CN220774591U - Thin energy storage cabinet - Google Patents

Abstract

The utility model belongs to the technical field of energy storage devices, and particularly relates to a thin energy storage cabinet which comprises a base, a control box and a plurality of battery boxes stacked up and down; the two sides of the base are provided with first protruding plates protruding from the top surface of the base, and a battery box which is closely adjacent to the upper side of the base is clamped between the two first protruding plates; the top surface of the battery box is connected with a second protruding plate, and the other battery box is clamped between the two second protruding plates; the side wall of the battery box is connected with a reinforcing plate, the reinforcing plate and the side wall of the battery box are arranged at intervals, and a first bolt is arranged on the reinforcing plate in a penetrating way; the first bolt is connected with the first protruding plate and the reinforcing plate; the second protruding plate is attached to the side wall of the battery box adjacent to the upper side, and the first bolt is used for connecting the second protruding plate and the reinforcing plate; the both sides of control box are provided with recess and second bolt respectively, and the second bolt is used for connecting second protruding board and control box. According to the thin energy storage cabinet provided by the embodiment of the utility model, a plurality of battery boxes which are arranged according to requirements are connected through the second protruding plate.

Description

Thin energy storage cabinet

Technical Field

The utility model belongs to the technical field of energy storage devices, and particularly relates to a thin energy storage cabinet.

Background

The energy storage cabinet is a cabinet type device which stores electric energy by using energy storage equipment such as batteries and the like so as to release the electric energy for power supply when needed. The energy storage cabinet has a very wide application range, can be used in various fields such as families, businesses, industry and the like, and is one of important directions of energy development in the future.

The existing energy storage cabinet comprises a cabinet body and a battery, wherein a plurality of layers of accommodating cavities are formed in the cabinet body from top to bottom, each accommodating cavity accommodates a battery core, and the battery cores are connected through a circuit.

However, the existing energy storage cabinet has the disadvantages of fixed volume, fixed capacity, certain requirements on the installation position and narrow application range.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the existing energy storage cabinet is fixed in volume, fixed in capacity, has certain requirements on installation positions, has the problem of narrow application range, and provides the thin energy storage cabinet.

In order to solve the technical problems, the embodiment of the utility model provides a thin energy storage cabinet, which comprises a base, a battery box and a control box, wherein the base, the battery box and the control box are arranged from bottom to top;

the battery box comprises a base, a battery box, a first protruding plate, a second protruding plate, a battery box and a first connecting piece, wherein the two sides of the base along a first direction are provided with the first protruding plates, the first protruding plates protrude out of the top surface of the base, the two first protruding plates are oppositely arranged, and the adjacent battery box above the base is clamped between the two first protruding plates; the first direction is the length direction or the width direction of the base;

the top surface of the battery box is respectively connected with second protruding plates along two sides of the first direction, and the adjacent battery box above is clamped between the two second protruding plates;

the battery box comprises a battery box body, wherein the side walls of the two ends of the battery box body along a first direction are connected with reinforcing plates, the reinforcing plates and the side walls of the battery box body are arranged at intervals, the intervals between the reinforcing plates and the battery box body are respectively larger than the thickness of a first protruding plate and the thickness of a second protruding plate, the reinforcing plates are provided with first threaded holes, and first bolts penetrate through the first threaded holes;

the first protruding plate is inserted between the side wall of the battery box at the lowest part and the corresponding reinforcing plate, the first protruding plate is attached to the side wall of the battery box, and the first bolt is connected with the first protruding plate and the reinforcing plate;

the second protruding plate is attached to the side wall of the battery box adjacent to the upper side of the second protruding plate, and the first bolt is used for connecting the adjacent second protruding plate and the reinforcing plate;

the control box is characterized in that grooves and second bolts are respectively arranged on two sides of the control box in the length direction, the groove width of each groove is larger than the thickness of each second protruding plate, the second protruding plate on the battery box at the uppermost position is inserted into each groove, and the second bolts are used for connecting the second protruding plates at the uppermost position and the control box.

