KR102325636B1 - Housing for battery module - Google Patents

Abstract

The present invention relates to a housing for a battery module, compising: a first plate comprising a plurality of battery cells and supporting a lower part of a battery unit in which a first electrode unit is formed at a front and a second electrode unit is formed at a rear; a second plate formed on one side of the first plate and foldable to surround one side of the battery unit; a third plate formed on the other side of the first plate and foldable to surround the other side of the battery unit; a fourth plate formed in front of the first plate and foldable to surround a front of the battery unit; a first bus bar coupled to the fourth plate and in contact with the first electrode unit; a fifth plate formed at a rear of the first plate and foldable to surround a rear of the battery unit; a second bus bar coupled to the fifth plate and in contact with the second electrode unit; a sixth plate formed on one side of the second plate or the other side of the third plate and foldable to surround an upper surface of the battery unit; a seventh plate formed in front of the sixth plate and foldable to surround the fourth plate; and an eighth plate formed at a rear of the sixth plate and foldable to surround the fifth plate, wherein a plurality of integrally formed plates can be folded to accommodate the battery cells therein.

Description

Housing for battery module

The present invention relates to a housing for a battery module, and more particularly, to a housing capable of protecting a battery cell accommodated therein.

A secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged. It is used as a power source for Vehicle, Energy Storage System) or hybrid vehicle (HEV, Hybrid Electric Vehicle).

Types of secondary batteries currently widely used include lithium ion batteries, lithium polymer batteries, nickel cadmium batteries, nickel hydride batteries, nickel zinc batteries, and the like. The unit secondary battery cell, that is, the operating voltage of the unit battery cell is about 25V ~ 42V.

Accordingly, when higher output voltage and energy capacity are required, a battery module is configured by connecting a plurality of battery cells in series, or two or more battery modules are connected in series or parallel and other components are added to form a battery pack. make up For example, a battery module may refer to a device in which a plurality of secondary cells are connected in series or parallel, and a battery pack may refer to a component in which battery modules are connected in series or in parallel to increase capacity and output. The number of battery cells included in the battery pack may be variously set according to a required output voltage or charge/discharge capacity.

In general, a battery module includes a housing for accommodating and packaging battery cells therein, and protecting them from external shocks and the like. The conventional housing is made of a thick steel plate and serves to safely protect the battery cells from external impact, but due to the weight of the steel plate, it does not meet the weight reduction requirements of automobiles, and there is a problem in that the assembly process is complicated because it consists of several parts. .

Korean Patent Application Laid-Open No. 10-2017-0141402, 'Battery module including an exterior member coupled by a hinge structure' is a hinge structure in which a first exterior member and a second exterior member surrounding the outer surface of a battery cell assembly are reversibly coupled to each other. Disclosed is a combined battery module.

It is an object of the present invention to provide a housing for a battery module capable of accommodating a battery cell therein by folding a plurality of plates formed integrally.

The above object is made of a plurality of battery cells, the first electrode portion is formed in the front and the first plate supporting the lower portion of the battery portion in which the second electrode portion is formed in the rear; a second plate formed on one side of the first plate and foldable to surround one side of the battery unit; a third plate formed on the other side of the first plate and foldable to surround the other side of the battery unit; a fourth plate formed in front of the first plate and foldable to surround the front of the battery unit; a first bus bar coupled to the fourth plate and in contact with the first electrode part; a fifth plate formed at the rear of the first plate and foldable to surround the rear of the battery unit; a second bus bar coupled to the fifth plate and in contact with the second electrode unit; a sixth plate formed on one side of the second plate or the other side of the third plate and foldable to surround the upper surface of the battery unit; a seventh plate formed in front of the sixth plate and foldable to surround the fourth plate; And it can be achieved by the housing for the battery module that is formed on the rear of the sixth plate and can include an eighth plate that can be folded to surround the fifth plate.

In addition, the above object, the first plate can be achieved by a housing for a battery module in which one or more cooling holes can be formed.

In addition, the above object may be achieved by a battery module housing in which the battery unit is formed by stacking battery cells in a horizontal direction, and the first plate is formed with a plurality of standing units into which the lower portions of the battery cells are inserted.

