CN218548686U - Separated battery cabinet - Google Patents

Abstract

The utility model provides a divide storehouse formula battery cabinet, divide storehouse formula battery cabinet to include: the top of the isolation bin (2) is open, and a closed space is formed at the side direction and the bottom of the isolation bin (2); a battery cabinet frame (6) arranged in the isolation bin (2); a plurality of battery modules (17) arranged in the battery cabinet frame (6); a plurality of cells for placing the battery box are horizontally arranged in the battery cabinet frame (6), and each cell comprises 2 supporting pieces (5) extending in the front-back direction; each of the battery modules is disposed in a space between 2 of the supports (5). According to the invention, through reasonable separation of the battery cabinets of the lithium ion energy storage power station, physical isolation among batteries is realized, the diffusion of fire accidents caused by heat radiation after thermal runaway of some batteries is avoided, and the safety of an energy storage system is improved. The battery cabinet frame is more stable and safe.

Description

Separated battery cabinet

Technical Field

The utility model relates to an electrochemistry energy storage technical field, concretely relates to bin-divided battery cabinet.

Background

At present, the present energy storage power station battery adopts at the battery room dispersion setting more, consequently, the unable rational arrangement in large-scale energy storage power station of current leads to cable loss big, incremental cost, and moreover, present large capacity battery cabinet shows that the heaviness is unstable more, can not disassemble at will and change the battery, and difficult assembly and transportation have area great simultaneously.

In summary, the following problems exist in the prior art: the existing energy storage power station battery is unstable in installation, cannot be reasonably arranged and is difficult to assemble and transport.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem how solve the unstable problem that can not rational arrangement, difficult assembly and transportation of current energy storage power station battery installation.

In order to realize the above purpose, the utility model provides a divide storehouse formula battery cabinet, divide storehouse formula battery cabinet to include:

the top of the isolation bin is open, and the side direction and the bottom of the isolation bin form a closed space; and by adopting a modular arrangement mode of the battery isolation bins, each battery cabinet frame is arranged in one independent battery isolation bin and can be managed and transported independently.

The battery cabinet frame is arranged in the isolation bin;

the battery modules are arranged in the battery cabinet frame; the arrangement is reasonable, and the management is convenient.

The battery cabinet frame includes: the supporting beam is connected between the top beam and the bottom beam; the support beam is two: the front support beam and the rear support beam are respectively arranged, and the front support beam is positioned in the middle of the front top beam; the rear support beam is positioned in the middle of the front top beam; forming a stable frame.

A plurality of cells for placing the battery box are horizontally arranged in the battery cabinet frame, and each cell comprises 2 supporting pieces extending in the front-back direction; one of the supporting pieces is fixed between the front supporting beam and the rear supporting beam, the other supporting piece is fixed between the front upright post and the rear upright post, and the 2 supporting pieces are arranged in parallel and oppositely and are all positioned in the same horizontal plane;

each of the battery modules is disposed in a space between 2 of the supporters. And supporting the placed batteries to ensure that the batteries are stably placed in parallel.

The isolation bin bottom is equipped with 2 fork truck grooves. The forklift is convenient to use in cooperation with a forklift, and more convenient conditions are provided for carrying.

The forklift is characterized in that the isolation bin is cuboid, a front panel is arranged at the front part of the isolation bin, a rear panel is arranged at the rear part of the isolation bin, a bottom plate is arranged at the bottom of the isolation bin, side plates are arranged at two sides of the isolation bin, the front panel and the rear panel extend to the lower part of the bottom plate, and the forklift groove is arranged on the front panel and is positioned below the bottom plate. Convenient to use and does not occupy other spaces.

The compartment type battery cabinet is further provided with a fan, and the fan is arranged on the rear panel. Reducing the temperature of the battery serves as heat dissipation.

The front panel is of an opening door type structure. The maintenance and the battery protection are convenient.

The front panel is a split door, and a door stopper is arranged above each split door. Utilize two door and door-inhale designs, more easy to assemble maintains the battery module.

And the support beam is provided with a magnet block corresponding to the door stopper. Is used in combination with a door stopper.

And a combustible gas detector is respectively arranged at the upper right of the front panel and the upper left of the rear panel. When the battery burns and releases combustible gas, the fuel cell can detect and alarm in time.

The battery cabinet frame still is provided with 2 earth screws. The grounding device is used for grounding equipment, ensures the safety of power utilization, plays a role in fixing the ground and is convenient to disassemble.

Divide storehouse formula battery cabinet still includes: and the high-voltage box is arranged above the top battery module and is connected with each battery module in series. The positive and negative electrode outgoing lines of each battery cluster (battery module) are additionally provided with a positive and negative electrode contactor and a fuse, and the middle of a direct current loop is additionally provided with a direct current breaker and a fuse.

The utility model has the advantages that the forklift groove is arranged at the bottom of the battery cabinet, thereby being beneficial to the transportation of the battery cabinet of the lithium ion energy storage power station; the battery box is more convenient to install by utilizing the design of double doors and door stoppers. In addition, the battery cabinets of the lithium ion energy storage power station are reasonably separated, so that physical isolation among batteries is realized, the diffusion of fire accidents caused by thermal radiation after thermal runaway of some batteries is avoided, and the safety of an energy storage system is improved.