Optionally, the battery box includes battery module, electrode, lid and casing, the casing with the lid encloses to establish out and holds the chamber, battery module sets up in holding the chamber, the one end of electrode penetrates the casing is in order to connect battery module, the one end of electrode wears out the casing is in order to connect external equipment.

Optionally, the electrode is worn out from the side of battery box, and a plurality of the electrode on the battery box is established ties through the connecting piece, the side of control box sets up the intercommunication mouth, the intercommunication mouth is used for supplying the connecting piece to pass.

Optionally, decorative side walls are arranged on two sides of the battery box, the decorative side walls are connected to the reinforcing plate, and a plurality of decorative edges are arranged on the surface, far away from the battery box, of the decorative side walls;

decorative walls are arranged on two sides of the control box, and decorative strips are arranged on the surfaces, far away from the control box, of the decorative walls.

Optionally, a plurality of reinforcing ribs are arranged on one side of the decorative side wall, which is close to the battery box, and the reinforcing ribs are distributed in a grid mode;

and one side of the decorative wall, which is close to the control box, is provided with a plurality of reinforcing ribs, and the reinforcing ribs are distributed in a grid mode.

Optionally, the decorative side wall is provided with a concave area, and the height of the reinforcing ribs protruding out of the decorative side wall in the concave area is smaller than the height of the reinforcing ribs protruding out of the concave area.

Optionally, the reinforcing plate is parallel to the side wall of the battery box, two sides of the reinforcing plate are bent towards a direction away from the battery box to form a bent edge, and the bent edge vertically extends, so that the cross section of the reinforcing plate is U-shaped.

Optionally, a decorative plate is fixedly connected to the front side of the battery box.

Optionally, a lamp groove is formed in the decorative plate, and an LED lamp is installed in the lamp groove.

Optionally, the diapire of casing is provided with the locating lever, the locating lever sets up at least one, be provided with the locating hole that is used for connecting battery module on the locating lever, set up the third bolt on the battery module, third bolt threaded connection the locating hole.

According to the thin energy storage cabinet provided by the embodiment of the utility model, the number of the battery boxes is designed according to actual needs, two adjacent battery boxes are inserted between the side wall of the upper battery box and the reinforcing plate through the second protruding plate below, and then the two battery boxes are connected through the first bolt; the base and the battery box are inserted between the side wall of the battery box above and the reinforcing plate through the first protruding plate, and are connected through the first bolt connection, and the control box is inserted in the groove of the control box through the second protruding plate and is connected through the second bolt. The connection modes are all detachable connection, and the height of the energy storage cabinet and the number of the battery boxes can be changed.

Drawings

FIG. 1 is an overall schematic view of a thin energy storage cabinet according to a first embodiment of the present utility model;

FIG. 2 is an exploded view of a thin energy storage cabinet according to a first embodiment of the present utility model;

FIG. 3 is an exploded view of a battery compartment of a thin energy storage cabinet according to a first embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a control box of the thin energy storage cabinet according to the first embodiment of the present utility model;

fig. 5 is a schematic view of a partial explosion of a thin energy storage cabinet according to a first embodiment of the present utility model.

Reference numerals in the specification are as follows:

1. a base; 11. a first projection plate; 2. a battery box; 21. a cover body; 22. a housing; 23. a reinforcing plate; 231. bending the edge; 24. decorating the side wall; 241. a concave region; 25. an electrode; 3. a control box; 31. a groove; 32. a decorative wall; 4. a second projection plate; 5. a decorative plate; 6. and a positioning rod.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

First embodiment

As shown in fig. 1 and fig. 2, a thin energy storage cabinet according to a first embodiment of the present utility model includes a base 1, a battery box 2 and a control box 3 that are disposed from bottom to top, where the battery box 2 is disposed in a plurality of battery boxes 2, and the plurality of battery boxes 2 are stacked up and down. The top surface of the base 1 in this embodiment is rectangular, and the battery box 2 may be rectangular or square, and the thickness of the front and rear sides of the battery box 2 in this embodiment is smaller than the length of the left and right sides and the height in the up and down direction, so that the front and rear direction of the thin energy storage cabinet is thinner. The first direction in this embodiment is the longitudinal direction of the battery case 2 and the chassis 1.

