CN219892303U - Household stacked battery energy storage cabinet - Google Patents

Abstract

The utility model discloses a household stacked battery energy storage cabinet, which relates to the technical field of battery energy storage cabinets and comprises a base and a battery module box, wherein adjustable feet are arranged at four corners of the bottom of the base, rubber gaskets are attached to the periphery of the top of the base, a limit bump is fixedly arranged at the middle end of the top of the base, the battery module box is fixedly embedded at the top of the base, a clamping groove is formed in the middle end of the bottom of the battery module box, and the battery module box is clamped with the limit bump through the clamping groove and is fixed through a bolt. The utility model provides a household stacked battery energy storage cabinet, which is different from a common cabinet, the cabinet is divided into 3 parts, the cabinet can be divided into 3 parts for packaging and transportation, the transportation cost is reduced, meanwhile, the cabinet is fixed in a stacking limit mode, no sequence part is arranged, connection can be realized through plug-ins at the bottom of the cabinet after stacking and placing, external wiring is not needed, the installation is more convenient, the number of battery modules is 2 to 6, and the user can configure according to own requirements.

Description

Household stacked battery energy storage cabinet

Technical Field

The utility model relates to the technical field of battery energy storage cabinets, in particular to a household stacked battery energy storage cabinet.

Background

The lithium ion battery has the advantages of large specific capacity, high working voltage, long cycle life, small volume, light weight and the like, and can be applied to more scenes. In electric automobiles and energy storage systems, the power battery of the power supply is required to have larger capacity and voltage, so that a plurality of single batteries are required to be arranged in a battery box and connected in series and in parallel to form a battery pack, thereby meeting the requirement of the power source, and the battery boxes are combined to form a battery energy storage cabinet.

The common battery energy storage cabinet in the prior art is generally to transversely arrange battery modules to form a battery pack (such as an electric automobile energy storage battery pack), each battery module needs to be connected in series and in parallel to form the battery pack during installation, wiring is complex, and the existing battery pack cannot realize split transportation, so that transportation cost is high.

Accordingly, in view of the above, an improvement of the existing structure is proposed.

Disclosure of Invention

The utility model aims to provide a household stacked battery energy storage cabinet, which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the battery module box is characterized by comprising a base and a battery module box, wherein adjustable footings are arranged at corners around the bottom of the base, rubber gaskets are adhered to the periphery of the top of the base, a limit bump is fixedly arranged at the middle end of the top of the base, and the battery module box is fixedly embedded at the top of the base.

Further, the clamping groove is formed in the middle end of the bottom of the battery module box, and the battery module box is clamped with the limiting protruding block through the clamping groove and fixed through the bolt.

Further, the right side of the battery module box is fixedly provided with a side plate through a bolt, and the middle of the side plate is provided with an inwards concave buckle.

Further, the battery module box top block is fixed with high-voltage control box, and the front of high-voltage control box is equipped with the LED face and pastes.

Furthermore, the left side of the high-voltage control box is fixedly provided with a hollow opening through a bolt, and the outside of the hollow opening is sleeved with a protective cover.

Further, two rows and three columns of BDU side plate assemblies for connection and control are arranged on the right side of the high-voltage control box, each BDU side plate assembly comprises a battery starting switch and an external CAN/RS485 communication interface, each battery starting switch is arranged at one row and one column, and an external CAN/RS485 communication interface arranged at one row and two columns is arranged on the right side of each battery starting switch.

Further, the BDU side plate assembly further comprises a control system starting switch and a negative electrode output terminal, the right side of the external CAN/RS485 communication interface is provided with the control system starting switch arranged at one row and three columns, and the bottom of the control system starting switch is provided with the negative electrode output terminal arranged at two rows and three columns.

Further, the BDU side plate component further comprises an external RS232 communication interface and a positive electrode output terminal, the left side of the negative electrode output terminal is provided with the external RS232 communication interface arranged at two rows and two columns, and the left side of the external RS232 communication interface is provided with the positive electrode output terminal arranged at two rows and one column.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a household stacked battery energy storage cabinet, which is different from a common cabinet, the cabinet is divided into 3 parts, the cabinet can be divided into 3 parts for packaging and transportation, the transportation cost is reduced, meanwhile, the cabinet is fixed in a stacking limit mode, no sequence part is arranged, connection can be realized through plug-ins at the bottom of the cabinet after stacking and placing, external wiring is not needed, the installation is more convenient, the number of battery modules is 2 to 6, and the user can configure according to own requirements.

