KR100688467B1 - Lead frame for solid state electrolytic capacitor - Google Patents

Abstract

A lead frame for a solid state electrolytic capacitor is provided to prevent the lead frame from being easily broken by an external impact or a weight by laminating a plurality of condenser elements by forming a connection unit having first and second connection guides. In a lead frame for a solid state electrolytic capacitor, an anode lead frame(22) and a cathode lead frame(32), on which a plurality of condenser elements is laminated, are provided. Receiving units(40a,40b) are formed on an extended end portion of the anode and cathode lead frames(22,32) having the same width as the condenser element. A connection unit(50) is curved to vertically face the receiving units(40a,40b) from one or the other side of the receiving units. The connection unit(50) is formed on any one of the receiving units(40a,40b) as one body. The receiving units(40a,40b) includes a first connection guide(52) curved vertically upward at an edge of the one side or the other side of the receiving units(40a,40b) and a second connection guide(54) curved vertically downward at a central part of the one side or the other side of the receiving units(40a,40b).

Description

Lead frame for solid capacitors {LEAD FRAME FOR SOLID STATE ELECTROLYTIC CAPACITOR}

1 is a cross-sectional view showing a solid capacitor according to the present invention;

FIG. 2 is a perspective view of the positive lead frame and the negative lead frame shown in FIG. 1; and

FIG. 3 is a diagram illustrating another embodiment of the connecting unit shown in FIG. 2.

Explanation of symbols on the main parts of the drawing

10 solid capacitor 14 capacitor element

22: anode lead frame 32: cathode lead frame

40a, 40b: Settlement part 50: Connection part

52: first connection guide 54: second connection guide

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lead frame for a solid capacitor, and more particularly, to a lead frame for a solid capacitor having a strong structure that can be stacked correctly on a plurality of capacitor elements and is not easily damaged by external impact or load.

In general, a solid capacitor uses an organic material such as a conductive polymer or an inorganic material such as a metal oxide as a solid electrolyte, and is typically formed in a stacked type on a lead frame to realize a high capacity. The solid capacitor is formed by stacking a plurality of thin plate-like capacitor elements, one end of which is formed with an anode and the other end with a cathode. Multiple capacitors are stacked to form a solid capacitor.

However, in the conventional solid capacitor, since a plurality of capacitor elements are not stacked on the lead frame in the same way, a step is formed at both sides of the anode part, so that a stress concentration occurs at the edge portion. As a result, the solid capacitor was vulnerable to impact and load in the lateral and vertical directions, and cracks occurred.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is a solid capacitor lead having a strong structure that can be laminated not only a large number of capacitor elements correctly but also easily damaged by external impact or load To provide a frame.

In order to achieve the object of the present invention as described above, the present invention,
In the solid capacitor having a positive lead frame and a negative lead frame on which a plurality of capacitor elements are stacked,

On the extended end of the positive lead frame and the negative lead frame, a settling portion having the same width as that of the condenser element is formed integrally, and one settling portion is bent so as to face the settling portion vertically at one side and the other side of the settling capacitor. Connection parts for properly stacking elements are integrally formed, and the connection parts include a first connection guide bent vertically upward from one corner portion and the other corner portion of the settled portion, and a first bent vertically downward from one side portion and the other center portion of the settled portion. Provided is a lead frame for a solid capacitor having two connection guides.

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As described above, the lead frame for a solid capacitor according to the present invention may not only be laminated with a plurality of capacitor elements correctly but also may not be easily damaged by external impact or load.

Hereinafter, a lead frame for a solid capacitor according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a solid capacitor according to the present invention.

Referring to FIG. 1, the solid capacitor 10 is formed by stacking a plurality of capacitor elements 14. An anode portion 20 is formed at one end of the capacitor element 12, and the anode portion 20 is formed. ) Is coupled to the anode lead frame 22 to form the anode terminal portion 24. In addition, a negative electrode portion 30 is formed at the other end of the condenser element 14, and a negative electrode lead frame 32 is coupled to the negative electrode portion 30 to form a negative electrode terminal portion 34. At this time, the capacitor element 14 is stacked on the positive lead frame 22 and the negative lead frame 32.