The two sides of the base 1 in the length direction are provided with first protruding plates 11, the first protruding plates 11 protrude out of the top surface of the base 1, and the adjacent battery box 2 above the base 1 is clamped between the two first protruding plates 11; the top surface of the battery box 2 is connected with second protruding plates 4, two second protruding plates 4 are arranged along the length direction of the battery box 2, the thicknesses of the first protruding plates 11 and the second protruding plates 4 are the same, and the battery box 2 above is clamped between the two second protruding plates 4; the two side walls of the battery box 2 are respectively connected with a reinforcing plate 23, the reinforcing plates 23 and the side walls of the battery box 2 are arranged at intervals, the intervals between the reinforcing plates 23 and the battery box 2 are respectively larger than the thickness of the first protruding plate 11 and the thickness of the second protruding plate 4, the reinforcing plates 23 are provided with first threaded holes, and the first threaded holes are provided with first bolts in a penetrating mode.

After the base 1 and the battery are assembled, the first protruding plate 11 is inserted between the side wall of the battery box 2 at the lowest position and the corresponding reinforcing plate 23 on the side wall, the first protruding plate 11 is attached to the side wall of the battery box 2, the first protruding plate 11 and the corresponding reinforcing plate 23 are connected through the first bolt, the first bolt can be screwed into the reinforcing plate 23 first and then is abutted against the first protruding plate 11, and the first bolt can also be screwed into the reinforcing plate 23 and the first protruding plate 11 simultaneously.

Referring to fig. 3 and 5, the second projecting plate 4 is fitted to the side wall of the battery box 2 adjacent thereto, and the first bolts are used to connect the adjacent second projecting plate 4 and reinforcing plate 23. The second protruding plate 4 on the lower battery box 2 of the two adjacent battery boxes 2 is inserted between the side wall of the upper battery box 2 and the corresponding reinforcing plate 23 of the side wall, and then is connected through the first bolt.

Referring to fig. 4, both sides of the control box 3 in the length direction are provided with grooves 31 and second bolts, respectively, the groove width of the grooves 31 is greater than the thickness of the second projection plates 4, and the second projection plates 4 on the uppermost battery box 2 are inserted into the grooves 31, and the second bolts are used to connect the uppermost second projection plates 4 and the control box 3. In the present embodiment, the grooves 31 are near the side walls at both ends in the longitudinal direction of the control box 3.

The connection between the control box 3 and the battery box 2 is also the same, and the first bolt can be screwed into the side wall of the control box 3 and connected with the second protruding plate 4 by inserting the second protruding plate 4 into the groove 31. The first protruding plate 11 and the second protruding plate 4 in this embodiment have the same structure, wherein the first protruding plate 11 is a flat plate, two ends of the flat plate are bent upwards, the flat plate is fixed on the base 1, that is, the first protruding plate 11 has a U-shaped structure, and the second protruding plate 4 has a U-shaped structure, but the second protruding plate 4 is fixed on the battery case 2.

In this embodiment, the battery box 2 includes a battery module, an electrode 25, a cover 21 and a housing 22, the housing 22 and the cover 21 enclose a housing cavity, the cover 21 and the housing 22 are both unidirectionally opened, the openings of the two are opposite, the housing cavity is formed when the cover 21 covers the housing 22, the battery module is disposed in the housing cavity, one end of the electrode 25 penetrates into the housing 22 to connect the battery module, and one end of the electrode 25 penetrates out of the housing 22 to connect an external device.

Specifically, the electrodes 25 pass through the sides of the battery boxes 2, that is, the electrodes 25 pass through any sidewall in the left-right direction, the electrodes 25 on the plurality of battery boxes 2 are connected in series through connectors, and the sides of the control box 3 are provided with communication ports for the connectors to pass through, and the connectors in the embodiment may be copper bars or cables.

