CN218568973U - Battery energy storage heat abstractor - Google Patents

Abstract

A battery energy storage heat dissipation device is characterized in that a placement structure is arranged in a cabinet body, the placement structure is mounted on a mounting block with a cavity, the mounting block is arranged on the inner bottom wall of the cabinet body, supporting plates are fixedly connected to two sides of the top of the mounting block, and a plurality of placement plates are fixedly connected between the supporting plates; be equipped with a plurality of ventilation holes that link up on the direction of height of backup pad, the lower extreme in ventilation hole and the cavity of installation piece link up, evenly are equipped with the shower nozzle on the side of backup pad direction of height, and shower nozzle and ventilation hole link up, and the top of the cabinet body is provided with the dust screen, and one side bottom rigid coupling of the cabinet body has the mounting box, installs the fan in this mounting box, and the export of this fan and the cavity of installation piece link up. The utility model discloses a collecting pipe with the leading-in even setting in the inside of placing the connecting pipe of board both sides of air current to shower nozzle through evenly distributed spouts the air current, in order to reach and carry out the radiating effect to a plurality of battery energy memory, has avoided the leading-in air current temperature of tradition to increase gradually, leads to not good to follow-up battery energy memory radiating effect.

Description

Battery energy storage heat abstractor

Technical Field

The utility model relates to an electric power energy storage technical field, very much relate to a battery energy storage heat abstractor.

Background

The battery energy storage is mainly to store electric energy in a battery, and the stored energy can be used as emergency energy, can also be used for storing energy when the load of a power grid is low, and outputting energy when the load of the power grid is high, so that the peak clipping and valley filling are realized, and the fluctuation of the power grid is reduced.

Current battery energy memory places a plurality of battery energy memory and uses at cabinet internal portion usually, but traditional heat radiation structure adopts the forced air cooling heat dissipation, and the heat is taken away gradually at the flow in-process to leading-in air current, leads to the air current temperature to increase gradually, leads to not good to follow-up battery energy memory radiating effect, can not satisfy current demand.

SUMMERY OF THE UTILITY MODEL

The utility model provides a battery energy storage heat abstractor has improved current heat radiation structure and to the uneven problem of a plurality of battery energy storage device heat dissipations.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a battery energy storage heat dissipation device comprises a cabinet body, wherein a placement structure is arranged in the cabinet body, the placement structure is mounted on a mounting block (401) which is arranged on the inner bottom wall of the cabinet body and provided with a cavity, two sides of the top of the mounting block are fixedly connected with supporting plates, and a plurality of uniformly distributed placement plates are fixedly connected between the supporting plates; be equipped with a plurality of ventilation holes that link up on the direction of height of backup pad, the lower extreme in this ventilation hole runs through in proper order behind backup pad, the installation piece upper wall and the cavity of installation piece link up, evenly be equipped with the shower nozzle on the side of backup pad direction of height, this shower nozzle and ventilation hole link up, the top of the cabinet body is provided with the dust screen, and one side bottom rigid coupling of the cabinet body has the mounting box, installs the fan in this mounting box, and the export of this fan link up with the cavity of installation piece.

The inside of the mounting box is divided into two parts of wind by a partition plate, a fan is mounted in the cavity close to the side of the cabinet body, and a drying agent is placed in the cavity far away from the side of the cabinet body.

And a collecting groove is arranged on the top surface of the inner cavity of the mounting block, is in an outward-expanding cone shape and is communicated with the tail end of the vent hole.

Through holes and grooves are arranged on the placing plate in an staggered mode.

The rear side of the cabinet body is provided with an auxiliary structure for assisting in heat dissipation of the interior of the cabinet body.

The auxiliary structure is including setting up in the installing frame of cabinet body rear side, the bottom plate of installing frame and the ball sliding connection who installs on the cabinet body back wall, even rigid coupling has a plurality of heating panels in the installing frame, and the one end of this heating panel is sealed to be passed through behind the activity groove on the cabinet body back wall and is connected with the heat-conducting plate of arranging cabinet body inside in.

