KR102574499B1 - End Plate for Battery Module - Google Patents

Abstract

The present invention relates to an end plate for a battery module, and more particularly, to an end plate for a battery module coupled to both ends of a hollow battery case.
An end plate for a battery module of the present invention is an end plate for a battery module coupled to both sides of a hollow rectangular battery case, comprising: a first plate made of a synthetic resin material having insulation and formed by injection molding; a second plate made of a metal material, bent and formed by a press, coupled to the rear of the first plate, and welded to both sides of the battery case; Insert bushings made of metal that are mounted vertically on both sides of the first plate; seating portions having a length shorter than the height of the first plate are formed on both sides of the first plate, and the seating portion is formed on both sides of the first plate. An installation hole is formed in the vertical direction, the insert bushing is mounted in the vertical direction in the installation hole, and the second plate is exposed to the outside without covering the upper and lower portions of the seating portion so that the insert bushing is exposed in the vertical direction. characterized by

Description

End Plate for Battery Module { End Plate for Battery Module }

The present invention relates to an end plate for a battery module, and more particularly, to an end plate for a battery module coupled to both ends of a hollow battery case.

Demand for secondary batteries capable of storing electrical energy produced due to the development of alternative energy due to air pollution and energy depletion due to the use of fossil fuels has recently increased.

Secondary batteries capable of charging and discharging are closely used in daily life, such as being used in mobile devices, electric vehicles, hybrid electric vehicles, and the like.

Secondary batteries, which are used as energy sources for various electronic devices indispensably used in modern society, are increasing in capacity due to the increase in usage and complexity of mobile devices and the development of electric vehicles.

A plurality of battery cells are disposed in a small device to meet user demand, but a battery module electrically connecting a plurality of battery cells or a battery pack having a plurality of such battery modules is used in a vehicle or the like.

In general, a battery module, that is, a battery module includes a case, battery cells disposed inside the case, and end plates coupled to both ends of the case.

The end plate is made of metal or synthetic resin.

Recently, an end plate having a structure in which a synthetic resin and a metal are mutually coupled is also being developed.

However, in the conventional end plate having a structure in which synthetic resin and metal are combined, fastening between the synthetic resin plate and the metal plate is not robust and easy, the manufacturing productivity of the metal plate is not high, and a separate jig is combined with the synthetic resin plate to improve the overall quality of the end plate. There was a problem of deterioration in durability.

Patent Publication 10-2022-0001226 Patent Publication 10-2019-0063109

The present invention is to solve the above problems, it is possible to firmly and easily combine the synthetic resin plate and the metal plate, improve the manufacturing productivity of the metal plate, and improve the rigidity and durability when combining the end plate with a separate jig or the like. Its purpose is to provide an end plate for a battery module that can be used.

In order to achieve the above object, the end plate for a battery module of the present invention, in the end plate for a battery module coupled to both sides of a hollow rectangular battery case, is made of a synthetic resin material having insulation and formed by injection molding. plate; a second plate made of metal, bent and formed by a press, coupled to the rear of the first plate, and welded to both sides of the battery case; Insert bushings made of a metal material mounted vertically on both sides of the first plate; seating portions having a length shorter than the height of the first plate are formed on both sides of the first plate, and the seating portion is formed on both sides of the first plate. An installation hole is formed in the vertical direction, the insert bushing is mounted in the installation hole in the vertical direction, and the second plate is exposed to the outside without covering the upper and lower portions of the seating portion so that the insert bushing is exposed in the vertical direction. characterized by

The second plate may include a center plate facing the center of the first plate; an upper bent portion formed by bending the upper part of the center plate in a forward direction where the first plate is disposed; a lower bent portion bent in a lower portion of the center plate in a forward direction where the second plate is disposed; A side bent portion formed by bending forward on both sides of the center plate in which the first plate is disposed; the upper bent portion, the lower bent portion, and the side bent portion, respectively, of the upper, lower and side surfaces of the first plate. While wrapping, the upper bent part, the lower bent part and the side bent part are welded to the battery case.