In addition, the above object, the second plate and the third plate can be achieved by a battery module housing to which a protective pad in contact with the side surface of the battery unit can be coupled.

In addition, the above object is, the battery unit is formed by stacking battery cells in the horizontal direction, the fourth plate is formed with a plurality of first cut-outs through which the first electrode of the battery cell passes, and the fifth plate is the second of the battery cells. It can be achieved by a housing for a battery module in which a plurality of second cut-outs through which the electrode part passes can be formed.

In addition, the above object is, the first bus bar is coupled to the outer surface of the fourth plate to contact the first electrode portion protruding out of the fourth plate through the first cutout, the second bus bar is outside the fifth plate It can be achieved by a housing for a battery module that is coupled to the side and can contact the second electrode part protruding out of the fifth plate through the second cutout.

In addition, the above object is for a battery module in which the fourth plate is formed with a plurality of first support portions into which the front of the battery cell is inserted, and the fifth plate is formed with a plurality of second support portions into which the rear of the battery cell is inserted. This can be achieved by the housing.

In addition, the above object is, the first support portion protrudes from the inner surface of the fourth plate and is formed in the longitudinal direction, and the second support portion protrudes from the inner surface of the fifth plate to the housing for the battery module that can be formed in the vertical direction. can be achieved by

In addition, for the above object, the fourth plate has a plurality of first fastening holes, the fifth plate has a plurality of second fastening holes, the seventh plate has a plurality of third fastening holes, and the eighth plate has a plurality of first fastening holes. The plate is provided with a plurality of fourth fastening holes, the fourth plate and the seventh plate are coupled with bolts inserted into the first fastening hole and the third fastening hole, and the fifth plate and the eighth plate are connected to the second fastening hole and the second fastening hole. It can be achieved by a housing for a battery module that can be coupled with a bolt inserted into the fourth fastening hole.

In addition, for the above object, the seventh plate has a first connection hole for electrically connecting the first bus bar and an external circuit, and the eighth plate has a second connection hole for electrically connecting the second bus bar and an external circuit. This can be achieved by a housing for a battery module that can be formed.

According to the housing for a battery module according to the present invention, the first plate is made of a plurality of battery cells to support the lower portion of the battery portion in which a first electrode portion is formed in the front and a second electrode portion is formed in the rear; a second plate formed on one side of the first plate and foldable to surround one side of the battery unit; a third plate formed on the other side of the first plate and foldable to surround the other side of the battery unit; a fourth plate formed in front of the first plate and foldable to surround the front of the battery unit; a first bus bar coupled to the fourth plate and in contact with the first electrode part; a fifth plate formed at the rear of the first plate and foldable to surround the rear of the battery unit; a second bus bar coupled to the fifth plate and in contact with the second electrode unit; a sixth plate formed on one side of the second plate or the other side of the third plate and foldable to surround the upper surface of the battery unit; a seventh plate formed in front of the sixth plate and foldable to surround the fourth plate; and an eighth plate that is formed on the rear of the sixth plate and can be folded to surround the fifth plate, so that the battery unit can be accommodated therein by folding a plurality of integrally formed plates, and the housing is integrally formed As a result, the manufacturing process can be reduced, and the manufacturing cost and manufacturing time can be reduced by reducing the manufacturing process.

In addition, according to the housing for the battery module according to the present invention, since one or more cooling holes may be formed in the first plate, it is possible to prevent the battery unit from being overheated.

In addition, according to the housing for a battery module according to the present invention, since the battery unit is formed by stacking battery cells in a horizontal direction, and the first plate may be formed with a plurality of standing units into which the lower portions of the battery cells are inserted, the battery unit is inside the housing. can be safely supported in

In addition, according to the housing for the battery module according to the present invention, the second plate and the third plate can be coupled to the protective pad in contact with the side surface of the battery unit, so that the battery unit accommodated in the housing is compressed or subjected to external shock while reinforcing the rigidity of the housing. damage can be prevented.