The structure that the heat dissipation plate passes through the movable groove in a sealing mode is as follows: and spring mounting grooves are formed in two side walls of the movable groove, a second spring is mounted in each spring mounting groove, the other end of each second spring is in contact with a sealing gasket arranged on the heat dissipation plate, and the width of the sealing gasket is matched with that of the spring mounting groove.

The outer bottom surface of the mounting frame is fixedly connected with a connecting plate; one side of the connecting plate is connected with a mounting plate fixedly connected on the wall of the cabinet body through a first spring; a guide block is fixedly connected to the bottom wall of the cavity of the mounting block, one end of the rotating shaft is rotatably connected to the inner wall of the front side of the mounting block, and a cam is fixedly connected to the other end of the rotating shaft after extending out of the rear wall of the mounting block and the rear wall of the cabinet body; the cam is contacted with the other side of the connecting plate; the guide block and the rotating shaft are sequentially located on one side far away from the mounting box, and the surface of the rotating shaft is fixedly connected with fan blades which are uniformly distributed.

The beneficial effects of the utility model are that:

1. by arranging the placing structure, external air flow can be guided into the mounting block under the action of the mounting box and the fan, the air flow is guided into the ventilation pipes uniformly arranged on the two sides of the placing plate through the collecting pipes, and the air flow is sprayed out through the uniformly distributed spray heads, so that the heat dissipation effect of the plurality of battery energy storage devices is achieved, and the problem that the heat dissipation effect of the subsequent battery energy storage devices is poor due to the gradual increase of the temperature of the traditional guided air flow is avoided;

2. through setting up the auxiliary structure, can assist the heat dissipation to the internal portion heat of cabinet under auxiliary structure's effect, the radiating effect has been improved, the inside air current of leading-in installation piece simultaneously can be under the direction of guide block, it is rotatory to drive the pivot through the flabellum and make the cam, and then reach the effect of constantly pushing up the connecting plate, under the combined action of connecting plate, first spring and installing frame, can drive the heating panel and rock and then shake off accumulational dust, thereby the condition of piling up the dust and influencing the radiating effect has been reduced.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a sectional perspective view of the present invention;

FIG. 3 is a schematic view of the connection between the placement structure and the cabinet body of the present invention;

FIG. 4 is a schematic view of the connection between the auxiliary structure and the cabinet body;

fig. 5 is an enlarged view of a in fig. 4.

FIG. 6 is a schematic view of the connection between the mounting frame and the cabinet body of the auxiliary structure of the present invention;

FIG. 7 is a cross-sectional schematic view of FIG. 6;

in the figure: 1. a cabinet body; 2. mounting a box; 3. an auxiliary structure; 4. a placement structure; 101. a dust screen; 201. a partition plate; 202. a fan; 301. a heat conducting plate; 302. installing a frame; 303. a heat dissipation plate; 304. mounting a plate; 305. a first spring; 306. a connecting plate; 307. a movable groove; 308. a second spring; 309. a sealing block; 401. mounting a block; 402. a guide block; 403. a rotating shaft; 404. a fan blade; 405. collecting tank; 406. placing a plate; 407. a support plate; 408. a ventilation pipe; 409. a spray head; 410. a cam.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1-5, a battery energy storage heat dissipation device includes a cabinet body, a placement structure 4 is disposed inside the cabinet body 1, the placement structure 4 is mounted on a mounting block 401 having a cavity and disposed on an inner bottom wall of the cabinet body 1, two sides of a top of the mounting block 401 are fixedly connected with support plates 407, and a plurality of uniformly distributed placement plates 406 are fixedly connected between the support plates 407; be equipped with a plurality of ventilation holes 408 that link up on the direction of height of backup pad 407, the lower extreme of this ventilation hole 408 runs through in proper order behind backup pad 407, the installation piece 401 upper wall and the cavity of installation piece 401 link up, evenly be equipped with shower nozzle 409 on the side of backup pad 407 direction of height, this shower nozzle 409 and ventilation hole 408 link up, the top of the cabinet body 1 is provided with dust screen 101, and one side bottom rigid coupling of the cabinet body 1 has mounting box 2, installs fan 202 in this mounting box 2, and the export of this fan 202 and the cavity of installation piece 401 link up.

