KR200393100Y1 - Metalized plastic film for film capacitor - Google Patents

Abstract

The present invention improves the quality to have a high security function along with the miniaturization of film capacitors by improving the shape in which the rhombic split electrodes longer than the longitudinal direction or the split electrodes divided into two in the width direction coexist. A metallized plastic film for film capacitors.

To this end, the metallized plastic film for film capacitors according to the present invention is deposited on the both sides or one side of the plastic film (1), which is a dielectric, as a separator (3) which does not deposit the deposited metal (2). These are separated, and these are metallized plastic films 8 of the rhombic split electrodes 5 and 9, the sides of which are connected to the fuse portions 4 and 7 of the narrow area, and the rhombic split electrodes 5 The dimension is a shape in which a lozenge shape longer in the width direction than the longitudinal direction of the metallized plastic film 8 coexists with the split electrode 9 which bisects the lozenge split electrode 5 in the width direction. In the plastic film 8, the fuse part 7 is not continuously deposited in the longitudinal direction, and the fuse part 7 is disposed at the opposite side of the margin part 6 at the longitudinal dimension interval of the rhombic split electrode 5. It is characterized by including a structure having. According to the width dimension of the metallized plastic film 8, the split electrodes 5 and 9 in the width direction are characterized in that they have one to ten structures.

Film capacitors using metallized plastic films reduce the number of split electrodes and fuses in the width direction to reduce self-heating due to the current density of the fuse, and reduce the area of the split electrodes compared to the conventional ones. It is effective to provide a metallized plastic film with a security function for capacitors.

Description

Metallized plastic film for film capacitors {Metalized plastic film for film capacitor}

The present invention relates to a metallized plastic film used in a wound or laminated film capacitor, and more particularly, a split electrode in which the rhombic split electrode or the rhombic split electrode is longer in the width direction than the longitudinal direction. The present invention relates to a metallized plastic film for film capacitors, which has improved quality in such a coexisting shape to have a high security function with miniaturization of film capacitors.

In general, the film capacitor used to obtain the capacitance is one of the important elements constituting the electronic circuit. Even with the same film capacitor, the function varies according to the frequency or waveform of the applied voltage. To determine the film capacitor to be used, the insulation strength of the used voltage should be considered in addition to the capacitance. The film capacitor is a dielectric plastic film made of polyethylene terephthalate resin, polypropylene resin, polyethylene naphthalate resin, polycarbonate resin, etc., and the electrode is wound on a cylindrical surface after depositing metal on one or both sides of the plastic film. As a result, capacitor manufacturers have proposed a method of dividing the deposited metal of the metallized plastic film by a separator for the safety of the capacitor.

1, 2A, 2B, 2C, and 3 are perspective views illustrating metallized plastic films for a conventional film capacitor.

1 is a conventional metallized plastic film 8 for film capacitors in which metal for electrode deposition is deposited on a plastic film 1, and the shape of the deposition metal 2 is not divided and a temperature fuse or There is a need for a separate safety device to be disconnected from the power supply by the gas generated in the event of current fuse or film capacitor accident. This method has a problem in that the price increases as the size of the film capacitor increases.

FIG. 2A shows a metallized plastic film 8 in which a deposited metal 2 is divided into T-shapes for a conventional film capacitor, and an electrode metal is deposited on the plastic film 1, and the deposited metal 2 is separated. The T-shaped split electrode 10 is formed by (3) to have one fuse portion 7. It also has a sprayed metal contact at the marginal portion 6 without the deposited metal 2 and its opposite end in the longitudinal direction. Since the shape of the fuse 7 is often inoperable and the original purpose cannot be achieved, a structure having two or three fuse parts 7 as shown in FIGS. 2B and 2C has been developed. Could not be secured. In addition, since the spacing of the split electrodes 10 is wide, the capacitance reduction rate of the capacitor appears large when the fuse unit 7 is operated.

