KR101794937B1 - A Secondary Battery Pack Having Electrical Connected Groove of Mechanical Coupling Method - Google Patents

Abstract

The present invention is a cell cover in which two or more plate-shaped battery cells are mounted, wherein the battery case is composed of a first exterior member and a second exterior member structured such that the battery cells are mounted in a state in which electrode terminals are exposed, The sidewall of the second casing member is bent in a shape corresponding to the side surface of the battery cell. The first casing member and the second casing member are provided with a first casing member and a second casing member, And the elastic protrusions are formed inwardly, respectively.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cell cover having an elastic protrusion formed therein,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cell cover having elastic protrusions formed therein and a battery cell assembly including the same.

BACKGROUND ART [0002] In recent years, rechargeable secondary batteries have been widely used as energy sources for wireless mobile devices. The secondary battery is also attracting attention as a power source for an electric vehicle (EV) and a hybrid electric vehicle (HEV), which are suggested as solutions for the air pollution of existing gasoline vehicles and diesel vehicles using fossil fuels have.

Therefore, the application of the secondary battery is diversifying due to the advantages of the secondary battery, and it is expected that the secondary battery will be applied to many fields and products in the future.

In the case of small mobile devices, one or two or more battery cells are used per device, while a middle- or large-sized battery module such as an automobile is used for a middle- or large-sized battery module in which a plurality of battery cells are electrically connected due to the necessity of a large-

Since the size and weight of the battery module are directly related to the accommodating space and output of the middle- or large-sized device, manufacturers try to manufacture a battery module as small and light as possible. Devices that receive a lot of shocks and vibrations from the outside, such as electric bicycles and electric vehicles, should have a stable electrical connection and physical connection between the elements constituting the battery module, and use a large number of batteries for high output and large capacity The safety aspect is also important because it must be implemented.

Since the middle- or large-sized battery module is preferably manufactured in a small size and weight, a prismatic battery, a pouch-shaped battery, and the like, which can be charged with a high degree of integration and have a small weight to capacity ratio, are mainly used as the battery cells of the middle- or large-sized battery modules. Particularly, a pouch-shaped battery using an aluminum laminate sheet or the like as an exterior member has recently attracted a great deal of attention due to its advantages such as low weight and low manufacturing cost.

Despite the above advantages, the pouch-shaped battery used as a unit cell of the battery module has some problems.

Specifically, since the mechanical strength of the pouch-shaped battery is lowered, a plurality of separate members are required to stably assemble and assemble the battery in manufacturing a module by stacking a plurality of batteries. Therefore, in manufacturing a pouch-type battery as a module, a separate mounting member such as a cartridge for mounting the batteries in one or two or more units is generally used, and these are stacked to manufacture a module.

Also, when a middle- or large-sized battery module is formed by using a plurality of battery cells or a middle- or large-sized battery module is formed by using a plurality of unit modules each composed of a predetermined unit of battery cells, Since the members are required, the process of assembling these members is very complicated. Furthermore, a space is required for the joining of a plurality of members for mechanical fastening and electrical connection, welding, soldering, and the like, thereby increasing the overall size of the system.

Furthermore, in the case of a device such as a vehicle in which a continuous external force such as vibration or impact is applied, an increase in contact resistance at an electrically connected portion may cause problems such as an unstable output, short circuit, and the like.

Therefore, there is a high need for a technique of applying a mounting member such as a cartridge which is free from an actual manufacturing process, can complement a low mechanical rigidity of a battery cell, and can prevent a short circuit due to an external force.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and the technical problems required from the past.

Specifically, it is an object of the present invention to provide a cell cover capable of preventing the damage of an electrode lead due to an external force and short-circuiting by compensating for a low mechanical rigidity of the battery cell, And a battery cell assembly including the same.

According to an aspect of the present invention,

A cell cover in which two or more plate-shaped battery cells are mounted,

And a first exterior member and a second exterior member of a structure in which the battery cells are mounted while the electrode terminals are exposed,

The side walls of the first and second exterior members are bent in a shape corresponding to a side surface of the battery cell,

The first sheathing member and the second sheathing member may have a structure in which elastic protrusions are formed inwardly so as to prevent the battery cells from flowing in the electrode terminal direction with respect to the applied external force.

Therefore, since the elastic cover is formed inside the battery cover so as to prevent the battery cells from flowing in the direction of the electrode terminal with respect to the external force applied to the first and second exterior members, In the case of constructing the battery cell assembly by engaging with the battery cell, manufacturing tolerance between the components is removed to prevent the battery cell from flowing, thereby preventing damage and short circuit of the electrode lead due to external force.

As a specific example, a fastening protrusion may be formed on the bent side wall of the first sheathing member, and a fastening groove having a shape corresponding to the fastening protrusion may be formed on the bent side wall of the second sheathing member .

