JP6262462B2 - Film capacitor - Google Patents

Description

  The present invention relates to a film capacitor. In particular, it relates to a film capacitor with external terminals.

The film capacitor with an external terminal is a capacitor in which a capacitor element is housed in a case and an opening is sealed with a sealing body with an external terminal.
Capacitor element of the film capacitor using the film as a dielectric, which was wound, zinc on both end faces of the winding, a metal such as copper or aluminum deposited by metallikon, (hereinafter referred to as metallikon electrode) element external electrodes Is forming.

In recent years, in consideration of the environment, an inverter circuit suitable for energy saving and high efficiency has been adopted, and since the working voltage of this inverter circuit is high, there is a tendency to adopt a film capacitor among the capacitors. In particular, in mobile applications such as in-vehicle use, conditions for use such as moisture resistance and vibration resistance have been required over a long period of time in a wide temperature range.
Therefore, instead of using the tip part of the lead terminal as an external terminal, Patent Document 1 provides a sealing body at the opening of the case to improve moisture resistance, and also provides an external terminal on the sealing body. A technique for improving vibration resistance by connecting to a lead terminal is disclosed.

JP 2011-77282 A

  However, when a large current is handled, the size of the capacitor increases, so the weight of the capacitor element increases. Therefore, stress is likely to be applied to the connection portion between the lead lead and the metallicon electrode of the capacitor element, the connection resistance of the connection portion is likely to increase, and a heat generation problem is likely to occur.

  The present invention is a film capacitor that can handle a large current by eliminating the problem of connection occurring at the connection between the metallicon electrode of the capacitor element and the lead terminal while maintaining the moisture resistance and vibration resistance of the film capacitor with external terminals. The purpose is to get.

In order to solve the above problems, the following film capacitor is provided.
(1) A capacitor element in which a dielectric film is used and laminated together with an electrode and wound, and a metallicon electrode is provided on both end faces; a bottomed cylindrical case having an opening on one end face accommodating the capacitor element; A film capacitor having a sealing body for sealing the opening of the case, an external electrode provided on the sealing body, and a lead lead for connecting between the external electrode and the metallicon electrode, between the metallicon electrodes The lead of the capacitor element is housed in the case so that the direction of the lead is in the depth direction of the case, and at least the lead lead connected to the metallicon electrode on the opening side of the case is folded back in the longitudinal direction. Fi which is to have a folded Kaee partially has, in the folded Kaee partially, characterized in that the slits in the longitudinal direction are provided Beam capacitor.
(2) Two capacitor elements are stacked, electrically connected in parallel and housed in the case, and the lead leads connected to the metallicon electrodes on the opposite side of the capacitor element, respectively, The film capacitor according to (1), wherein the film capacitor is connected at an external electrode.
(3) The film capacitor according to (1) or (2), wherein the folded portion is a zigzag fold.
(4) The film capacitor according to (1), (2), or (3), wherein the folded portion has a spring shape .

  By folding back in the longitudinal direction provided in the lead lead of the present invention, while maintaining the moisture resistance and vibration resistance of the film capacitor with an external terminal, the stress applied to the connection portion between the lead lead and the metallicon electrode of the capacitor element is reduced, It is possible to provide a film capacitor with an external terminal that can withstand a large current by eliminating a connection defect that occurs at the connection between the lead terminal and the metallicon electrode of the capacitor element.

1 schematically shows a cross-sectional view of a film capacitor according to the present invention. The sectional view of another example of the film capacitor concerning the present invention is typically shown. The sectional view of another example of the film capacitor concerning the present invention is typically shown. The sectional view of another example of the film capacitor concerning the present invention is typically shown. The perspective view of another example of the part of the drawer lead of the film capacitor concerning the present invention is shown typically.

  In the capacitor element described in the present invention, a film obtained by metallizing a metal or an alloy such as aluminum, copper, or zinc by vapor deposition or the like on a film surface such as polyethylene terephthalate or polypropylene, or the metal foil is overlapped via the film. In general, a metallicon electrode is provided by spraying a metal such as zinc, copper, or aluminum on both end faces of the winding. The cross-sectional shape is circular when wound, and flat when collapsed, but the flat shape has a flat side surface and improved storage efficiency and heat dissipation.

  The metallicon electrode of the present invention is an electrode provided on the end face of a capacitor element made of a metal or an alloy such as copper, zinc, aluminum, tin, or solder, and is generally used for a film capacitor. Can be used. In some cases, the surface of the metallicon electrode may be plated.

  The case of the present invention is a bottomed cylindrical container having an opening on one end surface, and is generally used for a film capacitor, and can be made of plastic or metal. If it is a plastic, for example, a resin such as polyethylene terephthalate, polybutylene terephthalate, polycarbonate, or polyphenylene sulfide may be used. As long as it is a metal, for example, aluminum, magnesium, iron, stainless steel, copper, or an alloy thereof can be used.