In this embodiment, the two sides of the battery case 2 are provided with the decoration side walls 24, the decoration side walls 24 are connected to the reinforcing plate 23, the surface of the decoration side walls 24 far away from the battery case 2 is provided with a plurality of decoration edges, in this embodiment, the plurality of decoration edges are parallel to each other, the decoration edges protrude out of the surface of the decoration side walls 24, and to a certain extent, the decoration edges not only have decoration effect, but also play a role in enlarging the heat dissipation area. Similarly, the two sides of the control box 3 are provided with decorative walls 32, and the surfaces of the decorative walls 32 far away from the control box 3 are provided with decorative strips, wherein the decorative strips have the same functions as the decorative edges.

In the present embodiment, the side of the decorative sidewall 24 near the battery case 2 is provided with a plurality of reinforcing ribs, and the plurality of reinforcing ribs are distributed in a grid. The side of the decorative wall 32 close to the control box 3 is provided with a plurality of reinforcing ribs which are distributed in a grid. The reinforcing ribs and the reinforcing bones play a role in reinforcing structural strength.

In the present embodiment, the reinforcing plate 23 is parallel to the side wall of the battery case 2, both sides of the reinforcing plate 23 are bent toward a direction away from the battery case 2 to form bent edges 231, and the bent edges 231 vertically extend such that the cross section of the reinforcing plate 23 is U-shaped.

In this embodiment, the decorative side wall 24 is provided with a concave region 241, and the height of the protruding decorative side wall 24 of the reinforcing bone in the concave region 241 is smaller than the height of the protruding decorative side wall 24 of the reinforcing bone outside the concave region 241. The concave region 241 in this embodiment is used to accommodate the reinforcing plate 23, and its depth is equal to the height of the bent edge 231 protruding from the reinforcing plate 23, however, in other embodiments, the depth of the concave region 241 may be greater than the height of the bent edge 231 protruding from the reinforcing plate 23. In this embodiment, for convenience in processing, the concave region 241 is directly provided with a rectangular pit shape, and in other embodiments, the shape of the concave region 241 may be the same as that of the reinforcing plate 23, so that the reinforcing plate 23 is perfectly embedded into the concave region 241.

In this embodiment, the front side of the battery box 2 is fixedly connected with a decorative plate 5, and the front surfaces of the decorative plate 5 are located on the same plane. The decorative board 5 is provided with a lamp groove, and an LED lamp is arranged in the lamp groove. In this embodiment, the light groove of the battery box 2 is long-strip-shaped and extends vertically, and the corresponding LED light is also vertically extending, and in other embodiments, the light groove is arranged on the control box 3, which may be a dot-shaped light groove or a long-strip-shaped light groove.

In this embodiment, the bottom wall of the housing 22 is provided with a positioning rod 6, at least one positioning rod 6 is provided, a positioning hole for connecting a battery module is provided on the positioning rod 6, and a third bolt is provided on the battery module and is in threaded connection with the positioning hole. The locating rod 6 has the function of quickly locating the battery module and playing a role of connection, and the locating rod 6 can also play a role of strengthening the integral structure of the battery box 2 to a certain extent and is equivalent to the function of a reinforcing rib.

Second embodiment

The thin type energy storage cabinet of the second embodiment of the present utility model is different from the first embodiment in that in this embodiment, the first protruding plate 11 may be a vertically extending flat plate, and is directly fixed on the base 1, and the second protruding plate 4 is also a vertically extending flat plate, and is directly fixed on the battery box 2.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The thin energy storage cabinet is characterized by comprising a base, a battery box and a control box which are arranged from bottom to top, wherein a plurality of battery boxes are arranged, and a plurality of battery boxes are stacked up and down;

the battery box comprises a base, a battery box, a first protruding plate, a second protruding plate, a battery box and a first connecting piece, wherein the two sides of the base along a first direction are provided with the first protruding plates, the first protruding plates protrude out of the top surface of the base, the two first protruding plates are oppositely arranged, and the adjacent battery box above the base is clamped between the two first protruding plates; the first direction is the length direction or the width direction of the base;

