KR101865987B1 - Secondary Battery Cell Position JIG And Method For Installing Secondary Battery Cell - Google Patents

Abstract

The present invention relates to a secondary battery cell positioning jig and a method for securing a secondary battery cell, the secondary battery cell positioning jig including a seating part on which a secondary battery cell is seated and being mounted on a cell frame for forming a secondary battery module, A body frame part forming a space part to accommodate the secondary battery cell; And a lead frame part connected to the body frame part and forming a lead accommodating part for allowing a lead of the secondary battery cell to pass through when the secondary battery cell is mounted, wherein the secondary battery cell is accommodated in the space part, To the position.
According to the present invention, the secondary battery cell is guided and seated on the cell frame and can be seated at a predetermined position.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a secondary battery cell positioning jig,

The present invention relates to a secondary battery cell position jig and a secondary battery cell seating method, and more particularly, to a secondary battery cell position jig and a secondary battery cell seating method for guiding a secondary battery cell to be seated at a predetermined position on a cell frame .

2. Description of the Related Art In general, portable wireless device products such as a video camera, a portable telephone, and a portable PC, and electric bikes, electric vehicles, electric tools, and the like are becoming lighter and more sophisticated, There are many studies. In particular, the rechargeable secondary battery has three times higher energy density per unit weight than a conventional lead-acid battery, a nickel-cadmium battery, a nickel-hydrogen battery and a nickel-zinc battery, It is actively proceeding.

Such a secondary battery may be configured in the form of a module in which a plurality of unit cells are structurally coupled and electrically connected in series or in parallel. A pouch-type secondary battery cell is used as a unit cell of the secondary battery module. The pouch-type secondary battery cell can reduce dead space due to high density. In constructing the secondary battery module, a cell frame capable of mounting secondary battery cells is used to facilitate mechanical fastening and electrical connection of the secondary battery cells.

1 is a view showing a cell frame for mounting such a secondary battery cell. As shown in FIG. 1, the cell frame 10 is provided with a mounting portion 11 for mounting a secondary battery cell. A plurality of pouch-shaped secondary battery cells are stacked on the seat portion 11 of the cell frame 10, and the secondary battery module is constructed by mechanical fastening between the secondary battery cells and electrical connection between the leads of the secondary battery cells.

However, when a plurality of secondary battery cells are placed on the cell frame 10, there is no separate structure for guiding the seating, so the seating positions may be different from each other. When the positions where the plurality of secondary battery cells are seated on the cell frame 10 are different from each other, the positions of the plurality of leads also differ. Thus, when the plurality of leads are electrically connected by welding, if the positions of the leads are different from each other, the quality of the welding is deteriorated. Also, if each of the secondary battery cells is not in a proper position, there is a problem that the secondary battery cell at the upper end is liable to cause a quality problem due to the lateral deflection of the secondary battery cell.

The present invention provides a secondary battery cell position jig for guiding a secondary battery cell to be seated at a predetermined position on a cell frame and a method for seating the secondary battery cell.

A secondary battery cell position jig according to the present invention is characterized in that the secondary battery cell position jig includes a mounting portion on which a secondary battery cell is mounted and is mountable on a cell frame for forming a secondary battery module, A body frame portion for forming a space portion; And a lead frame part connected to the body frame part and forming a lead accommodating part for allowing a lead of the secondary battery cell to pass through when the secondary battery cell is mounted, wherein the secondary battery cell is accommodated in the space part, To the position.

Accordingly, the secondary battery cell is guided to the space portion by the cell position jig and can be mounted on the cell frame.

In the present invention, it is preferable that the space decreases gradually along the direction in which the secondary battery cell is mounted.

Thus, the secondary battery cell can be naturally guided and mounted to the seat portion.

In the present invention, it is preferable that the lead frame portion is formed so as to protrude from the cell frame.

Thus, the protruding portion of the lead frame portion facilitates mounting and dismounting of the secondary battery cell position jig on the cell frame.

