KR0112796Y1 - Aluminium electrolytic capacitor element - Google Patents

Abstract

An electrode made of a cathode aluminum foil and an anodized aluminum foil having an oxide film formed on its surface, and an electrolytic cell is disposed between the two electrodes for the purpose of separating the two electrodes, and a winding device in which these electrodes are isolated and wound up by an electrode sheet, and an external In an aluminum electrolytic capacitor comprising a lead for connecting to an electrode terminal and an outer case including the same, the cathode aluminum foil 1 is formed so as to suppress evaporation of the impregnating liquid to improve product life and electrical characteristics. The winding element for the aluminum electrolytic capacitor, characterized in that it is formed slightly longer than the other components of the winding element, the extension portion 10 is configured to contact the lower side of the outer case.

Description

Winding element for aluminum electrolytic capacitor

1 is a schematic perspective view showing a winding element for an aluminum electrolytic capacitor according to the present invention.

2 is a schematic perspective view showing a winding element for a conventional aluminum electrolytic capacitor.

* Explanation of symbols for main parts of the drawings

1: cathode aluminum foil 2: anodized aluminum foil

4: insulating paper 5: winding element

The present invention relates to a winding element for an aluminum electrolytic capacitor, and in more detail, an aluminum electrolytic electrolytic electrode which can increase the heat dissipation effect by increasing the contact area with an outer case by forming an aluminum foil longer than an electrolytic cell. It relates to a winding element for a capacitor.

In general, an electrolytic capacitor is laminated or wound and insulated of an electrolytic material containing an electrolyte and an insulating material that isolates them, and then the electrolytic capacitor is completed by using the packaging material of the film as an outer container.

Such electrolytic capacitors are roughly classified into electrolytic capacitors formed by winding a plurality of electrolytic cells and insulating papers, and electric double layer capacitors having improved capacitances of film capacitors and capacitors formed by replacing the electrolytic cells with a film-like electrolytic material.

Such an aluminum electrolytic capacitor is composed of a winding element formed by winding an aluminum foil, a lead for connecting to an external electrode terminal, and an exterior case including the same, and having a high capacitance per unit area, which is suitable for high component capacity. It is a capacitor.

In the structure of the winding element for a conventional aluminum electrolytic capacitor related to such a technique, as shown in FIG. 2, an electrode is used as the cathode aluminum foil 1 and the anode aluminum foil 2 having an oxide film formed on the surface thereof. Electrolytic cells 3 in which an electrolyte solution or an electrolyte paste has been infiltrated therebetween, respectively, are formed between the two cathodes to form the cathode anodized aluminum foils 1 and 2, and the cathode and anode aluminum foils ( The winding element 5 is formed by isolating 1) (2) with insulating paper 4 and winding it to increase the capacity.

When a current is applied to the aluminum electrolytic capacitor as described above, heat is generated at the contact portion of the aluminum foil 1, 2 and the electrolytic cell 3 to evaporate the electrolyte solution or the paste of the electrolyte impregnated in the electrolytic cell 3, and eventually It will lower the characteristics of the product.

For this reason, the electrolytic cell 3 is formed slightly longer than the other components 1, 2, 4 of the winding device 5 to dissipate heat generated at the contact portion of the aluminum foil and the electrolytic cell to the outside. By forming the electrolytic cell 3 in contact with the lower surface of the outer case, the heat dissipation is achieved through the lower surface of the outer case.

At this time, the heat generated between the aluminum foil (1) (2) and the electrolytic cell 3 is the outer case through the air extending between the extension portion 30 and the extension portion 30 and the outer case of the electrolytic cell (3) It is transmitted to, so that the heat radiation is made to the lower surface of the outer case.

However, according to the winding device for a conventional aluminum electrolytic capacitor as described above, in order to transfer the heat generated between the aluminum foil (1) (2) and the electrolytic cell (3) to the outer case, the electrolytic cell (3) and the electrolytic cell The air between the extension part 30 and the outer case is used as a heat conductor, and since the electrolytic cell 3 and the air have low thermal conductivity, it is difficult to expect good heat transfer. The heat dissipation is hardly achieved in the inside of the winding element 5.

In addition, the heat generated between the aluminum foil (1) (2) and the electrolytic cell (3) evaporates the electrolyte solution or the electrolyte paste impregnated in the electrolytic cell (3), which causes a short phenomenon of the condenser occurs. There have been many problems such as lowering the electrical characteristics and life of the.