  The sealing body of the present invention seals the opening of the case, and is bonded, fixed or fused to the opening of the case.

The external terminals of the present invention are a pair of terminals for connection to the outside and penetrate the sealing body. In addition to a simple columnar body, the shape may be provided with a flange on the body of the columnar body so as to be in contact with the surface of the sealing body on the capacitor element side so as not to escape from the sealing body. Then, when the sealing body is sandwiched between the collar and a fastener provided on the side in contact with the outer surface of the sealing body, the external terminal is fixed to the sealing body. For example, the fastener is inserted into a groove or the like provided in the body of the columnar body. In addition, the external device is connected by a threaded portion or the like provided on the side opposite to the collar portion of the body portion of the external terminal that can be connected by a bolt.
As the material of the external terminal main body, for example, a material made of a metal or an alloy such as copper, aluminum, iron, nickel, stainless steel, phosphor bronze, or the like may be plated with tin, solder, or the like. The trunk is a columnar shape with a diameter of about 1 mm to 30 mm, and the size is determined by the amount of electricity flowing. The outer peripheral shape of the body portion or the collar portion is preferably a polygonal shape or a non-circular shape in order to prevent rotation in the axial direction of the external terminal. Finally, the rotation of the outer periphery of the collar portion is fixed by filling with the injected insulating resin. Generally, it is a hexagon or a quadrangle, and may be an ellipse or a wavy circle. In the case where there is no flange, it is preferable that the outer peripheral shape of the body portion, particularly the sealing body portion or the inner side of the case is polygonal or non-circular, in order to prevent the external terminal from rotating in the axial direction.

The lead of the present invention electrically connects between the external terminal and the metallicon electrode, and the direction from the external terminal to the metallicon electrode is the longitudinal direction. Deformable metal foils and thin plates such as copper, aluminum, iron, nickel, stainless steel, phosphor bronze, etc. can be used, and those that can be soldered, welded and pressed can be used, but copper or copper alloys are particularly good electrical conductors. preferably, the plating of tin or solder or the like may be provided on the surface. In addition, a portion other than the connection portion may be covered with an insulator. Further, at least a lead-out portion that is folded back in the longitudinal direction is provided in the lead-out lead connected to at least the metallicon electrode on the opening side of the case. When folded back in the longitudinal direction, a crease line is formed in the width direction of the lead. It is preferable that the folded portion is in the shape of a spring because it easily deforms. In addition, it is preferable to provide one or more slits in the longitudinal direction of the lead at the folded portion because the spring elastic direction is easily deformed in a direction perpendicular to the spring elastic direction.
In particular, since the lead between the lead terminal connected to the metallicon electrode on the opening side of the case has a small distance between the external terminal and the metallicon electrode, the length of the lead is likely to be short. Therefore, it is preferable that the folded portion is folded in a zigzag manner because the length of the lead lead becomes longer and the deformation in the film capacitor is easily relieved. Further, if this portion is spring-shaped, it is possible for the lead lead to push the metallicon electrode, and in this respect, the connection between the lead lead and the metallicon electrode is stable and preferable.

  The slit according to the present invention is a gap provided in a folded portion of the extraction lead, and is a gap long in the longitudinal direction of the extraction lead. The width of the slit is about 0.2 mm to 2 mm. If the slit is narrow, the gap is liable to contact during deformation, and if it is wide, the current is likely to be limited. One or more slits are provided. As the number increases, the followability to lateral deformation improves. However, as the number increases, the cross-sectional area of the electrode decreases, so that the flowing current tends to be limited.

Hereinafter, the present invention will be described based on embodiments shown in the drawings.
FIG. 1 schematically shows a cross-sectional view of a film capacitor according to the present invention.
One capacitor element 2 is accommodated in a case 1 having an opening on one end face, and the opening is sealed with a sealing body 3.
The capacitor element 2 is provided with metallicon electrodes 4 on both end faces of the winding, so that one metallicon electrode 4 is on the opening side of the case 1 and the other metallicon electrode 4 is on the inner bottom side of the case 1. It is stored in the case 1.
The lead 5 is a strip-shaped deformable metal foil or thin plate, and electrically connects the external terminal 6 provided on the sealing body 3 and the metallicon electrode 4. An insulating spacer 7 is provided between the lead lead 5 connected to the metallicon electrode 4 on the inner bottom side of the case 1 so as not to contact the metallicon electrode 4 on the opening side of the case 1. Further, the lead lead 5 connected to the metallicon electrode 4 on the opening side of the case 1 is provided with a folded portion 5a that is folded back in the longitudinal direction. This folding is performed at three places, and as a whole, it is spelled. If the folded portion is spring-like and is deformed in a state where the folded portion 5a is slightly compressed after assembly as a capacitor, the connection between the external terminal 6 and the lead lead 5, particularly the metallicon electrode 4 and the lead lead 5 The connection is in a compressed state and the connection is stable, which is preferable.
Further, the insulating resin 9 is injected into the case 1 from the injection hole 8 provided in the sealing body 3 and solidified.
The insulating resin 9 is an insulating filler for a capacitor, which can be generally used for filling a film capacitor, and is obtained by mixing a filler or the like with a resin such as an epoxy resin or a urethane resin. As the filler, hydroxides such as silicon, titanium, aluminum, calcium, zirconium, and magnesium, oxides, carbides, nitrides, and composites thereof can be used. If necessary, a flame retardant and an antioxidant may be added.
In particular, when a large current is handled, the capacitor element 1 is enlarged, so that the difference in thermal expansion between the materials becomes larger due to the temperature of use, so that the insulating resin 9 is a softer urethane resin or epoxy-modified urethane than the epoxy resin. Resins are preferred.

