KR20010105003A - Prismatic type sealed battery - Google Patents

Abstract

OBJECT: To provide a rectangular sealed battery that prevents leakage of electrolyte solution and a decrease in sealing property between a case and a lead terminal connecting the positive electrode or the negative electrode inside the case to the outside.

Structure: A case consisting of a can 4 for receiving a positive electrode, a negative electrode, and an electrolyte, and a cap plate 6 welded to the opening of the can, and are coupled through an insulator 10 and 12 while penetrating the cap plate. And a lead terminal 80, wherein the lead terminal is padded at a head portion 82, a connecting portion 84, a coupling portion 86, and a corner at which the head portion and the connecting portion are connected to press the insulator ( 88). The lead terminal is connected to one electrode of the positive electrode or the negative electrode, and the case is electrically connected to the other electrode.

Effect: Since the fillet part of the lead-out terminal compresses the insulator, it improves sealing and sealing properties, prevents leakage of electrolyte, and improves battery reliability.

Description

Square type sealed battery {Prismatic type sealed battery}

The present invention relates to a rectangular sealed battery suitable for improving the sealing property between the case and the drawing terminal connected to the outside from the inside of the case and to prevent leakage of electrolyte.

Sealed batteries can be recharged, miniaturized, and large-capacity. Representatively, nickel-hydrogen (Ni-MH) batteries, lithium (Li) batteries, and lithium-ion (Li-ion) batteries are used. It is divided into batteries.

4 shows a configuration of a conventionally known rectangular sealed battery.

As shown in the drawing, the rectangular sealed battery is wound together through a separator between the positive electrode and the negative electrode to form an electrode group 2, the electrode group 2 is inserted into the can 4, and the can ( The cap plate 6 is welded to the upper opening of 4), and the lead terminal 8, which penetrates through the cap plate 6, is drawn out through the gasket 10 and the insulating plate 12, and sealed. The terminal plate 14 is provided between the lower end of the lead terminal 8 and the insulating plate 12.

The negative electrode of the electrode group 2 is electrically connected by using a terminal tab (not shown) or by being in direct contact with the can 4, and the positive electrode is drawn out through the terminal plate 14 welded to the terminal tab 16. After being connected to (8), it is connected to the outside.

Here, the lead terminal 8 physically fastens the cap plate 6, the gasket 10, the insulating plate 12, and the terminal plate 14, and also serves as an electrical terminal connected to the outside of the battery. To this end, the lead terminal 8 is inserted downward from the top of the cap plate 6 and is riveted to the bottom of the terminal plate 14.

However, according to the conventional rectangular sealed battery, there is a problem that a sealing failure occurs between the lead terminal 8 and the cap plate (6). Such poor sealing results from weakening and deterioration of the binding force by the drawing terminal 8, for example, the compression ratio of the gasket 10 by the drawing terminal 8 should be maintained at 30 to 50% to ensure the sealing property. To reduce the weight of the battery, aluminum is used as the material of the outgoing terminal, or when the head of the outgoing terminal is formed long in the longitudinal direction to use an oval having improved connectivity, the coupling force of the outgoing terminal is reduced, resulting in poor sealing performance. There is this.

In addition, in the case of the sealing failure as described above, there is a problem that the leakage of the electrolyte is harmful to the human body and shorten the battery life.

In order to solve the problems of the prior art described above, the present invention is to improve the coupling force of the withdrawal terminal, and to solve the sealing failure caused between the withdrawal terminal and the case.

To this end, the present invention includes a case accommodating a power generation element consisting of a positive electrode, a negative electrode and an electrolyte, and a lead terminal connected to one electrode of the power generation element, drawn out through the case and coupled through an insulator, The lead-out terminal proposes a rectangular sealed battery including a head portion, a connecting portion and a coupling portion, and a fillet portion pressurized on the insulator by being padded at an edge at which the head portion and the connecting portion are connected.

The lead-out terminal here is connected to one electrode of the power generating element, and the case is a rectangular can and a cap plate welded to the upper opening of the can.

1 is an exploded perspective view of a rectangular sealed battery according to the present invention.

2 is a cross-sectional view of a rectangular sealed battery according to the present invention.

Figure 3 is a state diagram before coupling of the withdrawal terminal according to the present invention.

Figure 4 is a cross-sectional view showing a conventionally known rectangular sealed battery.

Explanation of symbols on the main parts of the drawings

4-can 6-cap plate

10-gasket 12-insulation plate

20-Development Components 80-Drawers

82-head 84-connection

86-Joint 88-Fillet

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described based on an accompanying drawing.