As described above, according to the secondary battery cell position jig and the secondary battery cell seating method according to the present invention, the secondary battery cell can be seated on a predetermined position on the cell frame.

1 shows a cell frame;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a secondary cell position jig and a cell frame.
3 is an enlarged view of a part of a cross section of a secondary battery cell position jig according to the present invention.
4 is a view showing a procedure of a method for seating a secondary battery cell according to the present invention.
5 to 8 are views showing a state where a secondary battery cell is seated using a secondary battery cell position jig according to the present invention.
FIGS. 9 to 11 are enlarged views of a lead frame portion when a secondary battery cell is seated using a secondary battery cell position jig according to the present invention. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, a description will be given of a secondary battery cell position jig, and then a secondary battery cell seating method for securing the secondary battery cell using the secondary battery cell position jig will be described.

2, the secondary battery cell position jig 20 according to the present invention can be mounted on the cell frame 10 and has a space 21 'through which the secondary battery cell 1 can pass A body frame portion 21 for forming a body frame; And a lead frame portion 23 formed integrally with the body frame portion 21 and forming a lead receiving portion 23 'for allowing the lead of the secondary battery cell 1 to pass when the secondary battery cell 1 is mounted .

The body frame portion 21 is seated on the cell frame 10 and has a hollow portion at the center thereof to form a space portion 21 'through which the secondary battery cell 1 can pass. The space 21 'formed by the body frame portion 21 has a shape and a size corresponding to a portion where the secondary battery cell 1 is seated in the seating portion 11 of the cell frame 10. [ The secondary battery cell positioning jig 20 is seated on the entrance side of the seat portion 11 of the cell frame 10 and the space 21 'formed by the body frame portion 21 is inserted into the secondary battery cell 1 And is seated in the seating portion 11 of the cell frame 10. [ Therefore, the secondary battery cell 1 on the cell frame 10 is guided and seated, so that the position can be constant.

The lead frame portion 23 extends from the body frame portion 21 so as to stand up and is bent integrally with the body frame portion 21 so that the end portion extends outwardly of the cell frame. The lead frame portion 23 forms a lead accommodating portion 23 'through which the lead of the secondary battery cell 1 seated on the cell frame 10 can pass. That is, when the secondary battery cell 1 is seated on the cell frame 10, the leads protrude from the cell frame 10 and are seated (refer to FIG. 11). The lead receiving portion 23 'communicates with the space 21' so that the lead protruding out of the cell frame 10 passes through the lead receiving portion 23 ' The center of the circumference is hollow. The bending portion 22 of the lead frame portion 23 is seated on the rim portion 13 of the cell frame 10 and the lead receiving portion 23 ' The length of the cell frame 10 may be longer than the length of the cell frame 10.

When the secondary battery cell position jig 20 is mounted on or detached from the cell frame 10, the lead frame portion 23 is formed so as to protrude from the cell frame 10 . That is, when the secondary battery cell position jig 20 is mounted on or removed from the cell frame 10, the secondary battery cell position jig 20 can be moved by holding the lead frame portion 23 And the lead frame portion 23 are formed to protrude from the cell frame 10 in the longitudinal direction.

Meanwhile, it is preferable that the space 21 'formed by the body frame 21 gradually decreases in area along the direction in which the secondary battery cell 1 is mounted. That is, as shown in FIG. 3, since the body frame portion 21 is tapered so that the space 21 'is gradually reduced in area along the mounting direction of the secondary battery cell 1, (1) is naturally positioned and seated.

Hereinafter, a method for seating a secondary battery cell according to the present invention will be described with reference to the drawings. As shown in FIG. 4, the method for mounting a secondary battery cell according to the present invention includes a cell placement jig mounting step S1, a cell seating step S2, and a cell position jig release step S3.

