged at the middle left side of the inner-layer heat dissipation plate 5, a middle heat dissipation plate 4 is arranged at the rear of the inner-layer heat dissipation plate 5, an oblique filter screen 15 is arranged at the middle center of the middle heat dissipation plate 4, an outer-layer heat dissipation plate 3 is fixedly arranged at the rear of the middle heat dissipation plate 4, and a vertical filter screen 14 is arranged at the middle left side of the outer-layer heat dissipation plate 3;

the middle cooling plate 4 moves in the sliding rail 10 between the inner cooling plate 5 and the outer cooling plate 3 through the sliding block rod 9, so that the inclined filter screen 15 overlaps the transverse filter screen 13 and the vertical filter screen 14.

In this embodiment, the middle cooling plate 4 moves in the sliding rail 10 between the inner cooling plate 5 and the outer cooling plate 3 through the sliding block rod 9, so that the inclined filter screen 15 overlaps the horizontal filter screen 13 and the vertical filter screen 14, and the size of the cooling hole is changed, thereby controlling the overall cooling effect of the cabinet body 1.

As shown in fig. 4 and 5, sliding rails 10 are respectively arranged at the upper and lower parts of the inner side of the outer-layer heat dissipation plate 3, meshes on a vertical filter screen 14 are vertically arranged, meshes on a horizontal filter screen 13 are horizontally arranged, meshes of an inclined filter screen 15 are obliquely arranged, four corners of the outer-layer heat dissipation plate 3 are respectively provided with screws 7, four corners of the inner-layer heat dissipation plate 5 are respectively provided with screw holes 12, and the outer-layer heat dissipation plate 3 is fixedly connected with the screw holes 12 on the inner-layer heat dissipation plate 5 through the screws 7.

As shown in fig. 4 and 7, slide rails 10 are respectively disposed above and below the inner layer heat dissipation plate 5, slide grooves 11 are disposed below and right of the upper slide rails 10, and the slide grooves 11 are parallel to the slide rails 10.

As shown in fig. 4 and 6, the upper and lower parts of the middle heat dissipation plate 4 are respectively provided with a slide rod 9, the slide rods 9 are integrally connected with the middle heat dissipation plate 4, the inner side of the right lower part of the upper slide rod 9 is provided with a slide handle 8, and the slide handle 8 is vertically welded with the middle heat dissipation plate 4.

As shown in fig. 3 and 4, the slide bar 8 can pass through the slide groove 11, and the intermediate heat dissipation plate 4 can translate by the left-right movement of the slide bar 8 in the slide groove 11.

As shown in fig. 1 and 3, a dust collecting drawer 6 is arranged under the middle heat dissipation plate 4, the side surface of the dust collecting drawer 6 is in a right trapezoid shape, the dust collecting drawer 6 is connected with the cabinet body 1 in an embedded mode, a pull groove 16 is formed in the right side surface of the dust collecting drawer 6, and the dust collecting drawer 6 moves in the cabinet body 1 through the pull groove 16.

Preferably, the size of the radiating hole of the cabinet body 1 is controlled by moving the middle radiating plate 4 left and right, so that the purposes of accelerating the radiation and reducing the radiation are achieved.

Preferably, by moving the middle heat dissipation plate 4 left and right, the inclined filter screen 15 rubs against the vertical filter screen 14 and the horizontal filter screen 13, and dust on the horizontal filter screen 13, the inclined filter screen 15 and the vertical filter screen 14 is cleaned.

Preferably, the dust that rubs between the filter screens and drop can be collected through album ash drawer 6, album ash drawer 6 can follow cabinet body 1 and take out, is convenient for pour the dust of collecting.

Optionally, the components of the intermediate heat dissipation plate 4 with different heat dissipation hole densities can be selected according to specific use conditions, and if the intermediate heat dissipation plate 4 is worn in the use process, the components of the intermediate heat dissipation plate 4 can be replaced.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A battery cabinet heat dissipation device comprises a cabinet body (1);

a plurality of battery frames (2) are arranged in the cabinet body (1) at equal intervals up and down;

the method is characterized in that: an inner-layer cooling plate (5) is fixed at the rear of the cabinet body (1), a transverse filter screen (13) is arranged at the middle left side of the inner-layer cooling plate (5), a middle cooling plate (4) is arranged at the rear of the inner-layer cooling plate (5), an inclined filter screen (15) is arranged at the center of the middle cooling plate (4), an outer-layer cooling plate (3) is fixed at the rear of the middle cooling plate (4), and a vertical filter screen (14) is arranged at the middle left side of the outer-layer cooling plate (3);

the middle cooling plate (4) moves in the sliding rail (10) between the inner cooling plate (5) and the outer cooling plate (3) through the sliding block rods (9), so that the inclined filter screen (15) is overlapped with the transverse filter screen (13) and the vertical filter screen (14).

2. A battery cabinet heat sink according to claim 1, wherein: the upper and lower sides of the inner side of the outer layer cooling plate (3) are respectively provided with a sliding rail (10), meshes on the vertical filter screen (14) are vertically distributed, meshes on the horizontal filter screen (13) are transversely distributed, and meshes of the inclined filter screen (15) are obliquely distributed.

3. A battery cabinet heat sink according to claim 2, wherein: the four corners of the outer-layer heat dissipation plate (3) are respectively provided with screws (7), the four corners of the inner-layer heat dissipation plate (5) are respectively provided with screw holes (12), and the outer-layer heat dissipation plate (3) is fixedly connected with the screw holes (12) on the inner-layer heat dissipation plate (5) through the screws (7).

4. A battery compartment heat sink as claimed in claim 3, wherein: slide rails (10) are respectively arranged above and below the inner-layer heat dissipation plate (5), sliding grooves (11) are formed in the right lower side of the slide rails (10) above, and the sliding grooves (11) are parallel to the slide rails (10).

5. A battery cabinet heat sink according to claim 1, wherein: the novel heat dissipation device is characterized in that a sliding rod (9) is arranged above and below the middle heat dissipation plate (4) respectively, the sliding rod (9) is integrally connected with the middle heat dissipation plate (4), a sliding handle (8) is arranged on the inner side of the right lower side of the sliding rod (9) above, and the sliding handle (8) is welded with the middle heat dissipation plate (4) vertically.

6. The battery cabinet heat sink of claim 5, wherein: the sliding handle (8) can pass through the sliding groove (11), and the middle cooling plate (4) can move left and right in the sliding groove (11) through the sliding handle (8) to translate.

7. A battery cabinet heat sink according to claim 1, wherein: an ash collecting drawer (6) is arranged right below the middle heat dissipation plate (4), the side face of the ash collecting drawer (6) is in a right trapezoid shape, and the ash collecting drawer (6) is connected with the cabinet body (1) in an embedded mode.

8. The battery compartment heat sink of claim 7, wherein: the right side face of the dust collecting drawer (6) is provided with a pull groove (16), and the dust collecting drawer (6) moves in the cabinet body (1) through the pull groove (16).