1 and 2 are an exploded perspective view and a cross-sectional view showing a rectangular sealed battery of the present invention. In the present invention, a sealed battery is described as an example of a lithium (ion) battery in which charge and discharge are performed by the movement of lithium ions, and the same reference numerals are given to the same parts as in the conventional configuration.

In the figure, the rectangular sealed battery of the present invention includes a rectangular case consisting of a can 4 and a cap plate 6 welded to an upper opening of the can 4.

The can 4 houses a power generation element 20 including a positive electrode, a negative electrode, a separator for insulating the positive electrode and the negative electrode, and an electrolyte solution, among which the electrolyte solution is an electrolyte injection hole 6a after the cap plate 6 is coupled. It is injected through) and sealed by closing the injection hole (6a) using a separate plug.

The lead terminal 80 is inserted into and coupled to the cap plate 6 through a central through hole 6c, and the lead terminal 80 connects the gasket 10 and the insulating plate 12 between the cap plates 6. It is insulated, bonded and sealed via an insulator included. The terminal plate 10 is installed in the upper portion of the insulating plate 8 in consideration of electrical connectivity.

The lead terminal 80 is composed of a head portion 82 in the form of a circle, oval or rectangular, and a connecting portion 84 extending from the head portion 82, the connecting portion 84 is a cap plate ( 6) inserted from the top to the bottom and riveted at the bottom of the terminal plate 14 to form a joining portion 86, which is then hermetically sealed to constitute a cap assembly.

At this time, the withdrawal terminal 80 of the present invention comprises a fillet portion 88 is installed to be padded on the corner that is connected to the head portion 82 and the connecting portion 84, the fillet portion 88 is a coupling portion When riveting 86, the sealing of the end of the gasket 10, which is an insulator, is particularly compressed. More specifically, the fillet portion 88 of the lead terminal 80 is coupled while intensively compressing the upper end of the inner circumferential end of the gasket 10 in a state as shown in FIG. 2 in the pre-engagement state illustrated in FIG. 3.

The compression ratio of the gasket 10 compressed by the fillet portion 88 of the lead terminal 80 is in the range of 10 to 70%. The compression ratio of the gasket 10 may be adjusted by varying the thickness of the fillet portion 88 of the lead terminal 80.

Accordingly, the present invention extends the head portion 82 of the lead-out terminal 80 in the long side direction to form an oval and a rectangular shape, thereby improving contactability, and compressing and concentrating the gasket 10 by the fillet portion 88. The sealing pressure can be improved by the bonding pressure. In addition, even when the lead terminal 80 is slightly structurally weak in aluminum, the sealing property can be maintained.

The lead terminal 80 may be formed by plating nickel, copper, brass or their surface as well as aluminum, and is used as a positive electrode terminal because it is welded with the tab 16 drawn from the positive electrode of the power generation element 20. In addition, since the case is connected to the negative electrode of the power generating element 20 using a tab (not shown) or by direct contact, it can be used as a negative electrode terminal.

On the other hand, the cap plate 6 according to the present invention is provided with a safety valve 6b as a safety measure against abnormal operation of the battery or an increase in the internal pressure, which forms a groove by a physical method or a hole in the cap plate 6 itself. It can be realized because the hole is closed and the hole is sealed with a thin plate to be relatively weakly formed.

As can be seen through the embodiment described above, the present invention is formed by projecting the fillet portion between the head portion and the connecting portion of the lead-out terminal so that a portion of the gasket is compressed and pressed intensively, between the lead-out terminal and the cap plate It is possible to obtain the effect of improving the sealing property of the result, it is possible to obtain the effect of preventing the leakage of the electrolyte, improve the reliability of the product and extend the life of the battery.

Claims (4)

A case accommodating and sealing the power generation element; A lead terminal connected to one electrode of the power generating element and drawn out through the case and coupled through an insulator; The lead-out terminal is a rectangular sealed battery, characterized in that it comprises a fillet portion for pressing the insulator connected between the head portion and the connecting portion and the coupling portion and the head portion and the connecting portion. The rectangular sealed battery according to claim 1, wherein the case comprises a rectangular can and a cap plate welded to the opening of the can. The rectangular sealed battery according to claim 1, wherein the head portion of the lead terminal is one of a circle, an oval, and a rectangle. The rectangular sealed battery according to claim 1, wherein the lead terminal is made of aluminum.