In addition, according to the battery module housing according to the present invention, the battery unit is formed by stacking battery cells in the horizontal direction, the fourth plate is formed with a plurality of first cut-outs through which the first electrode unit of the battery cell passes, and a fifth Since the plate may have a plurality of second cutouts through which the second electrode part of the battery cell passes, the battery part may be safely accommodated in the housing while the first electrode part may be exposed to the outside of the fourth plate and the second electrode part may be It can be exposed to the outside of the plate.

In addition, according to the housing for a battery module according to the present invention, the first bus bar is coupled to the outer surface of the fourth plate and comes into contact with the first electrode part protruding out of the fourth plate through the first cutout, and the second bus bar Since the bar is coupled to the outer surface of the fifth plate and can contact the second electrode part protruding out of the fifth plate through the second cutout, the battery part is safely accommodated in the housing while the first electrode part contacts the first bus bar. and the second electrode part may be in contact with the second bus bar.

In addition, according to the battery module housing according to the present invention, the fourth plate is formed with a plurality of first support parts into which the front of the battery cell is inserted, and the fifth plate has a plurality of second support parts into which the rear of the battery cell is inserted. Since it can be formed, the battery part can be safely supported inside the housing.

In addition, according to the housing for the battery module according to the present invention, the first support part protrudes from the inner surface of the fourth plate and is formed in the longitudinal direction, and the second support part protrudes from the inner surface of the fifth plate to be formed in the longitudinal direction. Therefore, it is possible to safely support the battery unit accommodated in the housing while reinforcing the rigidity of the housing.

Further, according to the housing for a battery module according to the present invention, the fourth plate has a plurality of first fastening holes, the fifth plate has a plurality of second fastening holes, and the seventh plate has a plurality of third fastening holes. A hole is formed in the eighth plate, a plurality of fourth fastening holes are formed, the fourth plate and the seventh plate are coupled with bolts inserted into the first fastening hole and the third fastening hole, and the fifth plate and the eighth fastening hole are formed. Since the plate can be coupled with a bolt inserted into the second fastening hole and the fourth fastening hole, the first bus bar and the second bus bar can be protected while reinforcing the rigidity of the housing.

In addition, according to the battery module housing according to the present invention, the seventh plate has a first connection hole formed to electrically connect the first bus bar and an external circuit, and the eighth plate electrically connects the second bus bar and an external circuit. Since the second connection hole may be formed for connection, it is possible to electrically connect the battery unit and the external circuit while protecting the first bus bar and the second bus bar.

1 is a perspective view showing a housing for a battery module according to the present invention.
2 is a perspective view showing that the battery unit is seated in the housing for the battery module according to the present invention.
3 is a perspective view illustrating a state in which the first bus bar and the second bus bar of the housing for a battery module according to the present invention are separated.
4 is a perspective view illustrating a state in which the housing for a battery module according to the present invention is assembled.
5 is a plan view illustrating a housing for a battery module according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

The X, Y, and Z axes shown in the drawings are arbitrarily set for convenience of explanation, not for the purpose of limiting rights. , and the Z axis is defined as indicating the up and down directions.

Each direction described below is based thereon, except where otherwise specifically limited.

Top (top), bottom (bottom), left and right (side or lateral), front (front, front), back (back, back), etc., which refer to directions in the description and claims of the invention, are not intended to limit the right. For the convenience of description, the relative positions between the drawings and the components are determined as a reference, and each direction described below is based on this, except when otherwise specifically limited.

1 to 5 , the housing 10 for a battery module according to the present invention has a hexahedral shape, consists of a plurality of battery cells 2 , a first electrode part 3 is formed in the front, and a second electrode part 3 is formed in the rear. a first plate 100 supporting a lower portion of the battery unit 1 on which the electrode unit 4 is formed; a second plate 200 formed on one side of the first plate 100 and foldable to surround one side of the battery unit 1; a third plate 300 formed on the other side of the first plate 100 and foldable to surround the other side of the battery unit 1; a fourth plate 400 formed in front of the first plate 100 and foldable to surround the front of the battery unit 1; a first bus bar 5 coupled to the fourth plate 400 and in contact with the first electrode unit 3 ; a fifth plate 500 formed in the rear of the first plate 100 and foldable to surround the rear of the battery unit 1; a second bus bar 6 coupled to the fifth plate 500 and in contact with the second electrode unit 4 ; a sixth plate 600 formed on one side of the second plate 200 or the other side of the third plate 300 and foldable to surround the upper surface of the battery unit 1; a seventh plate 700 formed in front of the sixth plate 600 and foldable to surround the fourth plate 400; and an eighth plate 800 formed at the rear of the sixth plate 600 and foldable to surround the fifth plate 500 .

