KR102108276B1 - Rechargeable battery tray - Google Patents

Abstract

One embodiment of the present invention is to provide a battery tray to prevent the lifting of a plurality of battery cells accommodated. The battery tray according to an embodiment of the present invention accommodates a plurality of battery cells and supports an inner tray that penetrates the electrode terminal side, and supports the electrode terminal side of the battery cell that accommodates the inner tray and penetrates the electrode. And a base tray penetrating the terminal.

Description

Battery tray {RECHARGEABLE BATTERY TRAY}

The present description relates to a battery tray used in a charging and discharging process for performing charging and discharging of a battery cell for the purpose of activating a battery cell in which the winding and assembling process is completed.

The cell manufacturing process of the secondary battery includes a winding process of winding the negative electrode, the positive electrode, and the separator to form an electrode assembly, and an assembly process of inserting the wound electrode assembly into a case and assembling the cap plate.

When the assembly of the secondary battery is completed, a charging and discharging process for charging and discharging the secondary battery cell for activation purposes is performed. At this time, a battery tray is used to charge and discharge a plurality of secondary battery cells in one process.

For example, the battery tray is made by manufacturing the insert member and the spacer separately from the base tray, and assembling the insert member and the spacer on the base tray. Due to the use of the insert member and spacer, the battery tray as a whole has low precision and makes it difficult to install a secondary battery cell.

Since the precision of the battery tray is low, appearance defects of the secondary battery such as scratches or scratches of the secondary battery cells are generated, and the bonding stability of the secondary battery cells is poor, resulting in a lot of rework.

Since the insert member and the spacer are formed differently for each model of the secondary battery cell, when the base tray, the insert member and the spacer are integrally manufactured, the entire battery tray must be replaced when the model of the secondary battery cell is changed. Therefore, resource waste and cost increase may occur.

One embodiment of the present invention is to provide a battery tray formed by assembling an inner tray containing a plurality of battery cells to a base tray. The present invention also provides a battery tray that prevents a plurality of battery cells accommodated from being lifted from the base tray.

The battery tray according to an embodiment of the present invention accommodates a plurality of battery cells, supports an inner tray that penetrates the electrode terminal side, and supports the electrode terminal side of the battery cell that receives the inner tray and penetrates the electrode. And a base tray penetrating the terminal.

The inner tray may include a first bottom portion forming first through holes in which the battery cell is installed, and a border portion formed at a height set at a side of the first bottom portion.

The base tray includes a second bottom portion forming second through holes at least partially facing the first through hole, and a side wall formed vertically at a height set at a side of the second bottom portion and facing a side wall facing the edge portion. It can contain.

The outer surface of the rim portion of the inner tray may be spaced apart from the inner surface of the side wall of the base tray.

The edge portion of the inner tray may have an inclination angle greater than 0 degrees and less than 5 degrees at the first bottom portion.

The first through hole of the inner tray is formed to correspond to the thickness of the battery cell and the width of the genital battery cell, having a height set at the first bottom portion, and a lateral coupling to support both sides of the battery cell. It may include a portion, and a lower coupling portion for supporting the lower side of the electrode terminal of the battery cell is inserted by connecting the lateral coupling portion in the width direction of the battery cell.

The second through hole of the base tray may be formed in a pair to independently penetrate the electrode terminals of the battery cell.

The second bottom portion of the base tray may be formed to protrude outside the second through hole, and may include a coupling protrusion coupled to a groove of the lower coupling portion of the inner tray.

The inner tray and the base tray may be formed of flame-retardant ABS (acrylonitrile butadiene styrene) resin. The inner tray and the base tray may be molded by vacuum molding injection.

An embodiment of the present invention provides a battery tray that accommodates a plurality of battery cells in an inner tray and penetrates the electrode terminal to the outside of the base tray while receiving the inner tray in the base tray.

Therefore, when the model of the battery cell is changed, only the inner tray can be replaced, thereby saving resources and costs. In addition, since the electrode terminal side of the battery cell passes through the inner tray and is supported on the base tray, the phenomenon that the battery cells are lifted from the base tray is prevented.

1 is a perspective view of a battery tray according to an embodiment of the present invention.
FIG. 2 is a partial plan view of the inner tray of FIG. 1;
3 is a perspective view of the base tray in the battery tray.
4 is a perspective view of part A of the base tray of FIG. 3.
5 is a cross-sectional view of a battery cell assembled to a battery tray according to an embodiment of the present invention.
6 is a cross-sectional view taken along line VI-VI of FIG. 5.
7 is a cross-sectional view taken along line VII-VII in FIG. 2.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. However, the present invention may be implemented in various different forms, and is not limited to the embodiments described herein. In order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are attached to the same or similar elements throughout the specification.

1 is a perspective view of a battery tray according to an embodiment of the present invention, Figure 2 is a partial perspective view of the inner tray 10 of FIG. 3 is a perspective view of the base tray 20 in the battery tray, and FIG. 4 is a perspective view of part A of the base tray 20 in FIG. 3.