A hook protrusion protrudes from the first plate in the direction of the second plate, and a hooking hole through which the hook protrusion is caught is formed in a central plate of the second plate.

A recessed part is formed in the center plate, the hooking hole is formed in the recessed part, and an end of the hook projection is disposed inside the recessed part after penetrating the hooking hole.

A plurality of anti-flow protrusions protrude from the rear surface of the first plate on which the second plate is disposed, and the anti-flow protrusions come into contact with the front surface of the second plate when the first plate and the second plate are coupled. Prevents the movement of the first plate and the second plate.

Step protrusions are formed on each of the upper bent portion, the lower bent portion, and the side bent portion of the second plate, and in a state in which the second plate is coupled to the first plate, the stepped protrusion portion corresponds to the front side of the first plate. hangs in the corner

The second plate is fixedly coupled to the first plate by insert injection.

According to the end plate for a battery module of the present invention as described above, the following effects are obtained.

According to the present invention, since the end plate is configured by combining the first plate made of synthetic resin with the second plate made of metal, the overall rigidity and durability of the end plate can be improved.

Since the second plate is formed by bending by pressing, productivity can be improved, the degree of freedom in selecting raw materials is high, and rigidity can be increased while reducing the thickness.

In addition, by mounting an insert bushing made of a metal material to the first plate made of an injection-molded material, durability can be increased through the insert bushing when the end plate is coupled to another configuration.

In addition, the first plate and the second plate can be easily coupled and firmly fixed without shaking by the hook protrusion and the locking hole, the stepped protrusion, and the anti-flow protrusion.

1 is a perspective view of an end plate for a battery module according to an embodiment of the present invention;
2 is an exploded perspective view in one direction of an end plate for a battery module according to an embodiment of the present invention;
3 is an exploded perspective view of an end plate for a battery module in another direction according to an embodiment of the present invention;
Figure 4 is a side cross-sectional view taken along line AA of Figure 1;
Figure 5 is a plan view taken along line BB of Figure 1;

As shown in FIG. 1, the end plate for a battery module of the present invention is coupled to both sides of a hollow rectangular battery case 40, and includes a first plate 10, a second plate 20, and an insert bushing. (30).

As shown in FIGS. 1 to 5 , the first plate 10 is made of a synthetic resin material having insulating properties and is formed by injection molding.

The second plate 20 is made of a metal material, bent and formed by a press, and coupled to the first plate 10 at the rear of the first plate 10, that is, in the opposite direction to the battery case 40.

The second plate 20 is welded to both sides of the battery case 40 when the end plate is coupled to the battery case 40 .

The insert bushing 30 is made of a metal material and mounted vertically on both sides of the first plate 10 made of an injection-molded material.

A separate jig or the like is mounted on the insert bushing 30 to support the battery case 40 .

As described above, overall durability of the end plate may be increased by coupling a separate jig or the like to the insert bushing 30 made of metal instead of directly coupling the first plate 10 made of an injection-molded material.

Seating parts 11 having a length shorter than the height of the first plate 10 are formed on both sides of the first plate 10 .

An empty space is formed in the upper and lower portions of the seating portion 11, so that the top length of the seating portion 11 is shorter than the top length of the first plate 10.

An installation hole 12 is formed through the mounting portion 11 in the vertical direction.

And, the insert bushing 30 is mounted in the installation hole 12 in the vertical direction.

At this time, the insert bushing 30 may be coupled through a separate assembly process after manufacturing the first plate 10, and the insert bushing 30 is coupled to the first plate 10 through insert injection. You can do it.

And, when the second plate 20 is coupled to the first plate 10, the second plate 20 is positioned above the seating part 11 so that the insert bushing 30 is exposed in the vertical direction. and exposed to the outside without covering the lower part.

The upper and lower portions of the insert bushing 30 are exposed to the outside due to the coupling structure as described above, so that a separate jig or the like can be easily fastened to the insert bushing 30 .

The second plate 20 includes a center plate 21, an upper bent part 22, a lower bent part 23, and a side bent part 24.