3 is a metallized plastic film 8 in which the deposition metal 2 is divided into a rhombus shape, and each of the split electrodes 10 is a fuse part which is a deposition metal 2 having a small area. A shape connected by (4) was developed. At this time, the length of each diagonal is about 13mm.

For example, in the case of the metallized plastic film 8 having a width of 75 mm and a length of 100 mm, the total number of fuses 4 and 7 is 265 with 253 fuse parts 4 and 12 fuse parts 7, which is 100. In terms of percentage, the temperature rise was 20K and the insulation distance of the burn-off was 9.1mm. As a result of having a large number of fuses 4 and 7 as described above, when the film capacitors are connected to a power source, the fuses 4 and 7 having a small area generate a large amount of heat due to the current density.

therefore. The present invention was devised to improve the above-mentioned problems of the prior art. By reducing the number of split electrodes and the number of fuses in the width direction, the self-heating caused by the current bottleneck of the capacitor is reduced, and the area of the split electrodes is reduced. It is an object of the present invention to provide a metallized plastic film for a film capacitor, which can be used even at high temperatures and in miniaturization and improving the security function of a capacitor by reducing the capacity reduction rate.

The metallized plastic film for film capacitor of the present invention for achieving the above object is deposited on one side or both sides of the plastic film as a dielectric, and the deposition metal is separated into portions which do not deposit, and these are narrow areas A metallized plastic film in which a rhombic split electrode, the sides of which are connected to each other by a fuse part, and a split electrode in which the rhombic split electrode is divided into two in the width direction coexist. The length of the rhombic split electrode is about 5 to 30 mm in the width direction. The dimension of is about 10-50mm and has a longer rhombic shape in the width direction than the longitudinal direction of the metallized plastic film, and the margin portion which is not continuously deposited in the longitudinal direction in the metallized plastic film, and on the opposite side of the margin part. The width of the metallized plastic film with the fuse part at the longitudinal dimension interval of the rhombic split electrode. Depending split electrodes in the width direction is 1 - characterized by having a 10 structure.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

4A and 4B are perspective views of a security function metallized plastic film 8 for a film capacitor according to an embodiment of the present invention, and the metallized plastic film 8 for the film capacitor of the present invention for achieving the above object, The electrode metal is deposited on one or both surfaces of the plastic film 1, which is a dielectric, and the deposited metal 2 is separated into portions which do not deposit. These are metallized plastic films in which the rhombic split electrodes 5, each side of which is connected to the fuse portions 4 and 7, of the narrow area, and the split electrodes 9 which bisected the rhombic split electrodes in the width direction coexist. 8), the longitudinal dimension of the rhombic split electrode 5 is about 5-30 mm and the width dimension is about 10-50 mm, which has a longer lozenge shape in the width direction than the longitudinal direction of the metallized plastic film 8. . The margin part 6 which is not continuously deposited in the longitudinal direction in the metallized plastic film 8, and the fuse part 7 at the longitudinal dimension interval of the rhombic split electrode 5 on the opposite side of the margin part 6. ), The split electrodes 5 in the width direction according to the width dimension of the metallized plastic film 8 are characterized by having one to ten structures. In the case where the metallized plastic film 8 has a width of 75 mm and a length of 100 mm, the fuse parts 4 and 7 are 107-191, which are smaller than 99-180 fuse parts 4 and 8-11 fuse parts 7. The temperature rise is 8-14K and the insulation distance of burn-off is 8-11mm. The resistance of the deposited metal 2 of the split electrode 5 is 2-20 Ω / cm 2 or uniform, or the opposite end portion 8 of the margin part 6 is 0.5-10 Ω / cm 2, and the rest is 2-20. This is the case where Ω / cm 2 is set.

