KR0133587Y1 - Film condenser for a high voltage power - Google Patents

Abstract

The present invention provides a high voltage winding type capacitor in which a capacitance variation of each part of the capacitor is significantly reduced and a uniform film layer can be formed by efficiently bonding and pressing the metallized film layer in a high voltage winding type capacitor. In the high voltage winding type capacitor comprising a film layer tightening and heat treatment formed of a plurality of film layers, such as a metallized film, and subjected to heat treatment by applying a constant external pressure to the wound film, the electrode 1 of the capacitor is It is inserted into the folded portion of the end of the metallized film 1 and pressed by electric spot compression, thereby preventing distortion and damage of the metallized film 1 generated during adhesion, thereby reducing the capacity deviation of each part. It is characterized in that a uniform film layer can be formed.

Description

High Voltage Winding Capacitor

1 is a view showing a connection form of an electrode and a metallized film of a high voltage wound capacitor according to the present invention.

2 is a front view of the winding of the high-voltage winding capacitor according to the present invention.

3 is a perspective view of the high voltage wound capacitor shown in FIG.

* Explanation of symbols for main parts of the drawings

1 metallization film 2 electrode

The present invention relates to a high voltage winding type capacitor for an electric device using a metallized film. Particularly, in the high voltage winding type capacitor, the capacity difference of each part of the capacitor is considerably increased by bonding and pressing the metallized film layer efficiently. A reduced voltage and high voltage wound capacitor is provided so that a uniform film layer can be formed.

Recently, as a capacitor for an electric device, a film capacitor having a plastic film, an aluminum foil, or a metallized film as a dielectric is used. Among these, a capacitor using a metallized film is wound with a metallized film depending on the shape of the capacitor element. The wound capacitor and the metallized film formed of the element of the form can be divided into a wound capacitor formed of a plurality of layers and the like.

First, a winding capacitor is usually wound around a metallized film having one electrode on a small diameter core so that the electrodes face each other, and then wound around the outside by rotating the protective film several times through a protective film to form a circular insulating layer. And a predetermined external pressure is applied to the insulating layer to form a wound element.

In addition, the metal is fused to both end surfaces of the element to form an external electrode withdrawal metal, and the lead wire is welded onto the metal and then externally covered with a resin or the like. There are various problems such as low price, high capacitance, large capacitance, and lack of protection against smoke and fire when an abnormality occurs in the capacitor.

As a result, a multilayer capacitor that can solve various problems described above and minimize capacitance distribution and streamline production is used. The multilayer capacitor has a capacitor in which a metallized film is wound on a large aluminum drum. Will be formed. An external electrode drawing metal silicon (not shown) is formed on the cross section of the capacitor to perform heat treatment. In addition, since the heat treatment operation simply does not wrap the films, the respective films are not in close contact with each other, and thus a predetermined capacitance cannot be obtained. Thus, thermal expansion of the metal drum and thermal contraction of the film to stabilize the product characteristics while increasing the capacitance Will be used.

Then, when heat is conducted to the capacitor, the metal drum is thermally expanded to increase the drum diameter, and the film layer formed of a plurality of metallized films is thermally contracted toward the drum center by a thermoplastic metallized film or the like, and each film layer is As it is compressed, a uniform insulating layer is formed so that the performance of the capacitor is usually determined through this heat treatment process.

In this way, the clamping force received by the capacitor by the metal band is not evenly distributed in the film layer, and it is biased to one side, so that the capacity deviation of the capacitor is large, and even if the paper has a coefficient of thermal expansion smaller than that of the metal drum, the paper itself has a low strength Therefore, the film layer could not be sufficiently pressurized, and sufficient cutting force could not be produced to firmly adjust the cut surface of the capacitor during cutting.

In addition, since there is no means to adjust the tightening force tightened by the metal band, if the excessive tightening force is applied to the metallized film layer formed to a very thin thickness, the film layer is not sufficiently pressurized by the air layer between each film Has been the cause of the reduced capacitance.

In addition, when condensers are usually manufactured, many condensers are heat-treated at once to increase productivity, and when the condensers are tightened in one direction, a very large tightening force is required. This is a fairly difficult problem.

Accordingly, the present invention is to solve the above problems, in the high-voltage winding type capacitor, the metallized film layer is effectively bonded and compressed, so that the capacity deviation of each part of the capacitor is considerably reduced and a uniform film layer is obtained. It is an object to provide a high voltage wound capacitor that can be formed.

The present invention for achieving the above object is formed of a plurality of film layers, such as a metallized film, to a high voltage winding type capacitor consisting of a film layer tightening and heat treatment to perform a heat treatment by applying a constant external pressure to the wound film In this case, the electrode of the capacitor is inserted into the folded portion of the end of the metallized film and pressed by electric spot compression, thereby preventing distortion and damage of the metallized film generated at the time of adhesion, thereby reducing the partial capacity deviation. It is characterized in that a uniform film layer can be formed.

According to the present invention configured as described above, in the high voltage laminated film capacitor for power, the film layer is effectively adhered and compressed, so that the capacity deviation of each part of the capacitor is significantly reduced, and the uniform film layer can be formed.

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

1 is a view showing a connection form of an electrode and a metallized film of a high voltage wound capacitor according to the present invention, wherein the capacitor is formed of a plurality of film layers, such as a metallized film, by applying a constant external pressure to the wound film In a high voltage winding type capacitor consisting of a film layer tightening and a heat treatment to be subjected to heat treatment, the electrode 1 of the capacitor is inserted into a folded portion at the end of the metallized film 1 and pressed by electric spot crimping to bond. Deformation and damage of the metallization film (1) generated at the time is prevented to reduce the partial capacity deviation and the uniform film layer can be formed.

First, the metallization film 1 of the capacitor is folded to a predetermined length, the electrode 2 of the capacitor is inserted into the folded portion, and then the electrode 1 and the metallization film 1 by the electric spot pressing method. ) Is pressed. Accordingly, the metallization film 1 and the electrode 2 are integrated. In addition, the distortion and damage of the metallization film 1 is prevented to reduce the partial capacity deviation.

2 is a winding front view of a high voltage winding capacitor according to the present invention, in which an electrode is bonded to an end of the capacitor. 3 is a perspective view of the high voltage winding capacitor shown in FIG.

As described above, according to the present invention, the metallized film layer is efficiently bonded and pressed in the high-voltage power winding type capacitor to prevent distortion and damage of the metallized film, and the capacitance deviation of the capacitor is considerably reduced. In addition, a uniform film layer can be formed.

Claims (1)

In a high voltage wound capacitor formed of a plurality of film layers made of a metallized film or the like and subjected to heat treatment by applying a constant external pressure to the wound film, the electrode 1 of the capacitor is a metallized film ( It is inserted into the folded part of the end of 1) and is compressed by electric spot compression to prevent distortion and damage of the metallization film 1 generated during adhesion, thereby reducing the capacity deviation of each part and uniform film layer. High voltage wound capacitor characterized in that it can be formed.