1. According to the utility model, through the arrangement of the limiting convex blocks and the clamping grooves, the battery module boxes are clamped with the base and the upper and lower adjacent battery module boxes through the clamping grooves and are fixed through bolts, and the rubber gaskets are arranged at the connecting positions to reduce the impact during stacking, so that the mutual matching of the machine boxes can be realized in an up-down stacking manner, the split type transportation and convenient installation can be realized, and the applicability is stronger;

2. according to the utility model, through the arrangement of the cabinet, the whole cabinet is divided into three parts, namely the base, the stacked battery module boxes and the high-voltage control box from bottom to top, the whole protection level of the cabinet can reach IP55, the battery module boxes can be randomly stacked in random rows, and after stacking, each battery module box can be connected in series without external wiring, so that the operation and the installation of a user are convenient, the number of the battery module boxes is from 2 to 6, the number of the battery module boxes is selectable, and the user can configure according to the own requirements;

3. according to the utility model, through the arrangement of the high-voltage control box, the LED surface mount arranged on the front surface of the high-voltage control box can monitor the battery operation and the SOC state in real time, ensure the operation safety of the cabinet, and the application of the external RS232 communication interface can also remotely monitor and update the system on line.

Drawings

FIG. 1 is a schematic diagram of the overall assembly structure of the present utility model;

FIG. 2 is a schematic diagram of the overall explosive structure of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1. a base; 2. an adjustable footing; 3. a rubber gasket; 4. a limit bump; 5. a battery module case; 6. a clamping groove; 7. a side plate; 8. a handle is buckled; 9. a high pressure control box; 10. LED surface mount; 11. opening the door; 12. a protective cover; 13. a BDU side plate assembly; 1301. a battery start switch; 1302. an external CAN/RS485 communication interface; 1303. a control system starts a switch; 1304. a negative electrode output terminal; 1305. an external RS232 communication interface; 1306. and a positive electrode output terminal.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1-2, including base 1 and battery module case 5, the corner is equipped with adjustable footing 2 everywhere at base 1 bottom, and all paste around base 1 top has rubber gasket 3, be equipped with adjustable footing 2 all around base 1 bottom, user's accessible is to adjustable footing 2's adjustment makes the rack keep level stable when installation ground is uneven, the impact when battery module case 5 piles up can be reduced to the attached rubber gasket 3 all around at base 1 top, base 1 top middle-end fixed mounting has spacing lug 4, battery module case 5 gomphosis is fixed in base 1 top, draw-in groove 6 has been seted up to battery module case 5 bottom middle-end, and battery module case 5 is through draw-in groove 6 and spacing lug 4 looks block and through bolt fastening, the rack is whole divide into triplex, from bottom to top is base 1 respectively, battery module case 5 and high-voltage control case 9 that pile up, the whole protection level can reach IP55, battery module case 5 between them can be randomly piled up, and after pile up outside wiring can each battery module case 5 in series, make things convenient for user's operation and installation, the quantity of battery module case 5 is from 2 to bottom side plate 6, can be fixed with the side plate 5 is equipped with through the mutual side plate 10, and the top plate 10 is fixed to the side plate 5 is fixed to the top through mutual side plate through the mutual side of side plate 5, the top is fixed plate 10, top is realized through the side plate of side plate 5, top plate is fixed to the top is fixed, top plate is fixed with the top plate is installed through the top plate of the top plate is 5, the left side of the high-pressure control box 9 is fixedly provided with a hollow opening 11 through a bolt, and a protective cover 12 is sleeved outside the hollow opening 11;