the top surface of the battery box is respectively connected with second protruding plates along two sides of the first direction, and the adjacent battery box above is clamped between the two second protruding plates;

the battery box comprises a battery box body, wherein the side walls of the two ends of the battery box body along a first direction are connected with reinforcing plates, the reinforcing plates and the side walls of the battery box body are arranged at intervals, the intervals between the reinforcing plates and the battery box body are respectively larger than the thickness of a first protruding plate and the thickness of a second protruding plate, the reinforcing plates are provided with first threaded holes, and first bolts penetrate through the first threaded holes;

the first protruding plate is inserted between the side wall of the battery box at the lowest part and the corresponding reinforcing plate, the first protruding plate is attached to the side wall of the battery box, and the first bolt is connected with the first protruding plate and the reinforcing plate;

the second protruding plate is attached to the side wall of the battery box adjacent to the upper side of the second protruding plate, and the first bolt is used for connecting the adjacent second protruding plate and the reinforcing plate;

the control box is characterized in that grooves and second bolts are respectively arranged on two sides of the control box in the length direction, the groove width of each groove is larger than the thickness of each second protruding plate, the second protruding plate on the battery box at the uppermost position is inserted into each groove, and the second bolts are used for connecting the second protruding plates at the uppermost position and the control box.

2. The thin type energy storage cabinet according to claim 1, wherein the battery box comprises a battery module, an electrode, a cover body and a shell, the shell and the cover body enclose a containing cavity, the battery module is arranged in the containing cavity, one end of the electrode penetrates into the shell to be connected with the battery module, and one end of the electrode penetrates out of the shell to be connected with external equipment.

3. The thin-type energy storage cabinet according to claim 2, wherein the electrodes penetrate out from the sides of the battery boxes, the electrodes on the plurality of battery boxes are connected in series through connecting pieces, and a communication port is arranged on the sides of the control box and used for the connecting pieces to penetrate through.

4. The thin energy storage cabinet according to claim 1, wherein two side walls of the battery box are provided with decorative side walls, the decorative side walls are connected to the reinforcing plate, and a plurality of decorative ribs are arranged on the surface of the decorative side walls far away from the battery box;

two side walls of the control box are provided with decorative walls, and the surfaces of the decorative walls, which are far away from the control box, are provided with decorative strips.

5. The thin-type energy storage cabinet according to claim 4, wherein a plurality of reinforcing ribs are arranged on one side of the decorative side wall, which is close to the battery box, and the plurality of reinforcing ribs are distributed in a grid manner;

and one side of the decorative wall, which is close to the control box, is provided with a plurality of reinforcing ribs, and the reinforcing ribs are distributed in a grid mode.

6. The thin-type energy storage cabinet according to claim 5, wherein the decorative side wall is provided with a concave area, and the height of the reinforcing ribs protruding from the decorative side wall in the concave area is smaller than the height of the reinforcing ribs protruding from the decorative side wall outside the concave area.

7. The thin-type energy storage cabinet according to claim 1, wherein the reinforcing plate is parallel to the side wall of the battery box, both sides of the reinforcing plate are bent toward a direction away from the battery box to form bent edges, and the bent edges vertically extend so that the cross section of the reinforcing plate is U-shaped.

8. The thin-type energy storage cabinet according to claim 1, wherein a decorative plate is fixedly connected to the front side of the battery box.

9. The thin energy storage cabinet of claim 8, wherein the decorative panel is provided with a light channel, and wherein the light channel is internally provided with an LED light.

10. The thin type energy storage cabinet according to claim 2, wherein a positioning rod is arranged on the bottom wall of the shell, at least one positioning rod is arranged on the positioning rod, a positioning hole for connecting a battery module is formed in the positioning rod, a third bolt is arranged on the battery module, and the third bolt is in threaded connection with the positioning hole.