KR200193158Y1 - Electrodes for a battery - Google Patents

Abstract

The present invention relates to a battery terminal for contacting a power supply terminal of a portable electronic device and supplying electromotive force of the battery to the portable electronic device. Battery terminal according to the present invention, the terminal plate 11 has a predetermined polarity, the through-hole is formed in the middle one side; A terminal pin 14 penetrating through the through hole 12 of the terminal plate and having a polarity opposite to that of the terminal plate; And an insulating member 15 interposed between the terminal plate and the terminal pin to insulate the terminal plate and the terminal pin and prevent leakage of the electrolyte solution inside the battery.

Description

Battery terminal {Electrodes for a battery}

The present invention relates to a battery mounted in a portable electronic device, such as a mobile phone or a notebook computer (notebook), in particular in contact with the power supply terminal of the portable electronic device to the terminal for the battery for supplying the electromotive force of the battery to the portable electronic device It is about.

Portable electronic devices, such as cell phones, notebook computers or camcorders, receive their operating power from batteries. There are many kinds of such batteries, but basically, electrolyte is charged in the case 1 of the type shown in FIG. 1, and a terminal for supplying electromotive force generated from the electrolyte to an electronic device on one side of the case 1 ( 2) is fixed.

An example of a conventional battery terminal 2 is shown in FIG.

Referring to Fig. 2, insulating plates 5 and 6 made of an insulating material, mainly a synthetic resin material, are provided on both sides of the terminal plate 3, respectively. The upper and lower insulating plates 5 and 6 are all manufactured by injection molding. At the lower end of the lower insulating plate 5, a terminal piece 4 of opposite polarity to the terminal plate 3 is located. Then, the terminal plate 3, the terminal piece 4 and the upper and lower insulating plates 5 and 6 are crimped, and the terminal pins 7 are the terminal plate 3, the terminal piece 4 and the upper and lower insulating plates 5 and 6, respectively. The riveting process is carried out through the battery terminal 2 is completed. The terminal pin 7 and the terminal piece 4 are connected to each other to form one polarity, and the lower insulating plate 5 is provided for insulation between the terminal pin 7 and the terminal plate 3 through which the terminal pin 7 penetrates. ), A cylindrical protrusion 5a inserted into the through hole 3a of the terminal plate 3 is formed.

However, since the conventional terminal for a battery is composed of a plurality of components, the configuration is complicated, the manufacturing process is complicated and the manufacturing cost is disadvantageous.

The present invention is conceived in view of the above, it is an object of the present invention to provide a terminal for a battery having a very simple configuration to be easy to manufacture and low manufacturing cost.

1 is a perspective view of a typical battery.

2 is an exploded perspective view of a conventional terminal for a battery.

3 is a perspective view of a terminal for a battery according to an embodiment of the present invention.

4 to 6 schematically illustrate a method of manufacturing a terminal for a battery according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11; Terminal plate 12; Through hole

14; Terminal pin 15; Insulation member

15a, 15b; Coating film

The above object is a battery terminal for contacting the power supply terminal of the portable electronic device to supply the electromotive force of the battery to the portable electronic device, the terminal having a predetermined polarity, the through-hole is formed in the middle one side; A terminal pin penetrating through a through hole of the terminal plate and having a polarity opposite to that of the terminal plate; And an insulating member interposed between the terminal plate and the terminal pin to insulate the terminal plate and the terminal pin and prevent leakage of the electrolyte solution inside the battery.

Preferably, the material of the insulating member is a fluororesin, and the heat treatment step lasts for 25 to 35 minutes at 170 to 350 ° C.

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

3 is a perspective view showing an embodiment of a terminal for a battery according to an embodiment of the present invention.

As shown, the battery terminal according to an embodiment of the present invention includes a terminal plate 11, a terminal pin 14 and the insulating member 15.

The terminal plate 11 is a rectangular flat plate, and a through hole 12 for inserting the terminal pin 14 is formed at one side thereof. A step is formed along the edge of the terminal plate 11, and this step is for assembling the battery case. Reference numeral 13 denotes a hole for injecting the electrolyte into the battery case, and is closed after the injection of the electrolyte is completed. Preferably, the material of this terminal plate 11 is aluminum (Al).

As illustrated in FIG. 5, the terminal pin 14 is a round rod having a stepped shape and is inserted into the through hole 12 of the terminal plate 11 so as to pass through the through hole 12 of the terminal plate 11. The material of the terminal pin 14 is a normal metal having conductivity.