The battery unit 1 may be formed by stacking a plurality of battery cells 2 in a horizontal direction.

In the battery unit 1, the first electrode unit 3 is located at the front, and the second electrode unit 4 is located at the rear side.

1 to 3 and 5 , the first plate 100 is a component supporting the lower portion of the battery unit 1 , and is a portion located on the floor of the hexahedral housing 10 .

The first plate 100 has a second plate 200 on the left, a third plate 300 on the right, a fourth plate 400 on the front, and a fifth plate 500 on the back. can be located

One or more cooling holes 110 penetrating vertically may be formed in the first plate 100 to prevent the battery unit 1 from overheating.

The first plate 100 may be formed with a plurality of standing parts 120 capable of supporting the lower portion of the battery unit 1 .

The standing part 120 may be formed in a concave-convex shape so that the lower portions of the battery cells 2 may be respectively inserted.

1 to 3 and 5 , the second plate 200 is configured to protect one side (left) of the battery unit 1, and is a portion located on the left side of the hexahedral housing 10.

The second plate 200 may be folded upward based on the first plate 100 to form a wall on the left side of the battery unit 1 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the first plate 100 and the second plate 200 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the second plate 200 is folded based on the first plate 100 .

The V-shaped groove or the U-shaped groove may allow the second plate 200 to be accurately and easily folded with respect to the first plate 100 .

In the hexahedral housing 10 , the second plate 200 comes into contact with the fourth plate 400 , the fifth plate 500 , and the sixth plate 600 .

The second plate 200 may have an inclined surface formed around the periphery in contact with the fourth plate 400 , the fifth plate 500 , and the sixth plate 600 .

The inclined surface formed around the second plate 200 may be in contact with the inclined surface formed around the fourth plate 400 , the fifth plate 500 , and the sixth plate 600 .

The second plate 200 may be coupled to a protective pad 210 in contact with the left side of the battery unit 1 .

The protective pad 210 may be adhered to the second plate 200 or formed by double injection.

The protective pad 210 may be formed of one or more layers made of an insulating material, a buffer material, or a hard material.

The protective pad 210 may reinforce the rigidity of the second plate 200 .

The protective pad 210 may prevent the left side of the battery unit 1 from being compressed or damaged by an external force or an external shock.

The protective pad 210 may absorb the expansion of the battery unit 1 when a swelling phenomenon occurs.

1 to 5 , the third plate 300 is a component for protecting the other side portion (right side) of the battery unit 1 , and is a portion located on the right side of the hexahedral housing 10 .

The third plate 300 may be folded upward based on the first plate 100 to form a wall on the right side of the battery unit 1 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the first plate 100 and the third plate 300 meet and come into contact.

The V-shaped groove or the U-shaped groove may provide a reference line on which the third plate 300 is folded based on the first plate 100 .

The V-shaped groove or the U-shaped groove may allow the third plate 300 to be accurately and easily folded with respect to the first plate 100 .

In the hexahedral housing 10 , the third plate 300 comes into contact with the fourth plate 400 and the fifth plate 500 .

The third plate 300 may have an inclined surface formed around the periphery in contact with the fourth plate 400 and the fifth plate 500 .

The inclined surface formed around the third plate 300 may be in contact with the inclined surface formed around the fourth plate 400 and the fifth plate 500 .

The third plate 300 may be coupled to a protective pad 310 in contact with the right side of the battery unit 1 .

The protective pad 310 may be adhered to the fourth plate 400 or formed by double injection.

The protective pad 310 may be formed of one or more layers made of an insulating material, a buffer material, or a hard material.

The protective pad 310 may reinforce the rigidity of the third plate 300 .