1 to 4, the battery tray of one embodiment includes an inner tray 10 and a base tray 20. The inner tray 10 is configured to receive a plurality of battery cells 30 (see FIGS. 5 and 6) and penetrate the electrode terminal 31 side, and the base tray 20 accommodates the inner tray 10 It is configured to support the electrode terminal 31 side of the pierced battery cell 30 and to penetrate the electrode terminals 31. The pierced electrode terminals 31 are electrically connected to a charging / discharging device (not shown) during charging / discharging revolution.

That is, the battery tray accommodates the battery cells 30 in the inner tray 10, and by receiving the inner tray 10 in the base tray 20, for activation of the assembled battery cell 30, the battery cell ( 30) enables the charging and discharging process to be charged and discharged.

The inner tray 10 forms a space that is a substantially rectangular parallelepiped with the upper portion opened by the first bottom portion 11 and the edge portion 12. The first bottom portion 11 forms first through holes 13 to accommodate the plurality of battery cells 30, and the battery cells 30 are inserted into the first through holes 13 and installed. A part of the terminal 31 side penetrates the first through hole 13. The rim portion 12 is formed at a height set at four sides of the first bottom portion 11 to set the rigidity of the inner tray 10.

When the inner tray 10 is accommodated, the base tray 20 includes a second bottom portion 21 and a side wall 22 corresponding to the first bottom portion 11 and the edge portion 12. The side wall 22 sets the outline of the substantially rectangular parallelepiped space in which the upper portion of the second bottom portion 21 is opened. The second bottom portion 21 forms second through holes 23 at least partially facing the first through hole 13 of the first bottom portion 11.

The second bottom portion 21 supports the electrode terminal 31 side of the battery cells 30 inserted into the first through hole 13, and the second through holes 23 penetrate the electrode terminal 31 Is exposed to the outside of the base tray 20. That is, the second bottom part 21 blocks and supports the battery cell 30 in a state where the electrode terminal 31 penetrates into the second through hole 23. The side wall 22 is vertically formed at a height set on the four side sides of the second bottom portion 21 to set the outline of the cuboid space.

5 is a cross-sectional view of a state in which a battery cell 30 is assembled to a battery tray according to an embodiment of the present invention, and FIG. 6 is a cross-sectional view taken along line VI-VI of FIG. 5. 5 and 6, the battery tray accommodates and combines the inner tray 10 accommodating the battery cells 30 with the base tray 20 to perform a charging / discharging process aimed at the activation of the battery cells 30. Make it workable.

When the inner tray 10 is coupled to the base tray 20, the outer surface of the rim 12 of the inner tray 10 is spaced apart from the inner surface of the side wall 22 of the base tray 20 and the gap G. do. The gap G removes the interference between the base tray 20 and the inner tray 10, thereby facilitating the insertion of the inner tray 10 into the base tray 20.

In addition, the edge portion 12 of the inner tray 10 has an inclination angle θ inclined greater than 0 degrees and smaller than 5 degrees at the first bottom portion 11. When the inner tray 10 is inserted into the base tray 20, the inclination angle θ allows the inner tray 10 to be guided smoothly into the base tray 20 at the beginning of insertion.

7 is a cross-sectional view taken along line VII-VII in FIG. 2. 5 to 7, the first through hole 13 of the inner tray 10 includes a side engaging portion 131 and a lower engaging portion 132.

The lateral coupling part 131 has a height set in the first bottom part 11 and is formed to correspond to the thickness T of the battery cell 30 and to correspond to the width W of the battery cell 30. 30) the both sides of the width direction are supported. When the battery cell 30 is inserted, both sides of the battery cell 30 in the width direction are guided by the lateral coupling portion 131 and coupled by the lateral coupling portion 131 (see FIG. 6).

The lower coupling portion 132 connects the side coupling portion 131 in the width direction of the battery cell 30 to support the lower side of the electrode terminal 31 of the battery cell 30 inserted. Upon completion of the insertion of the battery cell 30, both sides in the thickness direction below the electrode terminal 31 side of the battery cell 30 are coupled by the lower coupling portion 132 (see FIG. 5).

That is, the battery cells 30 installed and inserted into the first through holes 13 of the inner tray 10 are supported on both sides in the thickness direction by the side engaging portions 131 on both sides in the width direction, and the electrode terminals 31 side In the coupling direction is supported in both thickness directions by the lower coupling portion 132.

The lower coupling portion 132 is formed only in a part of the lower portion of the entire height range of the side coupling portion 131 to connect the side coupling portion 131. The battery cell 30 inserted into the first through hole 13 is not rubbed by the lower engaging portion 132 at the beginning of insertion, but is rubbed only to the lateral engaging portion 131, and the lower engaging portion 132 is inserted after the insertion. It rubs against the lateral coupling part 131. Therefore, the operation of inserting the battery cell 30 is facilitated.