as shown in fig. 3, two rows and three columns of BDU side plate assemblies 13 for connection and control are arranged on the right side of the high-voltage control box 9, the BDU side plate assemblies 13 comprise a battery start switch 1301 and an external CAN/RS485 communication interface 1302, the battery start switch 1301 is arranged at one row and one column, the external CAN/RS485 communication interface 1302 arranged at one row and two columns is arranged on the right side of the battery start switch 1301, the BDU side plate assemblies 13 further comprise a control system start switch 1303 and a negative electrode output terminal 1304, the control system start switch 1303 is arranged at the right side of the external CAN/RS485 communication interface 1302 and provided with a negative electrode output terminal 1304 arranged at one row and three columns, the BDU side plate assemblies 13 further comprise an external RS232 communication interface 1305 and a positive electrode output terminal 1306, the left side of the negative electrode output terminal 1305 is provided with a positive electrode output terminal 1306 arranged at two rows and one column, the LED surface mount 10 mounted on the front side of the high-voltage control box 9 CAN monitor the battery running state and the SOC state in real time, the running safety state of the communication cabinet CAN be ensured, and the external RS232 running safety state CAN be updated by an online monitoring system.

Working principle: when the household stacked battery energy storage cabinet is used, the adjustable feet 2 are arranged on the periphery of the bottom of the base 1, when the installation ground is uneven, the cabinet can be kept flat and stable by adjusting the adjustable feet 2, the rubber gaskets 3 attached to the periphery of the top of the base 1 can reduce the impact of the battery module boxes 5 when the battery module boxes are stacked, the cabinet is wholly divided into three parts, namely the base 1, the stacked battery module boxes 5 and the high-voltage control box 9, the whole protection level of the cabinet can reach IP55, the battery module boxes 5 can be randomly stacked in random rows, after stacking, the battery module boxes 5 can be connected in series without external wiring, the operation and the installation of the user are convenient, the number of the battery module boxes 5 is from 2 to 6, the user can configure according to own requirements, the battery module boxes 5 are clamped with the limit lug 4 through the clamping groove 6, the battery module boxes are fixed through bolts, the mutual matching of the cabinet can be realized through a mode of stacking up and down, the split type transportation and the installation can be realized, the high-voltage control box 9 can be conveniently connected with each other, the LED front face 10 can be monitored, the remote state of the LED can be conveniently monitored, and the remote state of the remote control system can be updated, and the remote state of the remote control system can be used, and the remote state of the remote control system can be monitored, and the remote device can be used for the remote control.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. The utility model provides a household stacked battery energy storage cabinet, its characterized in that includes base (1) and battery module case (5), base (1) bottom corner everywhere is equipped with adjustable footing (2), and all has rubber gasket (3) around base (1) top, base (1) top middle-end fixed mounting has spacing lug (4), battery module case (5) gomphosis is fixed in base (1) top, battery module case (5) top block is fixed with high-voltage control case (9), and high-voltage control case (9) openly is equipped with LED face subsides (10), high-voltage control case (9) left side is equipped with sky open (11) through bolt fixed mounting, and sky open (11) outside cover is equipped with protection casing (12), BDU curb plate subassembly (13) that are used for connecting and controlling are equipped with on high-voltage control case (9) right side, BDU curb plate subassembly (13) include battery start switch (1301) and outside CAN/485 communication interface (1302), battery start switch (1301) are located one row, and battery start switch (1301) are equipped with two rows of outside CAN/485 communication interface (1303) and one row of outside control system (1303) outside control terminal (1303) are equipped with outside one row of control terminal (1303), the control system comprises a BDU side plate assembly (13), and is characterized in that a control system starting switch (1303) arranged at one row and three columns is arranged on the right side of an external CAN/RS485 communication interface (1302), a negative electrode output terminal (1304) arranged at two rows and three columns is arranged at the bottom of the control system starting switch (1303), the BDU side plate assembly (13) further comprises an external RS232 communication interface (1305) and a positive electrode output terminal (1306), an external RS232 communication interface (1305) arranged at two rows and two columns is arranged on the left side of the negative electrode output terminal (1304), and a positive electrode output terminal (1306) arranged at two rows and one column is arranged on the left side of the external RS232 communication interface (1305).

2. The household stacked battery energy storage cabinet of claim 1, wherein the middle end of the bottom of the battery module box (5) is provided with a clamping groove (6), and the battery module box (5) is clamped with the limiting lug (4) through the clamping groove (6) and is fixed through a bolt.

3. The household stacked battery energy storage cabinet according to claim 1, wherein a side plate (7) is fixedly arranged on the right side of the battery module box (5) through bolts, and an inwards concave buckle (8) is arranged in the middle of the side plate (7).