The protection pad 310 may prevent the right side of the battery unit 1 from being compressed or damaged by an external force or an external shock.

The protective pad 310 may absorb the expansion of the battery unit 1 when a swelling phenomenon occurs.

1 to 5 , the fourth plate 400 is a component for protecting the front portion of the battery unit 1 , and is a portion positioned at the front of the hexahedral housing 10 .

The fourth plate 400 may be folded upward based on the first plate 100 to form a wall in front of the battery unit 1 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the first plate 100 and the fourth plate 400 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the fourth plate 400 is folded based on the first plate 100 .

The V-shaped groove or the U-shaped groove may allow the fourth plate 400 to be accurately and easily folded with respect to the first plate 100 .

In the hexahedral housing 10 , the fourth plate 400 comes into contact with the second plate 200 , the third plate 300 , the sixth plate 600 , and the seventh plate 700 .

The fourth plate 400 may have an inclined surface formed around the periphery in contact with the second plate 200 and the third plate 300 .

The inclined surface formed around the fourth plate 400 may be in contact with the inclined surface formed around the second plate 200 and the third plate 300 .

The fourth plate 400 may be coupled to a first bus bar 5 contacting the first electrode part 3 of the battery part 1 .

The fourth plate 400 may have a plurality of first cutouts 410 through which the first electrode part 3 passes.

The first cutout 410 may be formed in a vertical direction so that the first electrode 3 of the battery unit 1 in which the battery cells 2 are stacked in the horizontal direction can pass therethrough.

When the fourth plate 400 is folded with respect to the first plate 100 , the first electrode part 3 may pass through the first cut-out part 410 and be exposed to the outside of the fourth plate 400 .

The first bus bar 5 is coupled to the outside of the fourth plate 400 folded with respect to the first plate 100 , passes through the first cut-out 410 , and is exposed to the outside of the fourth plate 400 . It may be in contact with the first electrode part 3 .

The fourth plate 400 may have a first depression 460 accommodating the first bus bar 5 on the outer surface thereof.

The first bus bar 5 may be coupled to the first recessed portion 460 of the fourth plate 400 and may not protrude outside the fourth plate 400 .

The first bus bar 5 may be fixed by the first upper jaw 440 and the first lower jaw 450 formed in the first recessed portion 460 of the fourth plate 400 .

The fourth plate 400 may be formed with a plurality of first support parts 420 into which the front of the battery part 1 is inserted.

The first support part 420 may be formed in a vertical direction so that the front side of the battery cells 2 stacked in the horizontal direction can be inserted.

The first support part 420 may be formed in a concave-convex shape so that the front of the battery cell 2 can be inserted, respectively.

The first support part 420 may protrude from the inner surface of the fourth plate 400 and be formed in the longitudinal direction.

The first cut-out portion 410 may be formed in a concave portion of the first support portion 420 of the concave-convex shape.

The fourth plate 400 may be formed with a plurality of first fastening holes 430 to which the bolts 7 are coupled.

Referring to FIG. 3 , the first bus bar 5 is in contact with the first electrode part 3 of the battery part 1 to provide an electrical connection between the external circuit (not shown) and the first electrode part 3 . is a configuration that

The first bus bar 5 may be coupled to the inside or outside of the fourth plate 400 .

The first bus bar 5 may contact all or part of the electrodes of the battery cells 2 constituting the first electrode part 3 according to the shape of the first electrode part 3 .

The first bus bar 5 may be provided in singular or plural number, and when the first bus bar 5 is provided in plurality, the fourth plate 400 separates the plurality of first bus bars 5 from each other. A chin may be formed.

The first bus bar 5 may be coupled to the first electrode part 3 by welding.

The first bus bar 5 may be coupled to the already made fourth plate 400 or coupled to the fourth plate 400 by insert injection.

1 to 3 and 5 , the fifth plate 500 is a component for protecting the rear surface of the battery unit 1 , and is a portion located at the rear of the hexahedral housing 10 .

The fifth plate 500 may be folded upward based on the first plate 100 to form a wall at the back of the battery unit 1 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the first plate 100 and the fifth plate 500 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the fifth plate 500 is folded based on the first plate 100 .

