JPH07235454A - Electric double layer capacitor - Google Patents

Abstract

PURPOSE:To provide an electric double layer capacitor employing a pellet of sintered active carbon powder as a polarizable electrode and containing a laminate of several capacitor cells sandwiched by terminal current collectors in an insulating case wherein the terminal current collectors are prevented from being short-circuited through a droplet of electrolyte oozing out from the polarizable electrode. CONSTITUTION:An insulating film 13 is formed on the surface of at least one terminal current collector on the inner wall face side of a case 1. The insulating film 13 prevents short circuit between the terminal current collectors even if the inner wall side surfaces of one and the other current collectors 3 are bridged through droplets 12 of electrolyte oozed out from the polarization electrode and adhered to the inner wall of the case.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric double layer capacitor device having a structure in which several capacitor cells are stacked between two terminal current collectors and housed in an insulating container.

[0002]

2. Description of the Related Art The cell structure of an electric double layer capacitor is
As is well known, two polarizable electrodes made of activated carbon impregnated with an electrolytic solution are opposed to each other with a separator having an insulating property and an ion permeability therebetween, and a collector is provided on the back of the polarizable electrode. In addition to the above, the structure around the portion excluding the current collector is sealed with a gasket to prevent leakage of the electrolytic solution. Then, a plurality of such cells are stacked as needed, and pressure is applied from the back of the current collector to reduce the internal resistance.

However, recently, there has been proposed an electric double layer capacitor device in which a plurality of cells are vertically arranged in an insulating container made of resin or the like (eg, Japanese Patent Laid-Open No. 53-107629). By using an insulating container, the gasket can be eliminated and the volume occupied by the gasket can be reduced. Conversely, if the size remains the same, the volume of the cell can be increased by the volume occupied by the gasket, so that the capacity can be increased.

FIG. 2 is a diagram showing such a conventional electric double layer capacitor device. In FIG. 2, 1 is an insulating container, 2 is a spacer, 3 is a positive terminal collector, 4 is a copper plate, 5 is a conductive sheet, 6 is a separator, 7 is an intermediate collector, and 8 is a polarizable electrode. , 9 are negative terminal collectors, 10, 1
Reference numeral 1 is a boundary portion between the terminal current collector and the spacer, and 12 is an electrolytic droplet.

As the separator 6, for example, porous plastic is used. As the intermediate collector 7, for example, conductive rubber is used. The reason why the conductive rubber is used is that it is light in weight and that it is not corroded even when sulfuric acid is used as the electrolytic solution.
If a metal plate is used, it is heavy and corroded by sulfuric acid.

A solid pellet obtained by sintering activated carbon is used as the polarizable electrode 8, and an electrolytic solution (eg, sulfuric acid) is added to the solid pellet.
Is impregnated. The part sandwiched between the intermediate current collectors 7 or between the intermediate current collector 7 and the terminal current collectors 3, 9 is
It constitutes one cell. Several of these cells are stacked and housed in the container 1. An insulating spacer 2 is inserted between the terminal current collectors 3 and 9 and the inner wall of the container 1. The cell stack receives a pressing force from the container 1 via the spacer 2 so that the cell components are brought into close contact with each other.

FIG. 4 is a diagram showing a terminal current collector in the above-mentioned conventional electric double layer capacitor device. Figure 4
4A is a plan view, and FIG. 4B is a sectional view taken along line XX of FIG. Here, the positive electrode terminal current collector 3 is taken up, but the negative electrode terminal current collector 9 has the same structure. The reference numerals correspond to those in FIG. Terminal current collector 3
Has a structure in which a copper plate 4 is used as a core material, and the surface thereof is covered with a sulfuric acid resistant conductive sheet 5 such as a conductive rubber except for an upper terminal portion for connecting an electric wire. The reason why the terminal current collector is covered with the conductive sheet 5 is to prevent corrosion by sulfuric acid.

As a conventional document relating to the electric double layer capacitor device as described above, for example, Japanese Patent Laid-Open No.
-101416 is available.