Specifically, the fastening protrusion and the fastening groove may be fastened together when the first and second sheathing members are pressed in the direction of the battery cells in a state where the battery cells are embedded. Therefore, in the process of constructing the battery cell assembly by incorporating the battery cells in the cell cover, it is possible to eliminate the separate fastening process such as welding, so that the manufacturing process can be simplified and the manufacturing time can be shortened.

The first exterior member and the second exterior member may be made of a metal material so as to ensure mechanical rigidity of the battery cell.

As one example of the elastic protrusions, the elastic protrusions are formed in such a manner that an upper end portion of the first sheathing member and the upper end portion of the second sheathing member and a lower end portion of the second sheathing member, Respectively. Accordingly, when the battery cell assembly is formed by combining with the battery cell, the battery cell can be prevented from flowing up and down by the above-described structure, thereby preventing the electrode lead from being damaged and short-circuited.

Specifically, the elastic protrusions may have a structure in which a part of the first sheathing member and the second sheathing member are bent inward.

More specifically, the elastic projection portion includes: an elastic supporting portion bent downward inwardly to support an upper or outer surface of an outer surface of the electrode assembly receiving portion of the battery cell; and an elastic support portion extending from the elastic supporting portion and bent upward outwardly And an elastic cut-out portion which is formed on the base portion.

The elastic support portion may be bent downward inward at an angle of 15 to 60 degrees from the outer surface of the exterior member. When the bending angle of the elastic support portion is less than 15 degrees, a desired degree of coupling force and supporting force can not be sufficiently secured when the cell cover is coupled with the battery cell to constitute the battery cell assembly. On the other hand, When the angle exceeds 60 degrees, when the cell cover is combined with the battery cell to construct the battery cell assembly, there may be a break of the elastic support part during the assembling process due to an excessive bending structure.

The end portion of the elastic cutout portion is downwardly spaced apart from the outer surface of the exterior member in a state where the battery cell is not mounted on the exterior member and is located on the same line as the exterior surface of the exterior member in a state where the battery cell is mounted on the exterior member .

Specifically, a part of the elastic supporting part and the elastic cutting part may be cut in a plane " C " shape from the exterior member.

The cell cover according to the present invention may be formed with two or more beads in the electrode terminal direction on the outer surfaces of the first and second outer members so as to further enhance the mechanical rigidity against external force.

Specifically, the beads may be formed between the elastic protrusions formed at the upper end portion and the lower end portion of the first and second outer sheath members, respectively.

The present invention also provides a battery cell assembly comprising the cell cover and at least two battery cells.

The battery cell may be a pouch type secondary battery. Specifically, the battery cell may have a structure in which an electrode assembly is sealed in a laminate sheet including a resin layer and a metal layer.

The battery cells may have their electrode terminals connected in series or in parallel.

The battery cell may be a lithium secondary battery, specifically, a lithium ion battery or a lithium ion polymer battery.

The present invention also provides a battery pack including the battery cell assembly.

The present invention also provides a device including the battery pack as a power source.

The device may be selected from an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle, or a power storage device. The structure of these devices and their fabrication methods are well known in the art, and a detailed description thereof will be omitted herein.

As described above, in the case of forming the battery cell assembly by combining with the battery cell, the cell cover according to the present invention eliminates manufacturing tolerances between parts to prevent the battery cell from flowing, And a short circuit can be prevented.

1 is an exploded view of one cell cover of the present invention and a battery cell assembly comprising the same;
2 is a side view of a state before a cell cover is coupled with a battery cell according to an embodiment of the present invention;
Fig. 3 is a side view of the cell cover of Fig. 2 coupled with the battery cell; Fig.
4 is an enlarged view on the horizontal plane of the " A "

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

FIG. 1 is an exploded view of a cell cover and a battery cell assembly including the cell cover according to an embodiment of the present invention.

Referring to FIGS. 1 to 4, the battery pack 100 includes a first exterior member 110 and a second exterior member 120, and the side walls of the first exterior member 110 and the second exterior member 120 are formed of battery cells 200).

In addition, a 'C' -shaped opening 400 is formed in at least one of the first and second exterior members 110 and 120, and the side wall of the first exterior member 110 is provided with a fastening protrusion (Not shown) having a shape corresponding to the fastening protrusion is formed on the side wall of the second armoring member 120. The fastening groove (not shown)

The fastening protrusions and the fastening grooves are formed such that the first sheathing member 110 and the second sheathing member 120 are arranged in the direction of the battery cells 200 in a state where the battery cells 200 are embedded in the cell cover 100 When they are pressurized, they are fastened together.