The V-shaped groove or the U-shaped groove may allow the fifth plate 500 to be accurately and easily folded with respect to the first plate 100 .

In the hexahedral housing 10 , the fifth plate 500 comes into contact with the second plate 200 , the third plate 300 , the sixth plate 600 , and the eighth plate 800 .

The fifth plate 500 may have an inclined surface formed around the periphery in contact with the second plate 200 and the third plate 300 .

The inclined surface formed around the fifth plate 500 may be in contact with the inclined surface formed around the second plate 200 and the third plate 300 .

The fifth plate 500 may be coupled to a second bus bar 6 contacting the second electrode part 4 of the battery part 1 .

A plurality of second cutouts 510 through which the second electrode part 4 passes may be formed in the fifth plate 500 .

The second cut-out portion 510 may be formed in the vertical direction so that the second electrode portion 4 of the battery unit 1 in which the battery cells 2 are stacked in the horizontal direction can pass therethrough.

When the fifth plate 500 is folded with respect to the first plate 100 , the second electrode part 4 may pass through the second cut-out part 510 to be exposed to the outside of the fifth plate 500 .

The second bus bar 6 is coupled to the outside of the fifth plate 500 folded with respect to the first plate 100 , passes through the second cut-out 510 , and is exposed to the outside of the fifth plate 500 . It may be in contact with the second electrode part 4 .

The fifth plate 500 may have a second recessed portion 560 for accommodating the second bus bar 6 on the outer surface thereof.

The second bus bar 6 may be coupled to the second recessed portion 560 of the fifth plate 500 and may not protrude outside the fifth plate 500 .

The second bus bar 6 may be fixed by the second upper jaw 540 and the second lower jaw 550 formed in the second recessed portion 560 of the fifth plate 500 .

The fifth plate 500 may be formed with a plurality of second support parts 520 into which the rear of the battery part 1 is inserted.

The second support part 520 may be formed in a vertical direction so that the rear of the battery cells 2 stacked in the horizontal direction can be inserted.

The second support part 520 may be formed in a concave-convex shape so that the rear of the battery cell 2 can be inserted, respectively.

The second support part 520 may protrude from the inner surface of the fifth plate 500 and be formed in the longitudinal direction.

The second cut-out portion 510 may be formed in a concave portion of the second support portion 520 of the concave-convex shape.

A plurality of second fastening holes 530 to which the bolts 7 are coupled may be formed in the fifth plate 500 .

Referring to FIG. 3 , the second bus bar 6 is in contact with the second electrode part 4 of the battery part 1 to provide an electrical connection between the external circuit and the second electrode part 4 .

The second bus bar 6 may be coupled to the inside or outside of the fifth plate 500 .

The second bus bar 6 may contact all or part of the electrodes of the battery cells 2 constituting the second electrode part 4 according to the shape of the second electrode part 4 .

The second bus bar 6 may be provided singly or in plurality.

The second bus bar 6 may be provided singly or in plurality, and when the second bus bar 6 is provided in plurality, the fifth plate 500 separates the plurality of second bus bars 6 from each other. A chin may be formed.

The first bus bar 5 may be coupled to the first electrode part 3 by a method such as laser welding.

The second bus bar 6 may be coupled to the already made fifth plate 500 or may be coupled to the fifth plate 500 by insert injection.

1 to 5 , the sixth plate 600 is a component for protecting the upper portion of the battery unit 1 , and is a portion positioned above the hexahedral housing 10 .

The sixth plate 600 may be formed on one side of the second plate 200 or the other side of the third plate 300 .

The sixth plate 600 is folded clockwise with respect to the second plate 200 forming a wall on the left side of the battery unit 1 to form a cover on the top of the battery unit 1, or the battery unit 1 A cover may be formed on the upper portion of the battery unit 1 by folding in a counterclockwise direction with respect to the third plate 300 forming a wall on the right side of the .

The sixth plate 600 may have the seventh plate 700 positioned at the front and the eighth plate 800 positioned at the rear.

The sixth plate 600 may have a greater length in the front-back direction than the first plate 100 .

Hereinafter, a case in which the sixth plate 600 is formed on the other side of the third plate 300 will be described.