The center plate 21 is disposed at the center of the second plate 20 and faces the center of the first plate 10 .

The upper bent portion 22 is formed by bending the upper part of the center plate 21 toward the front where the first plate 10 is disposed.

The lower bent portion 23 is formed by bending from the lower portion of the center plate 21 toward the front where the second plate 20 is disposed.

The side bent portion 24 is formed by bending from both sides of the center plate 21 toward the front where the first plate 10 is disposed.

The upper bent part 22, the lower bent part 23, and the side bent part 24 are coupled while wrapping the upper, lower and side surfaces of the first plate 10, respectively.

In a state where the first plate 10 and the second plate 20 are coupled, the upper bent part 22, the lower bent part 23, and the side bent part 24 are respectively attached to the battery case 40. By welding, the end plate is fixedly coupled to the battery case 40 .

The first plate 10 and the second plate 20 may be combined in various ways.

In this embodiment, a hook protrusion 13 is protruded from the first plate 10 toward the second plate 20 .

In addition, a hooking hole 21b through which the hook protrusion 13 passes is formed in the central plate 21 of the second plate 20 .

Therefore, when the first plate 10 and the second plate 20 are placed in contact with each other, the hook protrusion 13 penetrates the hooking hole 21b and then the center plate of the second plate 20. Hooked on (21), the first plate 10 and the second plate 20 are coupled to each other.

In addition, it is preferable that the center plate 21 has a recessed portion 21a concavely recessed in the direction of the first plate 10, and the locking hole 21b is formed in the recessed portion 21a. .

As described above, by forming the recessed part 21a and forming the hooking hole 21b in the recessed part 21a, the end of the hook protrusion 13 penetrating the hooking hole 21b is the recessed part 21a. ), so that the end of the hook protrusion 13 does not protrude more than the central plate 21 of the second plate 20.

Further, stepped protrusions 25 are formed on the upper bent portion 22, the lower bent portion 23, and the side bent portion 24 of the second plate 20, respectively.

The stepped protrusion 25 protrudes toward the center plate 21 from the upper bent part 22, the lower bent part 23, and the side bent part 24, so that the upper bent part 22 and the lower bent part 24 are bent. It is formed stepwise with the part 23 and the side bent part 24.

In a state in which the second plate 20 is coupled to the first plate 10, the stepped protrusion 25 corresponds to the front edge of the first plate 10, that is, in the opposite direction of the second plate 20. gets caught on the edge of

When the second plate 20 is coupled to the first plate 10, the upper bent portion 22 and the lower bent portion are formed by the stepped protrusion 25 protruding toward the center plate 21. (23) and the side bent portion 24 are slightly widened, and when the stepped protrusion 25 crosses the first plate 10, it is restored to its original position by elastic restoring force, and the stepped protrusion 25 respectively It is caught on the corresponding front edge.

Due to this, the second plate 20 forms an additional coupling structure together with the coupling structure of the hook protrusion 13 and the locking hole 21b with respect to the first plate 10, and the stepped protrusion 25 ), it is possible to prevent the first plate 10 and the second plate 20 from moving in the vertical and horizontal directions.

In addition, a plurality of flow prevention protrusions 15 are protruded from the rear surface of the first plate 10 on which the second plate 20 is disposed.

When the first plate 10 and the second plate 20 are coupled, the anti-flow protrusion 15 comes into contact with the front surface of the second plate 20, and the first plate 10 and the second plate 20 to prevent forward and backward flow.

That is, since the first plate 10 is made of an injection material and the flow prevention protrusion 15 protrudes in the direction of the second plate 20, the flow prevention protrusion 15 made of an injection material is slightly has the elasticity of

Therefore, when the second plate 20 is coupled to the rear surface of the first plate 10, the anti-flow protrusion 15 is slightly compressed while being in close contact with the front surface of the second plate 20, The first plate 10 and the second plate 20 may come into close contact with each other and be fixed.