Drawings

Fig. 1 is a schematic front structural view of a split-bin battery cabinet according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a battery cabinet frame of a split-bin battery cabinet according to an embodiment of the present invention;

fig. 3 isbase:Sub>A schematic structural diagram showingbase:Sub>A side view direction ofbase:Sub>A split-bin battery cabinet provided by an embodiment of the present invention inbase:Sub>A sectional structure, that is,base:Sub>A sectional structure ofbase:Sub>A-base:Sub>A in fig. 1;

fig. 4 is a schematic side view of a split-bin battery cabinet according to an embodiment of the present invention;

fig. 5 is a schematic cross-sectional view illustrating an internal structure in a main view direction of a split-bin battery cabinet, i.e., a cross-sectional view of B-B in fig. 4, according to an embodiment of the present invention;

fig. 6 is a schematic top view of a split-bin battery cabinet according to an embodiment of the present invention.

The reference numbers illustrate:

1. a door stopper; 2. an isolation bin; 3. a forklift slot; 4. a ground screw; 5. a support member; 6. a battery cabinet frame; 7. a base plate; 8. a column; 9. a top beam; 10. a support beam; 11. a side plate; 12. a rear panel; 13. a bottom beam; 14. a front panel; 15. a fan; 16. a combustible gas detector; 17. a battery module is provided.

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 work belong to the protection scope of the present invention.

The embodiment of the utility model provides an in, like figure 1, provide a divide storehouse formula battery cabinet, divide storehouse formula battery cabinet includes:

the top of the isolation bin 2 is open, and the side direction and the bottom of the isolation bin 2 form a closed space; and the battery isolation bin 2 is arranged in a modularized mode, so that the assembly and the transportation are convenient. The back and the side are completely sealed, the front is a sealed bin door, the top is open, a good protection effect can be achieved, external influence is reduced, and mutual influence between the battery cabinet and the battery cabinet is reduced.

A battery cabinet frame 6 disposed in the isolation bin 2; as shown in fig. 3, each battery cabinet frame is installed in a separate battery isolation bin 2, and can be managed and transported independently.

A plurality of battery modules 17 provided in the battery cabinet frame 6; the arrangement is reasonable, and the management is convenient.

The battery cabinet frame 6 includes: the device comprises upright columns 8 positioned at four angular points of a rectangle, a top beam 9 and a bottom beam 13 which are respectively connected to the left and right directions of the upright columns 8, and a supporting beam connected between the top beam 9 and the bottom beam 13; the supporting beams are two: a front supporting beam and a rear supporting beam are respectively arranged, and the front supporting beam is positioned in the middle of a front top beam 9; the rear support beam is positioned in the middle of the front top beam 9; forming a stable frame. Because a plurality of battery modules (battery boxes) are arranged in the battery cabinet, a battery cabinet frame with strong bearing capacity and compact space is needed. Through the above arrangement of the utility model, can reach that the bearing is effectual, sound construction, job stabilization.

As shown in fig. 2, a plurality of cells for placing the battery box are horizontally arranged in the battery cabinet frame, and each cell comprises 2 supporting members 5 extending in the front-back direction; the supporting members 5 are, for example, supporting rods, which are convenient to manufacture and pull, wherein one of the supporting members 5 is fixed between the front supporting beam 10 and the rear supporting beam 10, the other supporting member 5 is fixed between the front upright post 8 and the rear upright post 8, and 2 supporting members are arranged in parallel and opposite to each other and are all located in the same horizontal plane; the supporting pieces 5 in the battery cabinet frame extend in the front-back direction, and do not have supporting pieces extending in the left-right direction, so that the battery module (battery box) is convenient to mount and dismount quickly, and the maintenance is also convenient;

each of the battery modules 17 is disposed in a space between 2 of the supports. The 2 supporting pieces support the placed batteries, the structure is simple and firm, heat dissipation is facilitated, and the batteries are placed stably in parallel.

As shown in the figures 2 and 5, two rows of battery modules (battery boxes) are arranged in the battery cabinet frame, so that the structure is symmetrical, the stress is reasonable, and the spatial arrangement is reasonable.

The bottom of the isolation bin 2 is provided with 2 forklift grooves 3. The forklift is convenient to use in cooperation with a forklift, and more convenient conditions are provided for carrying.

As shown in FIG. 4, the isolation bin 2 is cuboid, and is convenient to manufacture and transport. The front part of the isolation bin 2 is provided with a front panel 14, the rear part of the isolation bin 2 is provided with a rear panel 12, the bottom of the isolation bin 2 is provided with a bottom plate 7, two sides of the isolation bin 2 are provided with side plates 11, the front panel 14 and the rear panel 12 both extend to the lower part of the bottom plate 7, and the forklift slot 3 is arranged on the front panel and is positioned below the bottom plate 7. Convenient to use and does not occupy other spaces.

The compartment type battery cabinet is further provided with a fan 15, as shown in fig. 5, the fan 15 is arranged on the rear panel 12. Reducing the temperature of the battery serves as heat dissipation.