[0009]

[Problems to be Solved by the Invention]

(Problem) However, when the terminal current collector as described above is used in the electric double layer capacitor device, the polarizable electrode 8
There is a problem that a short circuit occurs between the positive electrode terminal current collector and the negative electrode terminal current collector through the electrolytic solution that oozes out of the container and adheres to the inner wall of the container 1 or the like.

(Explanation of Problems) Normally, the terminal current collector 3 and the terminal current collector 9 are not short-circuited. Because, the two terminal current collectors are separated from each other in distance, and one surface of each terminal current collector facing the inner wall of the container 1 is in contact with the spacer 2, and the spacer 2 is an insulator. Because.

However, since the polarizable electrode 8 is impregnated with an electrolytic solution (eg, sulfuric acid, etc.), the electrolytic solution oozes out over time, and the electrolytic droplets 12 shown in FIG. Thus, it may adhere to the inner wall of the container 1. If the boundary portions 10 and 1 between the terminal current collectors 3 and 9 and the spacer 2
When the electrolytic droplets soak into 1 and the bottom surface of the container 1 is covered with the electrolytic droplets 12, the terminal current collector 3 and the terminal current collector 9 are connected by the electrolytic solution, A short circuit occurs between the two. It is needless to say that the short circuit itself is already not preferable, but when a large current flows due to the short circuit, oxygen gas is generated near the surface of the terminal current collector 3 of the positive electrode due to a chemical reaction, which deteriorates the conductive sheet 5. It will also happen. An object of the present invention is to solve the above problems.

[0012]

In order to solve the above problems, according to the present invention, an electric double layer having a structure in which several capacitor cells are stacked between two terminal current collectors and housed in an insulating container. In the capacitor device, an insulating film is formed on the inner wall surface of the container among the surfaces of either or both of the terminal current collectors.

The insulating film can be formed by applying an insulating paint or can be formed by adhering an insulating film.

[0014]

[Operation] In an electric double layer capacitor device with a structure in which a pellet made by sintering activated carbon powder is used as a polarizable electrode and several capacitor cells are stacked between terminal current collectors and housed in an insulating container, An insulating film is formed on the surface of at least one of the terminal current collectors on the inner wall side of the container. Then, the inner wall side surface of one terminal collector and the inner wall side surface of the other terminal collector are connected by the electrolytic droplets exuding from the polarizable electrode and adhering to the inner wall of the container. Also,
A short circuit will not occur between the terminal current collectors.

[0015]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a diagram showing an electric double layer capacitor device of the present invention. Reference numerals correspond to those in FIG. 2, and 13 is an insulating film. In terms of structure, the point different from the conventional example of FIG. 2 is that of the surfaces of the terminal current collectors 3, 9 on the inner wall side of the container 1,
The surface on the side in contact with the spacer 2 is the insulating film 13. Since the structure of other parts is the same as the conventional example,
The description is omitted.

If the surface of the terminal current collectors 3, 9 which is in contact with the spacer 2 is the insulating film 13, the electrolytic droplet 12 will seep into the boundary portions 10, 11 with the spacer 2. Even if the surfaces of the terminal current collector 3 and the terminal current collector 9 are connected by the electrolytic droplet 12, it is the insulating film 13 that is in contact with the electrolytic droplet 12, so that the terminal current collector 3 and Terminal current collector 9
Are not short-circuited via the electrolytic droplet 12.

In FIG. 1, the insulating film 13 is provided on both of the terminal current collectors 3 and 9, but the short-circuit path can be cut off by providing it on at least one of the terminal current collectors.
A short circuit can be prevented.

FIG. 3 is a diagram showing an example of the terminal current collector 3 used in the electric double layer capacitor device of the present invention. The reference numerals correspond to those in FIG. FIG. 3A shows a terminal current collector 3.
The second example is shown in FIG. 3B. Although the positive electrode terminal current collector 3 is taken as an example here,
The negative electrode terminal current collector 9 has the same structure.