A V-shaped groove or a U-shaped groove may be formed along a portion where the third plate 300 and the sixth plate 600 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the sixth plate 600 is folded based on the third plate 300 .

The V-shaped groove or the U-shaped groove may allow the sixth plate 600 to be accurately and easily folded with respect to the third plate 300 .

In the hexahedral housing 10 , the sixth plate 600 comes into contact with the second plate 200 .

The sixth plate 600 may have an inclined surface formed around the periphery in contact with the second plate 200 .

The inclined surface formed around the sixth plate 600 may be in contact with the inclined surface formed around the second plate 200 .

The sixth plate 600 may be coupled to a protection pad (not shown) in contact with the upper portion of the battery unit 1 , and the protection pad may be coupled to the protection pad 210 or the third plate coupled to the second plate 200 . It may be formed in the same manner as the protective pad 310 coupled to the 300 .

1 to 5 , the seventh plate 700 is configured to prevent the first electrode part 3 and the first bus bar 5 of the battery part 1 from being exposed to the outside of the housing 10 . As such, it is a portion positioned in front of the fourth plate 400 in the hexahedral housing 10 .

The seventh plate 700 may be folded down based on the sixth plate 600 , which forms a cover over the battery unit 1 , to form a wall in front of the fourth plate 400 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the sixth plate 600 and the seventh plate 700 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the seventh plate 700 is folded based on the sixth plate 600 .

The V-shaped groove or the U-shaped groove may allow the seventh plate 700 to be accurately and easily folded with respect to the sixth plate 600 .

In the hexahedral housing 10 , the seventh plate 700 comes into contact with the fourth plate 400 .

The seventh plate 700 may have a plurality of third fastening holes 720 to which the bolts 7 are coupled.

The fourth plate 400 and the seventh plate 700 may be coupled with a bolt 7 inserted into the first fastening hole 430 and the third fastening hole 720 .

A first connection hole 710 may be formed in the seventh plate 700 to electrically connect the first bus bar 5 and an external circuit.

The first connection hole 710 includes a connector (not shown) for electrically connecting the first bus bar 5 and an external circuit, or a wire (not shown) for electrically connecting the first bus bar 5 and an external circuit. not shown) may pass.

1 to 3 and 5 , the eighth plate 800 prevents the second electrode part 4 and the second bus bar 6 of the battery part 1 from being exposed to the outside of the housing 10 . As a configuration for this, it is a portion located at the rear of the fifth plate 500 in the hexahedral housing 10 .

The eighth plate 800 may be folded down based on the sixth plate 600 forming a cover on the upper part of the battery unit 1 to form a wall behind the fifth plate 500 .

A V-shaped groove or a U-shaped groove may be formed along a portion where the sixth plate 600 and the eighth plate 800 meet and come into contact with each other.

The V-shaped groove or the U-shaped groove may provide a reference line on which the eighth plate 800 is folded based on the sixth plate 600 .

The V-shaped groove or the U-shaped groove may allow the eighth plate 800 to be accurately and easily folded with respect to the sixth plate 600 .

In the hexahedral housing 10 , the eighth plate 800 comes into contact with the fifth plate 500 .

The eighth plate 800 may be formed with a plurality of fourth fastening holes 820 to which the bolts 7 are coupled.

The fifth plate 500 and the eighth plate 800 may be coupled with a bolt 7 inserted into the second fastening hole 530 and the fourth fastening hole 820 .

In the eighth plate 800 , a second connection hole 810 may be formed to electrically connect the second bus bar 6 and an external circuit.

The second connection hole 810 is a connector (not shown) for electrically connecting the second bus bar 6 and an external circuit, or a wire (not shown) for electrically connecting the second bus bar 6 and an external circuit. not shown) may pass.

The first plate 100 to the eighth plate 800 may be integrally formed by injection molding.

The second plate 200 to the eighth plate 800 may be coupled to another plate in contact while forming the hexahedral housing 10 using an adhesive or tape.

In the foregoing, specific embodiments of the present invention have been described and shown, but it is common knowledge in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have

Therefore, such modifications or variations should not be individually understood from the technical spirit or viewpoint of the present invention, and it should be said that the modified embodiments belong to the claims of the present invention.