The front panel 14 is of a door-opening type structure. The isolation bin 2 is convenient to open, maintain and disassemble the battery.

The front panel 14 is a split door, is more convenient to open, and is suitable for two rows of battery modules (battery boxes) arranged in the battery cabinet frame. And a door stopper 1 is arranged above each split door. By utilizing the design of the double door and the door stopper 1, the battery module 17 can be protected in a normally closed state more conveniently.

And the support beam is provided with a magnet block corresponding to the door stopper 1. Is used in cooperation with the door stopper 1.

As shown in fig. 6, a combustible gas detector 16 is provided at each of the upper right of the front panel and the upper left of the rear panel 12. When the battery burns and releases combustible gas, the fuel cell can detect and alarm in time.

The battery cabinet frame is also provided with 2 grounding screws 4. The grounding device is used for grounding equipment, ensures the safety of electricity utilization, plays a role in fixing on the ground and is convenient to install.

Divide storehouse formula battery cabinet still includes: and the high-voltage box is arranged above the top battery box and is connected with the battery boxes in series so as to realize the confluence of the battery boxes. The positive and negative electrode outgoing lines of each battery box (battery module) are additionally provided with a positive and negative electrode contactor and a fuse, and the middle of a direct current loop is additionally provided with a direct current breaker and a fuse.

The utility model has the advantages that the forklift groove is arranged at the bottom of the battery cabinet, thereby being beneficial to the transportation of the battery cabinet of the lithium ion energy storage power station; the battery box is more convenient to install by utilizing the design of the double door and the door stopper 1. In addition, the battery cabinets of the lithium ion energy storage power station are reasonably separated, so that physical isolation among batteries is realized, the diffusion of fire accidents caused by thermal radiation after thermal runaway of some batteries is avoided, and the safety of an energy storage system is improved.

The above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention. For the components of the present invention can be mutually combined under the conflict-free condition, any technical personnel in the field can make equivalent changes and modifications without departing from the concept and principle of the present invention, which all shall belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a divide storehouse formula battery cabinet which characterized in that, divide storehouse formula battery cabinet includes:

the top of the isolation bin (2) is open, and a closed space is formed at the side direction and the bottom of the isolation bin (2);

a battery cabinet frame (6) arranged in the isolation bin (2);

a plurality of battery modules (17) arranged in the battery cabinet frame (6);

the battery cabinet frame (6) comprises: the device comprises upright posts (8) positioned at four corner points of a rectangle, a top beam (9) and a bottom beam (13) which are respectively connected to the left and right directions of the upright posts (8), and a supporting beam (10) connected between the top beam (9) and the bottom beam (13); the supporting beams (10) are two: the front supporting beam (10) and the rear supporting beam (10) are respectively arranged, and the front supporting beam (10) is positioned in the middle of the front top beam (9); the rear supporting beam (10) is positioned in the middle of the front top beam (9);

a plurality of cells for placing the battery box are horizontally arranged in the battery cabinet frame (6), and each cell comprises 2 supporting pieces (5) extending in the front-back direction; one of the supporting pieces (5) is fixed between the front supporting beam (10) and the rear supporting beam (10), the other supporting piece (5) is fixed between the front upright post (8) and the rear upright post (8), and the 2 supporting pieces (5) are parallel and oppositely arranged and are all positioned in the same horizontal plane;

each battery module is arranged in a space between 2 of the supports (5).

2. The compartment-type battery cabinet according to claim 1, wherein 2 forklift slots (3) are arranged at the bottom of the isolation compartment (2).

3. The split-bin battery cabinet according to claim 2, wherein the isolation bin (2) is rectangular, a front panel (14) is arranged at the front of the isolation bin (2), a rear panel (12) is arranged at the rear of the isolation bin (2), a bottom plate (7) is arranged at the bottom of the isolation bin (2), side plates (11) are arranged on two sides of the isolation bin (2), the front panel (14) and the rear panel (12) both extend below the bottom plate (7), and the forklift slot (3) is arranged on the front panel (14) and is located below the bottom plate (7).

4. A split-compartment battery cabinet according to claim 3, wherein a fan (15) is further provided, and the fan (15) is provided on the rear panel (12).

5. A split-bin battery cabinet according to claim 3, wherein the front panel (14) is of a door-opening type structure.

6. The compartment type battery cabinet according to claim 5, wherein the front panel (14) is a pair of doors, and a door stopper (1) is disposed above each of the pair of doors.

7. The compartment-type battery cabinet according to claim 6, wherein the supporting beam (10) is provided with a magnet corresponding to the door stopper (1).

8. A split-bin battery cabinet according to claim 3, wherein one combustible gas detector (16) is arranged at each of the upper right of the front panel (14) and the upper left of the rear panel (12).

9. A split-bin battery cabinet according to claim 1, wherein the battery cabinet frame (6) is further provided with 2 grounding screws (4).

10. The split-compartment battery cabinet of claim 1, further comprising: and the high-voltage box is arranged above the top battery module and is connected with each battery module in series.

Images