First, the terminal current collector 3 shown in FIG. 3A will be described. In this example, one side of the copper plate 4 is covered with the conductive sheet 5 as in the conventional case, and the insulating film 13 is formed on the other side. When used in an electric double layer capacitor device, as shown in FIG.
The surface on which is formed is used in contact with the spacer 2.

Next, the terminal current collector 3 shown in FIG. 3B will be described. In this terminal current collector 3, both surfaces of the copper plate 4 are covered with the conductive sheets 5, and then the insulating film 13 is formed only on the surface of one conductive sheet 5. When used in the electric double layer capacitor device, the surface of the insulating film 13 is in contact with the spacer 2.

As a method of forming the insulating film 13 in each of the above examples, there are a method of applying an insulating paint and a method of adhering an insulating film. As the insulating paint, for example, a thermosetting resin such as an epoxy resin having excellent sulfuric acid resistance (electrolytic solution resistance) can be used. Further, as the insulating film, PET (polyethylene terephthalate) having excellent sulfuric acid resistance (electrolytic solution resistance), EPDM (ethylene-propylene-diene monomer), IIR (butyl rubber), or the like can be used.

[0022]

As described above, according to the electric double layer capacitor device of the present invention, the insulating film is formed on the surface of at least one of the terminal current collectors on the inner wall side of the container. Even if the inner wall side surface of the terminal collector and the inner wall side surface of the other terminal collector are connected to each other by electrolytic droplets exuding from the polarizable electrode and adhering to the inner wall of the container, No short circuit will occur between the electric bodies. Therefore, oxygen gas is not generated at the positive electrode, and the deterioration of the conductive sheet can be prevented.

[Brief description of drawings]

FIG. 1 is a diagram showing an electric double layer capacitor device of the present invention.

FIG. 2 is a diagram showing a conventional electric double layer capacitor device.

FIG. 3 is a diagram showing a terminal current collector used in the electric double layer capacitor device of the present invention.

FIG. 4 is a diagram showing a terminal current collector used in a conventional electric double layer capacitor device.

[Explanation of symbols]

1 ... Container, 2 ... Spacer, 3 ... Terminal current collector, 4 ... Copper plate,
5 ... Conductive sheet, 6 ... Separator, 7 ... Intermediate collector,
8 ... Polarizable electrode, 9 ... Terminal current collector, 10, 11 ... Boundary part, 12 ... Electrolytic droplet, 13 ... Insulating film

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroshi Moroboshi, No. 8 on the earth shelf in Fujisawa City, Isuzu Motors Co., Ltd. inside the Fujisawa Plant (72) Inventor, Yasuhiro Sekine, No. 8 on the earth shelf in Fujisawa City, Isuzu Motors Co., Ltd. (72) Inventor Fumio Nakanishi 8 Fujisawa City Shelf 8 Isuzu Motors Co., Ltd. Fujisawa Plant (72) Inventor Toshifumi Fujisawa City Shelf 8 Isuzu Motors Co., Ltd. Fujisawa Plant (72) Inventor Tatsuo Higuchi, 8 Satoshi, Fujisawa City, Fujisawa Plant (72) Inventor, Katsuhiko Kushibiki, 8 Satoku, Fujisawa City, Isawa Motors, Ltd., Fujisawa Plant (72) Inventor, Kaoru Yabe, Fujisawa City Sat No. 8 shelf Isuzu Motors Limited Fujisawa factory

Claims (3)

[Claims] 1. An electric double layer capacitor device having a structure in which several capacitor cells are stacked between two terminal current collectors and housed in an insulating container, and at least one of the terminal current collectors has a surface. In the electric double layer capacitor device, an insulating film is formed on the inner wall side surface of the container. 2. The electric double layer capacitor device according to claim 1, wherein the insulating film is formed by applying an insulating paint. 3. The electric double layer capacitor device according to claim 1, wherein the insulating film is formed by adhering an insulating film.