Start-up fan 202 can be with the inside of leading-in mounting box 2 in proper order and installation piece 401 of outside air current, get into the inside that the inside air current of installation piece 401 can get into ventilation pipe 408 under the effect of collecting vat 405, and evenly spout the air current through shower nozzle 409, thereby reach and carry out radiating effect to a plurality of battery energy memory simultaneously, it takes away the heat gradually at the flow in-process to have avoided traditional air current to be leading to the air current temperature to increase gradually and dispel the not good condition to follow-up battery energy memory, can cooperate place structure 4 and carry out good heat dissipation to cabinet body 1 inside through start-up fan 202, avoid traditional battery energy storage heat radiation structure in the uneven problem of heat dissipation to a plurality of battery energy memory.

The inside of the mounting box 2 is divided into two parts of wind by a partition board 201, a fan 202 is mounted in a cavity close to the side of the cabinet body 1, and a drying agent is placed in a cavity far away from the side of the cabinet body 1. For drying the moisture in the air flow, avoiding the moisture to enter the interior of the cabinet 1.

The top surface of the inner cavity of the mounting block 401 is provided with a collecting groove 405, and the collecting groove 405 is in a shape of an outward-expanding cone and is communicated with the tail end of the vent hole 408. So as to guide cold air into the air vent.

Through holes and grooves are arranged on the placing plate 406 in a staggered mode, so that the condition that the bottom of the battery energy storage device is inconvenient to radiate can be avoided.

As shown in fig. 1, 3 and 4, an auxiliary structure 3 for assisting heat dissipation inside the cabinet 1 is installed at the rear side of the cabinet 1. The auxiliary structure 3 includes a mounting frame 302 disposed at the rear side of the cabinet body 1, a bottom plate of the mounting frame 302 is slidably connected with balls mounted on the rear wall of the cabinet body 1 (see fig. 6 and 7), a plurality of heat dissipation plates 303 are uniformly and fixedly connected in the mounting frame 302, and one end of each heat dissipation plate 303 is connected with a heat conduction plate 301 disposed inside the cabinet body 1 after passing through a movable groove 307 on the rear wall of the cabinet body 1 in a sealing manner. The heat conducting plate 301 can adsorb heat generated in the use process of part of the battery energy storage device, and the heat is conducted out of the cabinet body 1 through the heat dissipation plate 303, so that the heat dissipation effect is effectively improved.

The structure of the heat dissipation plate 303 passing through the movable groove 307 in a sealing manner is as follows: two side walls of the movable groove 307 are provided with spring installation grooves, a plurality of second springs 308 are installed in the spring installation grooves, the other ends of the second springs 308 are in contact with a sealing gasket 309 arranged on the heat dissipation plate 303, and the width of the sealing gasket 309 is matched with the width of the spring installation grooves. The second spring 308 can enable the sealing block 309 to be tightly attached to the heat dissipation plate 303 all the time, so that a gap of the movable groove 307 can be blocked, and dust is prevented from entering the inside of the cabinet body 1 through the movable groove 307 to influence normal use of the battery energy storage device.

The outer bottom surface of the mounting frame 302 is fixedly connected with a connecting plate 306; one side of the connecting plate 306 is connected with a mounting plate 304 fixedly connected on the wall of the cabinet body through a first spring 305; a guide block 402 is fixedly connected to the bottom wall of the cavity of the mounting block 401, one end of a rotating shaft 403 is rotatably connected to the inner wall of the front side of the mounting block 401, and the other end of the rotating shaft extends out of the rear wall of the mounting block 401 and the rear wall of the cabinet body 1 and is fixedly connected with a cam 410; the cam 410 is in contact with the other side of the connecting plate 306; the guide block 402 and the rotating shaft 403 are sequentially located on one side far away from the mounting box 2.