The bead 140 is formed on the outer surfaces of the first and second sheathing members 110 and 120 in the direction of the electrode terminal 210 of the battery cells 200.

FIG. 2 is a side view of a state before the cell cover is coupled with the battery cell according to an embodiment of the present invention, and FIG. 3 is a side view of the state where the cell cover of FIG. 2 is coupled with the battery cell , And Fig. 4 is an enlarged view of the "A" portion of Fig.

The opening part 400 having a 'C' shape is formed on the outer surface of the first exterior member and the second exterior member, and the extension part 300 extending to the inside of the first exterior member and the second exterior member includes a bent part connected to the first exterior member and the second exterior member, And a stopper 320 extending from the elastic part 310 and forming a bent part 321 bent toward the battery cell. The elastic part 310 extends from the elastic part 311 toward the battery cell.

The elastic part 300 is bent downward inward at an angle of 15 to 60 degrees from the outer surface of the exterior members 110 and 120 so as to sufficiently secure the elastic force of the elastic part 300, .

The stopper 320 has bent portions 321 to prevent the battery cells from flowing and the stopper portions 320 are formed in the stopper portions 320 so that one surface B of the bent portions 321 is in contact with the upper surface or the lower surface of the battery cells, Is bent in parallel with the elastic part 310 so that the end part of the stopper part is connected to the external member 110 in a state where the battery cell 200 is not mounted on the external member 110, 110 and 120. The battery cells 200 are mounted on the exterior members 110 and 120 so as to be aligned with the exterior surfaces of the exterior members 110 and 120. [

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Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (19)

A cell cover in which two or more plate-shaped battery cells are mounted,
And a first exterior member and a second exterior member made of a metal material whose side walls are bent in a shape corresponding to a side surface of the battery cell so that the battery cell is mounted inside,
Wherein at least one of the first exterior member and the second exterior member includes:
A " C " shape opening is formed,
The extended portion formed on the inner side of the 'C' shape of the opening portion includes an elastic portion bent and bent in the direction of the battery cell in the bent portion connected to the first and second outer members,
Wherein a stopper portion extending in a longitudinal direction of the elastic portion to form a bent portion bent in a direction of the battery cell is formed and an end portion of the stopper portion opposing the extending portion is bent to be parallel to the elastic portion. The method according to claim 1,
The extension
Wherein one side of the elastic portion and the bent portion of the stopper portion come into contact with the upper surface or the lower surface of the battery cell when the battery cell is mounted on the case member so as to pressurize the battery cell by elasticity to prevent the battery cell from flowing. . [2] The apparatus according to claim 1, wherein a fastening protrusion is formed on the bent side wall of the first arm member, and a fastening groove having a shape corresponding to the fastening protrusion is formed on the bent side wall of the second arm member ,
The cell cover according to claim 2, wherein the fastening protrusions and the fastening grooves are fastened to each other when the first sheathing member and the second sheathing member are pressed in the direction of the battery cells in a state where battery cells are embedded.
delete The battery pack as claimed in claim 1, wherein the extending portion is provided at an upper end portion and a lower end portion of the first sheathing member and the second sheathing member so as to support the upper end of the outer surface and the lower end of the outer surface of the electrode- Are formed on the inner surface of the cell cover. [6] The cell cover of claim 5, wherein the extension part has a structure in which a part of the first sheathing member and the second sheathing member are bent inward.
delete The cell cover according to claim 1, wherein the elastic portion is bent downward inward at an angle of 15 to 60 degrees from an outer surface of the sheathing member. The battery pack according to claim 1, wherein an end portion of the stopper portion opposite to the extending portion is downwardly spaced apart from an outer surface of the exterior member in a state where the battery cell is not mounted on the exterior member, And is located on the same line as the outer surface of the exterior member. The cell cover according to claim 1, wherein at least two beads are formed on outer surfaces of the first and second outer members in the direction of the electrode terminal. 11. The cell cover according to claim 10, wherein the beads are formed between elastic protrusions formed respectively at the upper end portion and the lower end portion of the first outer sheath member and the second outer sheath member. A battery cell assembly comprising: a cell cover according to claim 1; and at least two battery cells. 13. The battery cell assembly according to claim 12, wherein the battery cell is a pouch type secondary battery. 14. The battery cell assembly according to claim 13, wherein the pouch type secondary battery has a structure in which an electrode assembly is sealed in a laminate sheet including a resin layer and a metal layer. 13. The battery cell assembly according to claim 12, wherein the battery cells are connected in series or in parallel. 13. The battery cell assembly according to claim 12, wherein the battery cell is a lithium secondary battery. A battery pack comprising the battery cell assembly according to claim 12. A device comprising a battery pack according to claim 17. 19. The device of claim 18, wherein the device is an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle, or a power storage device.

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