FIG. 2 schematically shows a cross-sectional view of another example of the film capacitor according to the present invention.
The difference from FIG. 1 is that the lead-out lead 5 connected to the metallicon electrode 4 on the inner bottom side of the case 1 is provided with a folded portion 5a that folds in the longitudinal direction in the vicinity of the connection with the metallicon electrode 4, thereby the connection stress can light lessen Rukoto in connection between the metallikon electrode 4 and the lead-out lead 5 connected therewith.

FIG. 3 schematically shows a cross-sectional view of another example of the film capacitor according to the present invention.
Two capacitor elements 2 are housed in a case 1 having an opening on one end face, and the opening is sealed with a sealing body 3.
The two capacitor elements 2 are connected in parallel and are vertically stacked in the direction between the metallicon electrodes 4. Thereby, the inside and outside of the metallicon electrode 4 are connected to the external terminal 6 as the same pole.
In particular, the lead 5 connected to the metallicon electrode 4 on the opening side of the case 1 is provided with a folded portion 5a that is folded back in the longitudinal direction.
The lead lead 5 connected to the metallicon electrode 4 on the opening side of the case 1 and the lead lead 5 connected to the metallicon electrode 4 on the inner bottom side of the case 1 are parts connected to the external terminals 6 from the opposite directions to the outside. The terminal 6 is connected. This is preferable because the current is less likely to concentrate. In addition, it is preferable that the two lead leads 5 are integrated, from the viewpoint that it is not necessary to separately connect the external terminals 6 and the number of parts.

FIG. 4 schematically shows a cross-sectional view of another example of the film capacitor according to the present invention.
3 is different from FIG. 3 in that the lead 5 connected to the metallicon electrode 4 on the inner bottom side of the case 1 is provided with a folded portion 5a that is folded back in the longitudinal direction in the vicinity of the connection with the metallicon electrode 4. the connection stress at the connection between the outgoing lead 5 to be connected to the metallikon electrode 4 of the inner bottom side of the case 1 and it can light lessen Rukoto.
Further, in the lead lead 5 having the same inside of the metallicon electrode 4, a folded portion 5 a that is folded back in the longitudinal direction is provided in the vicinity of the connection with the external terminal 6. at the same connection stress can Rukoto light lessen the connection between the outgoing lead 5 to be connected.

FIG. 5 schematically shows a perspective view of another example of the lead portion of the film capacitor according to the present invention.
Of the lead leads 5, the lead leads 5 are connected to the metallicon electrodes on the opening side of the case and the external terminals 6, and the folding back of the lead leads 5 indicates zigzag folding. A slit 10 is provided in the longitudinal direction of the lead 5 at the folded portion.

DESCRIPTION OF SYMBOLS 1 ... Case, 2 ... Capacitor element, 3 ... Sealing body, 4 ... Metallicon electrode, 5 ... Lead-out lead, 5a ... Fold-up part, 6 ... External terminal, 7 ... Spacer, 8 ... Injection hole , 9 ... Insulating resin 10 ... Slit

Claims (4)

A capacitor element in which a dielectric film is used and laminated with an electrode and wound, and a metallicon electrode is provided on both end faces, a bottomed cylindrical case having an opening on one end face for accommodating the capacitor element, A film capacitor having a sealing body for sealing an opening, an external electrode provided on the sealing body, and a lead for connecting between the external electrode and the metallicon electrode, the direction between the metallicon electrodes being The extraction lead that houses the capacitor element in the case so as to be in the depth direction of the case and is connected to at least the metallicon electrode on the opening side of the case among the extraction leads is folded back in the longitudinal direction. have a folded Kaee partially, in the folded Kaee partially, the film co characterized in that the slits are provided in the longitudinal direction Capacitors.   Two capacitor elements are stacked, electrically connected in parallel and housed in the case, and the lead leads connected to the metallicon electrodes on the opposite side of the capacitor elements are external electrodes. The film capacitor according to claim 1, wherein the film capacitor is connected.   3. The film capacitor according to claim 1, wherein the folded portion is a zigzag fold.   4. The film capacitor according to claim 1, wherein the folded portion has a spring shape.

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