When starting fan 202 and dispelling the heat to cabinet body 1 inside, can lead the air current through guide block 402, pivot 403 is rotatory and drive cam 410 and rotate when air current after the direction drives flabellum 404, can constantly push up connecting plate 306 in cam 410 rotatory in-process, thereby connecting plate 306 drives installing frame 302 and removes and extrudes first spring 305, and then drive heating panel 303 and heat-conducting plate 301 and take place the skew, can drive under first spring 305's effect and reset when cam 410 does not contact with connecting plate 306, thereby produce the effect of rocking, and then can make the dust of piling up on heating panel 303 surface shake off, the condition that the dust influences the radiating effect has been piled up on heating panel 303 surface has been reduced.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A battery energy storage heat dissipation device comprises a cabinet body and is characterized in that a placement structure (4) is arranged inside the cabinet body (1), the placement structure (4) is installed on an installation block (401) which is arranged on the inner bottom wall of the cabinet body (1) and provided with a cavity, supporting plates (407) are fixedly connected to two sides of the top of the installation block (401), and a plurality of uniformly distributed placement plates (406) are fixedly connected between the supporting plates (407); be equipped with a plurality of ventilation holes (408) of lining up on the direction of height of backup pad (407), the lower extreme of this ventilation hole (408) runs through backup pad (407), installation piece (401) upper wall back in proper order and the cavity of installation piece (401) link up, evenly be equipped with shower nozzle (409) on the side of backup pad (407) direction of height, this shower nozzle (409) and ventilation hole (408) link up, the top of the cabinet body (1) is provided with dust screen (101), and one side bottom rigid coupling of the cabinet body (1) has mounting box (2), installs fan (202) in this mounting box (2), and the export of this fan (202) and the cavity of installation piece (401) link up.

2. The battery energy storage heat dissipation device of claim 1, wherein: the inside of the mounting box (2) is divided into two parts by a partition plate (201), a fan (202) is mounted in a cavity close to the side of the cabinet body (1), and a drying agent is placed in a cavity far away from the side of the cabinet body (1).

3. The battery energy storage heat dissipation device of claim 1, wherein: the top surface of the inner cavity of the mounting block (401) is provided with a collecting groove (405), and the collecting groove (405) is in an outward-expanding conical shape and is communicated with the tail end of the vent hole (408).

4. The battery energy storage heat dissipation device of claim 1, wherein: through holes and grooves are arranged on the placing plate (406) in an alternating mode.

5. The battery energy storage heat dissipation device of any one of claims 1-4, wherein: the rear side of the cabinet body (1) is provided with an auxiliary structure (3) for assisting in heat dissipation of the interior of the cabinet body (1).

6. The battery energy storage heat dissipation device of claim 5, wherein: auxiliary structure (3) are including setting up in installing frame (302) of the cabinet body (1) rear side, the bottom plate of installing frame (302) with install the ball sliding connection on the wall behind the cabinet body (1), even rigid coupling has a plurality of heating panels (303) in installing frame (302), and the one end of this heating panel (303) is sealed to be passed through behind activity groove (307) on the wall behind the cabinet body (1) and is connected with heat-conducting plate (301) of arranging cabinet body (1) inside in.

7. The battery energy storage heat dissipation device of claim 6, wherein: the structure that the heat dissipation plate (303) passes through the movable groove (307) in a sealing mode is as follows: two side walls of the movable groove (307) are provided with spring installation grooves, a second spring (308) is installed in each spring installation groove, the other end of each second spring (308) is in contact with a sealing gasket (309) arranged on the heat dissipation plate (303), and the width of each sealing gasket (309) is matched with the width of each spring installation groove.

8. The battery energy storage heat dissipation device of claim 6, wherein: the outer bottom surface of the mounting frame (302) is fixedly connected with a connecting plate (306); one side of the connecting plate (306) is connected with a mounting plate (304) fixedly connected on the wall of the cabinet body through a first spring (305); a guide block (402) is fixedly connected to the bottom wall of the cavity of the mounting block (401), one end of a rotating shaft (403) is rotatably connected to the inner wall of the front side of the mounting block (401), and the other end of the rotating shaft extends out of the rear wall of the mounting block (401) and the rear wall of the cabinet body (1) and is fixedly connected with a cam (410); the cam (410) is in contact with the other side of the connecting plate (306); the guide block (402) and the rotating shaft (403) are sequentially located on one side far away from the mounting box (2), and the surface of the rotating shaft (403) is fixedly connected with uniformly distributed fan blades (404).

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