To this end, the protruding height of the flow prevention protrusion 15 is determined by the hook protrusion 13 being inserted into the locking hole 21b and the stepped protrusion 25 being caught on the corresponding front edge of the first plate 10. When the first plate 10 and the second plate 20 are coupled, the distance between the rear surface of the first plate 10 and the front surface of the second plate 20 is slightly larger than that.

In some cases, the first plate 10 and the second plate 20 may be mutually coupled by insert molding.

That is, the second plate 20 may be fixedly coupled to the first plate 10 by insert injection.

In the present invention, since the second plate 20 is formed by bending by pressing, productivity can be improved, the degree of freedom in selecting raw materials is high, and rigidity can be increased while reducing the thickness.

In addition, by mounting the insert bushing 30 made of a metal material to the first plate 10 made of an injection-molded material, durability can be increased through the insert bushing 30 when the end plate is coupled to another configuration.

In addition, the first plate 10 and the second plate 20 are easily coupled by the hook protrusion 13, the locking hole 21b, the stepped protrusion 25, the anti-flow protrusion 15, etc. It can be fixedly coupled without shaking.

The present invention, the end plate for a battery module, is not limited to the above-described embodiment, and may be variously modified and implemented within a range permitted by the technical spirit of the present invention.

10: first plate, 11: seating part, 12: installation hole, 13: hook protrusion, 15: flow prevention protrusion,
20: second plate, 21: center plate, 21a: recessed part, 21b: hooking hole, 22: upper bent part, 23: lower bent part, 24: side bent part, 25: stepped protrusion,
30: insert bushing,
40: battery case.

Claims (7)

In the end plate for a battery module coupled to both sides of a hollow rectangular battery case,
a first plate made of an insulating synthetic resin material and formed by injection molding;
a second plate made of a metal material, bent and formed by a press, coupled to the rear of the first plate, and welded to both sides of the battery case;
Including; insert bushings made of metal that are mounted in the vertical direction on both sides of the first plate,
Seating portions having a length shorter than the height of the first plate are formed on both sides of the first plate,
An installation hole is formed in the upper and lower directions in the seating portion,
The insert bushing is mounted in the vertical direction in the installation hole,
The second plate is exposed to the outside without covering the upper and lower portions of the seating portion so that the insert bushing is exposed in the vertical direction,
The second plate,
a center plate facing the center of the first plate;
an upper bent portion formed by bending the upper part of the center plate in a forward direction where the first plate is disposed;
a lower bent portion bent in a lower portion of the center plate in a forward direction where the second plate is disposed;
It is made by including; side bending formed on both sides of the center plate in a forward direction where the first plate is disposed,
The upper bent part, the lower bent part and the side bent part are coupled while wrapping the upper, lower and side surfaces of the first plate, respectively,
The upper bent part, the lower bent part and the side bent part are welded to the battery case,
A stepped protrusion protruding in the direction of the center plate is formed on each of the upper bent portion, the lower bent portion, and the side bent portion of the second plate,
When the second plate is coupled to the first plate, the upper bent portion, the lower bent portion, and the side bent portion are widened by the stepped protrusion protruding toward the center plate, and the stepped protrusion extends beyond the first plate. When it goes, it is restored to its original position by the elastic restoring force, and the stepped protrusions are caught on the front edge of the corresponding first plate, respectively, so that the first plate and the second plate are coupled to each other to prevent them from flowing in the vertical and horizontal directions,
Hook protrusions are formed on the first plate to protrude in the direction of the second plate,
A hooking hole through which the hook protrusion passes is formed in the center plate of the second plate,
A plurality of anti-flow protrusions protrude from the rear surface of the first plate on which the second plate is disposed,
The flow prevention protrusion contacts the front surface of the second plate when the first plate and the second plate are coupled to prevent the first plate and the second plate from flowing,
The anti-flow protrusion has an elastic force,
The protruding height of the flow prevention protrusion is determined by the rear surface of the first plate when the hook protrusion is inserted into the locking hole and the stepped protrusion is caught on the corresponding front edge of the first plate and the first plate and the second plate are coupled. End plate for a battery module, characterized in that formed larger than the gap between the front surface of the second plate.
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