The cell position jig mounting step S1 is a step of mounting the secondary battery cell position fixture 20 on the cell frame 10 on which the secondary battery cell 1 is mounted. In the cell position jig mounting step S1, the secondary battery cell positioning jig 20 is seated so as to be positioned at the edge of the seating portion 11 (see FIGS. 5 and 9). The space 21 'formed by the body frame portion 21 of the secondary battery cell position jig 20 corresponds to the seating portion 11 on the cell frame 10. In the cell placement jig mounting step S1, the lead frame part 23 protruded from the cell frame 10 is held by the cell frame 10.

After the cell position jig mounting step S1, the secondary battery cell 1 is placed on the cell frame 10 through the cell seating step S2. 6 to 7, the cell seating step S2 includes the step of placing the secondary battery cell 1 in the space 21 'formed by the secondary battery cell position fixture 20 and the lead accommodating portion 23 'to be placed on the cell frame 10. Thus, the secondary battery cell 1 is guided by the secondary battery cell position jig 20 and is seated at a predetermined position on the cell frame 10 (refer to FIG. 10). The secondary battery cell position jig 20 is tapered so that the area of the space 21 'gradually decreases along the direction in which the secondary battery cell 1 is seated (see FIG. 3). Thus, the secondary battery cell 1 is naturally seated in the seating portion 11 of the cell frame 10. [ In this way, the plurality of secondary battery cells 1 are stacked on the cell frame 10 by guiding the position constantly.

The cell position jig releasing step S3 is a step of releasing the secondary battery cell position jig 20 from the cell frame 10. [ 8, after the completion of the seating of the secondary battery cell 1 in the cell frame 10, the step of releasing the cell position jig S3 is performed to remove the secondary battery cell position jig 20 from the cell frame 10 . At this time, the plurality of stacked secondary battery cells 1 pass through the space portion 21 'of the secondary battery cell position jig 20, and naturally, The seating position of the battery cell 1 is once again aligned (see Fig. 11).

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as all equivalents thereof, be within the scope of the present invention.

10: cell frame
20: Cell position jig
21: Body frame part
23: lead frame part

Claims (6)

A mounting portion on which the secondary battery cell is seated is provided and can be mounted on the cell frame for forming the secondary battery module,
A body frame portion mounted on an inlet side of the seat portion and having a space portion corresponding to a shape of the secondary battery cell so as to allow the secondary battery cell to pass through the inner peripheral portion;
The battery pack according to any one of claims 1 to 3, wherein the first and second battery cells extend from the body frame portion and are bent to extend outwardly of the cell frame. When the secondary battery cell is passed through the inner peripheral portion of the body frame portion, And a lead frame portion which forms a lead receiving portion communicating with the space portion on the inner circumferential portion so as to form a lead-
Wherein the bending portion of the lead frame portion is seated in a rim portion of the cell frame and the lead receiving portion is extended outwardly of the cell frame to have a length longer than a lead length of the secondary battery cell,
Wherein the secondary battery cell is guided to a predetermined position in the seat by passing through the space. The method according to claim 1,
Wherein the space portion gradually decreases in area along a direction in which the secondary battery cell is mounted. delete A cell position jig mounting step of mounting a cell position jig on the side of the seating part of the cell frame for forming a secondary battery module with a seating part on which the secondary battery cell is seated;
Wherein a lead of the secondary battery cell is passed through the lead accommodating portion of the cell position jig and the secondary battery cell is passed through the space portion of the cell position jig to allow the secondary battery cell to be seated at a predetermined position of the seat portion, A cell seating step in which the plurality of secondary battery cells are seated;
And releasing the cell position jig from the cell frame. The method of claim 4,
The cell position jig mounting step
Wherein the cell position jig is mounted on an edge of the entrance of the seating portion to match the space portion of the cell position jig with the seating portion. The method of claim 4,
Wherein the cell positioning jig includes a lead frame portion which forms the lead accommodating portion on an inner circumferential portion thereof,
Wherein the cell positioning jig is attached to or detached from the cell frame by holding the lead frame part in the cell position jig mounting step and the cell position jig releasing step.

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