At this time, the electrode terminal 31 passes through the second through hole 23 of the base tray 20 through the first through hole 13 of the inner tray 10. That is, the electrode terminal 31 protrudes out of the second bottom portion 21 of the base tray 20 and is placed in a state capable of performing a charge / discharge process.

In the base tray 20, the second through holes 23 are formed in a pair so that the electrode terminals 31 of the battery cells 30 penetrate the negative and positive electrodes, respectively. In the state where the electrode terminal 31 penetrates the first through hole 13 and the second through hole 23, the electrode terminal 31 side of the battery cell 30 has a second bottom portion of the base tray 20 ( 21).

As the battery cell 30 passes through the first through hole 13 of the inner tray 10 and is contacted and supported by the second bottom portion 21 of the base tray 20, the battery cell 30 from the base tray 20 ) Is prevented from being lifted.

Meanwhile, referring to FIGS. 3 to 5, in the base tray 20, the second bottom portion 21 further includes a coupling protrusion 24 protruding from the outside of the second through hole 23. The engaging projection 24 is coupled to the groove 133 of the lower engaging portion 132 of the inner tray 10.

That is, the battery cell 30 is coupled to the inner tray 10, and the inner tray 10 can maintain a state coupled to the base tray 20. At this time, the first bottom portion 11 of the inner tray 10 maintains a state in close contact with the second bottom portion 21 of the base tray 20.

Meanwhile, the inner tray 10 and the base tray 20 may be formed of flame-retardant acrylonitrile butadiene styrene (ABS) resin. ABS resin has excellent slip property when the battery cell 30 is inserted into the first through hole 13 of the inner tray 10, and thus guides both sides in the width direction of the battery cell 30, thereby providing It facilitates the fixing of the insert.

In addition, the inner tray 10 and the base tray 20 may be molded by vacuum molding injection. In the process of vacuum molding injection, since the through hole cannot be directly injected, the first through hole 13 of the inner tray 10 and the second through hole 23 of the base tray 20 have a first bottom portion 11 And after each of the second bottom portions 21 is protruded and formed, the protrusions are removed by a cutting process.

The battery cell 30 shown in FIGS. 5 and 6 shows a pouch-type secondary battery, but the battery tray of the present embodiment can also be used in the charging and discharging process of each secondary battery. Here, a detailed description of the pouch type secondary battery and the prismatic secondary battery is omitted.

Although the preferred embodiments of the present invention have been described through the above, the present invention is not limited thereto, and it is possible to carry out various modifications within the scope of the claims and detailed description of the invention and the accompanying drawings. Naturally, it is within the scope of the invention.

10: inner tray 11: first bottom
12: rim part 13: first through hole
20: base tray 21: second bottom
22: side wall 23: second through hole
24: engaging projection 30: battery cell
31: electrode terminal 131: side coupling portion
132: lower coupling portion G: spacing
T: thickness W: width
θ: slope angle

Claims (10)

An inner tray accommodating a plurality of battery cells and penetrating the electrode terminal side; And
Base tray for receiving the inner tray and supporting the electrode terminal side of the battery cell penetrated, through the electrode terminal
It includes,
The inner tray includes a first bottom portion forming first through holes in which the battery cell is installed,
The first through hole of the inner tray,
A lateral coupling portion having a height set at the first bottom portion and corresponding to the thickness of the battery cell and corresponding to the width of the genital battery cell, and supporting the both sides of the battery cell in combination; and
The lower coupling portion for supporting the lower side of the electrode terminal of the battery cell is inserted by connecting the lateral coupling portion in the width direction of the battery cell.
Battery tray comprising a.
According to claim 1,
The inner tray
A border portion formed at a height set on the side of the first bottom portion
Battery tray comprising a.
According to claim 2,
The base tray,
A second bottom portion forming second through holes at least partially facing the first through holes, and
Side walls formed vertically at a height set on the side of the second bottom portion and facing the edge portion
Battery tray comprising a.
According to claim 3,
A battery tray in which the outer surface of the rim portion of the inner tray is spaced apart from the inner surface of the side wall of the base tray.
According to claim 3,
The rim portion of the inner tray,
A battery tray having an inclination angle greater than 0 degrees and less than 5 degrees at the first bottom portion.
delete According to claim 3,
The second through hole of the base tray,
A battery tray formed in a pair to independently penetrate the electrode terminals of the battery cells.
The method of claim 7,
The second bottom portion of the base tray,
A battery tray having an engaging protrusion formed to protrude outside the second through hole and coupled to a groove of the lower engaging portion of the inner tray.
According to claim 1,
The inner tray and the base tray are formed of a flame-retardant ABS (acrylonitrile butadiene styrene) battery tray.
According to claim 1,
The inner tray and the base tray are battery trays formed by vacuum molding injection.

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