The object of the present invention is to improve the above-mentioned problems, and its purpose is to achieve good heat transfer of the electrolytic capacitor, thereby lowering the temperature caused by heat generation inside the electrolytic capacitor, thereby improving the product characteristics and improving the service life. The present invention provides a winding element for an aluminum electrolytic capacitor, which extends and can expand an allowable ripple.

As a technical configuration for achieving the above object, the present invention, the cathode aluminum foil including an extension that is in contact with the lower side of the outer case, and forming an electrode as an anode aluminum foil having an oxide film on the surface, the two electrodes By disposing an electrolytic cell between the two electrodes, the insulating paper is provided between the two electrodes to provide a winding element for the aluminum electrolytic capacitor, characterized in that the configuration consisting of a winding.

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

1 is a schematic perspective view showing a winding element for an aluminum electrolytic capacitor according to the present invention, and the same reference numerals are given to the same parts as in FIG. 2 in order to avoid duplication of drawing description.

As can be seen from the drawings, the winding element for an aluminum electrolytic capacitor according to the present invention forms an electrode as a cathode aluminum foil 1 and an anode aluminum foil 2 having an oxide film formed on a surface thereof, and the cathode wood In order to separate the anodized aluminum foil (1) and (2), an electrolytic cell 3 infiltrated with an electrolyte solution or an electrolyte paste is disposed between the two electrodes, and the two electrodes are separated by insulating paper 4 to increase capacity. Coiled for In addition, the cathode aluminum foil (1) is another component (2) of the winding element (5) to dissipate heat generated in the contact area between the aluminum foil (1) (2) and the electrolytic cell (3) to the outside It consists of a configuration to form an extension portion 10 formed slightly longer than (3) (4).

As shown in FIG. 1, the present invention having such a structure has an extension 10 outside the cathode aluminum foil 1, and other components 2, 3, and 4 of the winding device 5, respectively. It is formed longer and is configured to contact the lower side of the outer case.

Therefore, when a current is applied to the aluminum electrolytic capacitor according to the present invention, heat is generated at the contact portion of the aluminum foil (1) (2) and the electrolytic cell 3 impregnated with the electrolyte or the electrolyte paste, and the heat is extended (10). ) Is provided to the lower surface of the outer case in contact with the extension portion 10 through the cathode aluminum foil (1), the heat is released through the lower surface of the outer case.

At this time, the extension portion 10 of the cathode aluminum foil 1 is in contact with the lower surface of the outer case, the anode aluminum foil (2) electrode is in a state that the entire surface is isolated as the electrolytic cell (3) Insulation between the two electrodes is stacked, and the cathode aluminum foil 1 transmits only its own heat to the outer case, thereby dissipating heat through the outer case surface.

Accordingly, in order to transfer the heat generated between the aluminum foil (1) (2) and the electrolytic cell (3) to the outer case, the aluminum foil (1) is used as a heat conductor, since the aluminum foil has a high thermal conductivity, Good heat dissipation on the surface of the outer case can be obtained.

As described above, according to the winding device for an aluminum electrolytic capacitor according to the present invention, it is possible to easily reduce the temperature caused by the heat generated inside the electrolytic capacitor to suppress evaporation of the electrolyte solution or the electrolyte paste impregnated in the electrolytic cell 3. In addition, it is possible to prevent the short circuit of the capacitor in advance, thereby improving the characteristics of the product, extending its lifespan, and increasing the allowable and ripple effects.

Claims (1)

An electrode was formed as a cathode aluminum foil 1 and an anode aluminum foil 2 having an oxide film formed on its surface, and an electrolyte paste was impregnated between the cathode and the anode wood foil 1 and 2, respectively. (3) is arranged, the two electrodes between the winding element (5) separated and wound with an insulating paper (4), a lead inserted in the winding element for connection with an external electrode terminal and inserted into the outer case In the aluminum electrolytic capacitor having a structure, the cathode aluminum foil (1) slightly extends the extension (10) for dissipating heat generated at the contact portion between the aluminum foil (1) (2) and the electrolytic cell (3) to the outside. It is formed long, the extension portion 10, the winding element for an aluminum electrolytic capacitor, characterized in that the configuration made to be in contact with the lower side of the outer case.