FIG. 2 is a perspective view illustrating the positive lead frame and the negative lead frame shown in FIG. 1. As shown, plate-shaped settled portions 40a and 40b having the same width as that of the condenser element 14 are provided at the extension ends of the anode lead frame 22 and the cathode lead frame 32 on which the capacitor elements 14 are stacked. ) Are each formed integrally. One of the settled portions 40a and 40b is vertically bent from one side and the other side of the settled portions 40a and 40b to the opposite sides with respect to the settled portions 40a and 40b and stacked on the lead frames 22 and 32. The connecting portion 50 for properly stacking the capacitor elements 14 is integrally formed.

In FIG. 2, the connecting portion 50 is formed only in the settled portion 40a formed in the anode lead frame 22, but as anyone can see, the connecting portion 50 may also be formed in the settled portion 40b formed in the cathode lead frame 32. Can be.

The connecting portion 50 is bent vertically upward at the corner portions at one side and the other side of the settlement portion 40a, and bent vertically downward at the central portion at one side and the other side of the settlement portion 40a. And the second connection guide 54 is provided.

At this time, the second connection guide 54 has a width larger than the width of each first connection guide 52. That is, the first connection guide 52 uniformly stacks the capacitor elements 14 stacked on the anode lead frame 22 and the cathode lead frame 32, and the second connection guide 54 is the anode lead. The condenser elements 14 stacked below the frame 22 and the cathode lead frame 32 are uniformly stacked.

FIG. 3 is a diagram illustrating another embodiment of the connecting unit shown in FIG. 2. Referring to FIG. 3, the connection part 50 is integrally bent vertically with respect to the settling portion 40 on one side and the other side of the settling portion 40a as in FIG. 2. The connection part 50 is bent to face each other at one side and the other center portion of the settlement portion 40a and the first connection guide 52 bent to the side facing each other at one side and the other edge portion of the settlement portion 40a. The second connection guide 54 is provided.

At this time, the first connection guide 52 and the second connection guide 54 formed on one side of the settlement portion 40a are bent to face each other, and similarly, another first formed on the other side of the settlement portion 40a. The connection guide 52 and the other second connection guide 54 are bent to face each other. Preferably, the second connection guide 54 has a width larger than the width of each first connection guide 52.

The first connecting guide 52 and the second connecting guide 54 are vertically bent up and down with respect to the settling portion 40a to the settled portion 40a formed as described above, so that the positive lead frame 22 and the negative lead The condenser elements 14 stacked on the frame 32 can be stacked correctly.

As described above, the lead frame for a solid capacitor according to the present invention includes a first connecting guide and a second bent vertically bent to the side facing each other up and down one of the settled portion formed in the positive lead frame and the negative lead frame. By forming a connection portion having a connection guide, a large number of capacitor elements can be stacked correctly, and there is an advantage in that it is not easily damaged by external impact or load.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims. You will understand.

Claims (3)

In the solid capacitor having a positive lead frame and a negative lead frame on which a plurality of capacitor elements are stacked, An extension part having the same width as that of the condenser element is integrally formed at each of the extension ends of the anode lead frame and the cathode lead frame, and one of the settled parts is provided on one and the other of the settled parts with respect to the settled part. The connection part is bent so as to face vertically to form a proper stacking of the condenser element, the connection part is a first connection guide bent vertically upward from one side and the other corner of the settled portion, and one side and the other side of the settled portion And a second connection guide bent vertically downward from the center portion. delete In the solid capacitor having a positive lead frame and a negative lead frame on which a plurality of capacitor elements are stacked, An extension part having the same width as that of the condenser element is integrally formed at each of the extension ends of the anode lead frame and the cathode lead frame, and one of the settled parts is provided on one and the other of the settled parts with respect to the settled part. The connecting portion is bent so as to face vertically and integrally formed to connect the condenser elements correctly, wherein the connecting portion has a first connection guide vertically bent from one side and the other edge portion of the settled portion to the opposite side, and one side and the other side of the settled portion. The first connection guide and the second connection guide formed on one side of the settled portion and the second connection guide are bent to the opposite side to each other, having a second connection guide vertically bent to the side facing each other at the center portion, similarly, Another first connecting guide formed on the other side of the negative, The second connecting guide is bent to the side facing each other, the lead frame for a solid capacitor.

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