The insulating member 15 is made of a fluorine resin material, commonly referred to as Teflon, and is inserted into the through hole 12 of the terminal plate 11 so as to be interposed between the terminal plate 11 and the terminal pin 14. The insulating member 15 is fused to the terminal plate 11 and the terminal pin 14 to insulate between the terminal plate 11 and the terminal pin 14 and leaks electrolyte between the terminal plate 11 and the terminal pin 14. It also serves to prevent it.

The manufacturing method according to the present invention for manufacturing a battery terminal having such a configuration is as follows.

As shown in FIG. 4, the terminal plate 11 is formed such that a step is formed at the edge through press working. Then, a through hole 12 is formed in the terminal plate 11, and a coating film 15a made of a fluororesin is formed around the inner circumferential surface of the through hole 12.

The coating film 15a is formed by applying a liquid fluorine resin around the inner circumferential surface of the through-hole 12, a first coating for heating to 100 to 270 ° C, and an electrostatic coating for powdery resin and a top coat for heating at 170 to 327 ° C. Is done. Of course, in order to improve the adhesion of the coating film 15a to the terminal plate 11, before the coating operation, the terminal plate 11 is washed with a solvent such as solvent, and sanding or etching is performed. It may be. Since the coating film forming process is almost the same process as the conventional fluorine resin coating operation, a detailed description thereof will be omitted.

In addition, as shown in FIG. 5, the fluororesin coating film 15b is formed on the terminal pin 14 formed in the stepped circular rod shape. Formation of the coating film on the terminal pin 14 is the same as the formation of the coating film 15a on the terminal plate 11 described above. Then, the coating film formed on the upper and lower ends of the terminal pin 14, that is, the conducting portion 14a, is removed by a grinding method.

Next, as shown in FIG. 6, the terminal pin 14 is inserted into the through hole 12 of the terminal plate 11. After the terminal pin 11 is inserted, the insertion site is heat treated. The heat treatment is carried out at about 170 to 350 ° C. for 25 to 35 minutes, preferably at 340 ° C. for 30 minutes, which is equal to or higher than the melting point of the fluorine resin. Accordingly, the coating film 15a of the through hole 12 and the coating film 15b of the terminal pin 14 are fused to each other to form a single insulating member 15. Accordingly, the terminal pin 14 is fixed to the terminal plate through the insulating member 15. If necessary, the upper end of the terminal pin 14 is punched and riveted to fix the terminal pin 14 to the terminal plate 11 more reliably.

On the other hand, the insulating member 15 may be formed by injection molding regardless of the formation of the coating films 15a and 15b as described above. In this case, the insulating member 15 and the terminal pin 14 are sequentially inserted into the through hole 12 of the terminal plate 11, and then heat is applied to the melting point of the insulating member 15 or more. The heat treatment is performed for about 25 to 35 minutes at 170 to 350 ° C, preferably at 340 ° C for 30 minutes in the same manner as the coating film forming method. Thus, the insulating member 15 is welded to the inner circumferential surface of the through hole 12 and the outer circumferential surface of the terminal pin 14 to complete the battery terminal.

When the terminal for the battery is completed through this process, the insulation and breakdown voltage test are carried out, and the quality test is performed after the appearance test.

The present invention as described above, because only one component is used to insulate the terminal plate and the terminal pin, the structure is very simple, there is an advantage that the manufacturing is easy and the manufacturing cost is also very low. In addition, since the insulating member is fixed to the terminal plate and the terminal pin by fusion, there is an advantage that the insulation performance and the electrolyte leakage prevention performance are also very excellent.

In the above, the present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiment, and those of ordinary skill in the art to which the present invention belongs, without departing from the spirit of the technical idea of the present invention described in the utility model registration claims below Various changes may be made.

Claims (2)

In the terminal for the battery for contacting the power supply terminal of the portable electronic device to supply the electromotive force of the battery to the portable electronic device, A terminal plate having a predetermined polarity and having a through hole formed at one side thereof; A terminal pin penetrating through the through hole of the terminal plate and having a polarity opposite to that of the terminal plate; And And an insulating member interposed between the terminal plate and the terminal pin to insulate the terminal plate and the terminal pin and prevent leakage of an electrolyte solution inside the battery. The battery terminal according to claim 1, wherein the insulating member is made of fluorine resin.