KR20000018047U - Termial for electric double layer capacitor - Google Patents

Abstract

The present invention relates to a terminal used to draw a positive electrode and a negative electrode in an electric double layer capacitor, and in particular, by forming the terminal linearly and forming irregularities on the contact surface of the unit cell to minimize the contact area between the unit cell surface and the terminal. The present invention relates to a terminal of an electric double layer capacitor, which can prevent an increase in contact resistance generated during welding of a cell and a terminal, and simplify the manufacturing process by plating the entire molded terminal.

Description

Terminal for electric double layer capacitor

The present invention relates to a terminal used to draw a positive electrode and a negative electrode in an electric double layer capacitor, and in particular, the contact shape is minimized by minimizing the contact area by forming the terminal linearly and forming an uneven portion in the unit cell contact surface of the terminal. It is to provide a terminal capable of.

Along with the development of the electric technology, the development of the electronic component technology is continuously progressing. In addition, in accordance with the miniaturization, portability, and multifunctionalization of electronic products, electronic components are also miniaturized and multifunctional.

In general, the structure of an electric double layer capacitor forms a unit cell of a positive electrode and a negative electrode case for storing a pair of electrodes of an anode and a cathode impregnated with electrolyte and an electrolytic cell and a gasket for short prevention and insulation. 2 to 3 unit cells are laminated in series using a metal cap, and then bonded together, sleeved with a heat shrinkable insulating tube, and two terminals, a positive electrode and a negative electrode, are bonded to upper and lower surfaces of the laminated cell. .

The two terminals used as the positive electrode and the negative electrode are attached to the upper surface of the upper unit cell and the lower surface of the lower unit cell by welding. The terminals of the terminal determine the appearance, performance and soldering characteristics of the product according to the shape, size and material.

1 illustrates a terminal used in a conventional electric double layer capacitor, and a surface in contact with the unit cell 5 is widely formed by using SUS, SPCC, etc., and a contact portion 2 having irregularities in the center of the wide contact surface is shown. Is formed. Next, tin plating 3 is provided on a part of the terminal 1 which protrudes to the outside to facilitate soldering during the work of the electronic equipment set.

As shown in FIG. 2, the terminal 1 formed as described above closely contacts the contact portion 2 of the terminal 1 to the upper surface and the lower surface of the stacked unit cells 5, and then the welding rod 8 is attached to the terminal 1. In contact with the contact portion 2, the surface of the unit cell is adhered by spot welding.

3 shows that two terminals formed as described above are bonded together by welding. Two unit cells 5 are laminated in series by a metal cap 6, and the heat shrinkable insulating tube 7 On the upper surface of the upper unit cell 5 and the lower surface of the lower unit cell 5 of the living electric double layer capacitor, terminals 1 used as an anode and a cathode are formed by welding.

As described above, when the terminal in the form of a plate is bonded to the unit cell by spot welding, it is impossible to minimize the contact surface 9 of the terminal, and the soot and the adhesion point due to the spark generated during welding due to the large contact area (4) There was a problem that the contact resistance increased due to carbonization.

In addition, since the terminal material is made of SUS, SPCC, etc., it is necessary to use tin plating on the surface of the terminal due to the use of soldering in the application of electronic equipment sets. Partial plating was carried out except for the welded part to increase carbonization. Therefore, the plating part of the terminal needs a selective plating of only the soldering part, so the manufacturing process is difficult, and the tape packaging cannot be performed due to the shape of the terminal. there was.

In order to solve the above problems, the present invention is to form a terminal linearly to have a constant width and thickness, and to form a double irregularities in the contact portion of the unit cell to minimize the contact area with the unit cell to the spark generated during spot welding It aims to increase the efficiency of work by minimizing the carbonization of soot and adhesive points due to reducing the contact resistance of the product and enabling the tape-packing linearly to enable automatic mounting in the application of a set of electronic devices.

In addition, tin plating is performed on the entire surface of the terminal to improve soldering characteristics and simplify the manufacturing process when applying a set of capacitors using the terminal.

In order to achieve the above object, the present invention, in the terminal used to pull out the positive electrode and the negative electrode of the electric double layer capacitor, the terminal is formed in a linear, and the contact portion with the unit cell has a double uneven portion is formed And a terminal for an electric double layer capacitor, wherein the entire surface of the terminal is tin plated.

1 shows a terminal used in a conventional electric double layer capacitor.

FIG. 2 is a partial cross-sectional view illustrating bonding of the terminal of FIG. 1 to an upper surface of a unit cell by using a welding rod. FIG.

3 is a cross-sectional view of an electric double layer capacitor using the terminal of FIG.

4 is a view showing a terminal used in the electric double layer capacitor according to the present invention.

FIG. 5 is a partial cross-sectional view illustrating bonding of the terminal of FIG. 4 to an upper surface of a unit cell by using a welding rod. FIG.

FIG. 6 is a sectional view of an electric double layer capacitor using the terminal of FIG. 4; FIG.

※ Explanation of codes for main parts of drawing

1,10: electrode terminal 2: contact portion

3: plating part 4,14: adhesion point

5,15: unit cell 6,16: metal cap

7,17: heat shrinkable tube 8,18: welding rod

9,19: welding surface 11: uneven portion

12: uneven protrusions 13: uneven depressions

The present invention relates to a terminal used in the electric double layer capacitor, will be described in detail with reference to the accompanying drawings.

Figure 3 shows an electrode terminal used in the electric double layer capacitor according to the present invention, it is formed linearly to have a constant width and thickness using a nickel-iron alloy as a material. Next, the concave-convex 11 is formed in a portion to be in contact with the unit cell 15 by using a press or the like. The surface where the terminal 10 is in contact with the unit cell 5 is in contact with only the protrusion 12 of the unevenness can minimize the contact area. As described above, the linear terminal having double unevenness is tin-plated on the entire surface.

Next, FIG. 5 shows that the uneven protrusion 12 of the terminal 10 is brought into close contact with the upper surface of the unit cell 15 and the spot welding is performed by contacting the electrode 18 with the uneven depression 13. It is shown. When welding is performed as shown in FIG. 5, an electric double layer capacitor using a linear terminal is manufactured as shown in FIG. The structure is to weld the linear terminal 10 by spot welding on the upper surface of the upper unit cell 15 and the lower surface of the lower unit cell of the two unit cells, the unit cells 15 to the metal cap 16 After laminating in series with each other, the sleeve is sleeved using the heat-shrinkable tube 17.

When the terminal of the present invention is welded to the upper and lower surfaces of the unit cells as described above, only the recessed portion of the terminal uneven portion is selectively welded, thereby minimizing the contact area between the linear terminal and the unit cell to generate sparks during welding And soot can be suppressed.

The present invention is to form a terminal used in the electric double layer capacitor in a linear form instead of the conventional plate shape so that the portion in contact with the unit cell to form a double unevenness when attaching the terminal to the upper surface and the lower surface of the unit cell By minimizing spark generation and soot generated by spot welding, the contact resistance of the electric double layer capacitor is minimized, and the manufacturing process is simplified by plating the entire terminal. In addition, by manufacturing the terminal in a linear manner can be taped packaging to facilitate the automatic mounting of the electronic device set application.

Claims (2)

In the terminal bonded by welding to the unit cell surface in order to draw the positive electrode and the negative electrode of the electric double layer capacitor, The terminal is formed in a linear shape, a double concave-convex portion is formed in the contact portion with the unit cell, and the entire terminal surface is tin-plated, the terminal for the electric double layer capacitor The method of claim 1, The material of the terminal is a nickel-iron alloy terminal for an electric double layer capacitor.