1: battery unit 2: battery cell
3: first electrode part 4: second electrode part
5: 1st bus bar 6: 2nd bus bar
7: bolt 10: housing
100: first plate 110: cooling hole
120: standing unit 200: second plate
210: protective pad 300: third plate
310: protective pad 400: fourth plate
410: first cut-out 420: first support
430: first fastening hole 440: first upper jaw
450: first lower jaw 460: first depression
500: fifth plate 510: second cutout
520: second support 530: second fastening hole
540: second upper jaw 550: second lower jaw
560: second depression 600: sixth plate
700: seventh plate 710: first connection hole
720: third fastening hole 800: eighth plate
810: second connection hole 820: fourth fastening hole

Claims (10)

a first plate comprising a plurality of battery cells and supporting a lower portion of the battery unit in which a first electrode unit is formed in the front and a second electrode unit is formed in the rear;
a second plate formed on one side of the first plate and foldable to surround one side of the battery unit;
a third plate formed on the other side of the first plate and foldable to surround the other side of the battery unit;
a fourth plate formed in front of the first plate, foldable to surround the front surface of the battery unit, and having a first recessed portion formed on an outer surface thereof;
a first bus bar coupled to the first depression and in contact with the first electrode;
a fifth plate formed at the rear of the first plate, foldable to surround a rear surface of the battery unit, and having a second recessed portion formed on an outer surface thereof;
a second bus bar coupled to the second depression and in contact with the second electrode;
a sixth plate formed on one side of the second plate or the other side of the third plate and foldable to surround the upper surface of the battery unit;
a seventh plate formed in front of the sixth plate and foldable to surround the fourth plate; and
An eighth plate formed behind the sixth plate and foldable to surround the fifth plate,
The housing for the battery module, characterized in that the first plate to the eighth plate is integrally formed. According to claim 1,
The first plate is a housing for a battery module, characterized in that one or more cooling holes are formed. According to claim 1,
The battery unit is formed by stacking the battery cells in a horizontal direction,
The first plate is a housing for a battery module, characterized in that the plurality of standing parts are inserted into the lower portion of the battery cell is formed. According to claim 1,
The second plate and the third plate are housing for a battery module, characterized in that the protection pad in contact with the side surface of the battery module is coupled. According to claim 1,
The battery unit is formed by stacking the battery cells in a horizontal direction,
The fourth plate is formed with a plurality of first cutouts through which the first electrode part of the battery cell passes,
The fifth plate is a housing for a battery module, characterized in that the plurality of second cut-outs through which the second electrode part of the battery cell is formed. 6. The method of claim 5,
The first bus bar is coupled to the outer surface of the fourth plate and is in contact with the first electrode part protruding out of the fourth plate through the first cutout,
The second bus bar is coupled to the outer surface of the fifth plate and is in contact with the second electrode part protruding out of the fifth plate through the second cutout. 6. The method of claim 5,
The fourth plate is formed with a plurality of first support parts into which the front of the battery cell is inserted,
The fifth plate is a housing for a battery module, characterized in that the plurality of second support parts into which the rear of the battery cell is inserted. 8. The method of claim 7,
The first support portion is formed in the longitudinal direction protruding from the inner surface of the fourth plate,
The second support portion protrudes from the inner surface of the fifth plate, characterized in that the battery module housing is formed in the longitudinal direction. According to claim 1,
The fourth plate is formed with a plurality of first fastening holes,
The fifth plate is formed with a plurality of second fastening holes,
The seventh plate is formed with a plurality of third fastening holes,
The eighth plate is formed with a plurality of fourth fastening holes,
The fourth plate and the seventh plate are coupled with a bolt inserted into the first fastening hole and the third fastening hole,
The fifth plate and the eighth plate are coupled to each other by bolts inserted into the second fastening hole and the fourth fastening hole. According to claim 1,
In the seventh plate, a first connection hole is formed to electrically connect the first bus bar and an external circuit,
The eighth plate is a housing for a battery module, characterized in that the second connection hole is formed to electrically connect the second bus bar and an external circuit.

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