The present invention constituted as described above has a size of the split electrode 5 longer than that of the metallized plastic film 8 in the width direction, and the fuse is disposed on one side of the split electrode 5 by continuously arranging it in the width direction and the length direction. By reducing the number of sections 4, the self-heating caused by the current bottleneck of the capacitor is reduced, and the area of the splitting electrode 5 is reduced to 1/5 or more as compared with the conventional FIG. 2A. Capacity reduction rate by operation can be improved.

 The plastic film 1, which is a dielectric, is made of polyethylene terephthalate resin, polypropylene resin, polyethylene naphthalate resin, polycarbonate resin, and the like. The electrode deposition metal 2 is aluminum, zinc, or an alloy of aluminum and zinc. The main component of which is silver, copper, nickel, chromium and the like can be used as the nucleator (side) of the deposited metal.

As described above, the present invention reduces the self-heating caused by the current density of the fuse part by reducing the number of split electrodes and fuses in the width direction in a film capacitor using a metallized plastic film, and reduces the area of the split electrodes as compared with the conventional security function. This has the effect of providing a secure metallized plastic film for film capacitors that is excellent and safe at high voltages and currents.

Although the technical concept of the metallized plastic film for a film capacitor of the present invention has been described based on an exemplary drawing, this is illustrative of the best embodiments of the present invention and is not intended to limit the utility model registration claims of the present invention. . It is apparent that anyone of ordinary skill in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1 is a perspective view of a general metallized plastic film for a conventional film capacitor.

2A is a perspective view of a metallized plastic film for a conventional film capacitor in which a deposited metal is divided into T-shapes and one fuse.

Figure 2b is a perspective view of a metallized plastic film for a conventional film capacitor, the deposition metal is divided into a T-shape and two fuses.

Figure 2c is a perspective view of a metallized plastic film for a conventional film capacitor deposited metal is divided into T-shape and three fuses.

3 is a perspective view of a metallized plastic film in which a deposited metal is divided into diamonds for a conventional film capacitor.

Figure 4a is a perspective view of two split electrodes in the width direction of the metallized plastic film for film capacitors of the present invention.

Figure 4b is a perspective view of three split electrodes in the width direction of the metallized plastic film for film capacitors of the present invention.

* Description of the symbols for the main parts of the drawings

1: plastic film 2: deposited metal

3: separating part 4, 7: fuse part

5: lozenge split electrode 6: margin part

8 metallized plastic film 9 bipartite electrode

10: split electrode

Claims (6)

Metallization is deposited on both sides or one side of the plastic film, which is a dielectric, and is separated into non-deposited portions, and these are metallized for film capacitors of rhombic split electrodes in which each side is connected to a fuse of a small area. In plastic film, The rhombic split electrode has a shape in which a rhombic split electrode longer in the width direction than the longitudinal direction of the metallized plastic film and a split electrode in which the rhombic split electrode is divided into two in the width direction coexist, and in the longitudinal direction in the metallized plastic film. And a structure in which the margins are not continuously deposited, and the fuses are provided at opposite parts of the margins at longitudinal dimension intervals in the form of split electrodes. The method of claim 1, The divided electrode in the width direction according to the width dimension of the metallized plastic film is a metallized plastic film for film capacitors, characterized in that it has a structure of 1 to 10. The method of claim 1, Metallization for film capacitors further comprises a structure having a margin portion that is not continuously deposited in the longitudinal direction in the metallized plastic film and the fuse portion at the opposite side of the margin portion in the longitudinal dimension interval of the rhombus shape. Plastic film. The method of claim 3, The number of the fuse portion is metallized plastic film for a film capacitor, characterized in that one to five. The method of claim 1, The dimension of the longitudinal direction in the rhombic split electrode is a metallized plastic film for film capacitors, characterized in that the dimension in the width direction of 10 to 50mm. The method of claim 1, The deposition resistance of the deposited metal is 0.5-20 Ω / ㎠ or uniform, or the opposite end portion of the margin portion of 0.5-10 Ω / ㎠ and the remaining portion is 2-20 Ω / ㎠ for the film capacitor Metallized plastic film.