KR101493908B1 - Fuse for using built-in type high power capacitor - Google Patents

Abstract

The present invention relates to a fuse applied to a fuse built-in type power capacitor of which one side and the other side have a fuse bending unit, respectively, to be bonded to a capacitor element or a connection plate easily. The present invention includes: a fuse wire which is fused when an overcurrent enters; a first fuse connection plate which is connected to one side of the fuse wire and adheres to the upper side of an insulation box for covering the capacitor element; a second fuse connection plate which is connected to the other side of the fuse wire to be separated from the first fuse connection plate and adheres to the upper side of the insulation box to cover the capacitor element; a first fuse bending unit which extends from the end of one side of the first fuse connection plate and of which the other side is fused to the connection plate; and a second fuse bending unit which extends from the end of the other side of the second fuse connection plate, is bonded and connected to the bending unit by being inserted into the bending unit of the capacitor element.

Description

The present invention relates to a fuse for a built-in power capacitor,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fuse applied to a power condenser with a built-in fuse, and more particularly, to a fuse applied to a power capacitor with a built-in fuse having fuse bending portions formed on one side and the other side, respectively, to facilitate connection to a capacitor element or a connection plate.

The power capacitor is formed by stacking a plurality of capacitor elements, and has a self-healing (SH) capacitor and a non-self-healing (NH) capacitor. The SH capacitor has self-recovery ability to recover the insulation function due to evaporation of the electrode film when there is a local defect in the dielectric of the capacitor element. The NH capacitor has no recovery function but is widely used as a power capacitor . A plurality of power capacitors used as the NH capacitors constitute one capacitor bank system. One capacitor bank system has a plurality of power capacitors connected in series and in parallel for power factor improvement and capacity increase .

The capacity of the capacitor bank system is determined by the number of power capacitors and the method of connection. If a failure occurs in the power capacitor due to the internal temperature rise of the power capacitor in the capacitor bank system, a plurality of capacitor devices A fuse is used to isolate a capacitor element causing a failure among the remaining capacitor elements from an electrical connection. A power capacitor in which such a fuse is used is called a built-in fuse-built capacitor.

Korean Patent Publication No. 1075883 (Patent Document 1) relates to a conventional power condenser with a built-in fuse, in which a fuse is inserted between an extension foil of a capacitor element and an electrode member to connect the extension foil and the electrode member, So that when the overcurrent flows into the condenser element, it fuses to separate the extension foil from the electrode member. The fuse operated to blow out when the overcurrent enters is composed of a first fuse connecting member, a second fuse connecting member, and a fuse operating member. The first fuse connecting member is installed to wrap around the insulating paper and is connected to the extension foil. The second fuse connecting member is connected to the electrode member. The fuse operating member is connected between the first fuse connecting member and the second fuse connecting member, When the overcurrent flows into the device, it is fused so that the extension foil is separated from the electrode member.

The conventional fuse of the power condenser with built-in fuse such as Patent Document 1 is arranged so that one side thereof protrudes from the insulating paper arranged to surround the fuse and is arranged to be orthogonal to the electrode member so that the fuse and the electrode member are connected by hand using solderring The productivity of the connection work is lowered, and there is a problem that the connection state may be defective depending on the skill of the operator.

Patent Document 1: Korean Patent No. 1075883 (Registered on October 17, 2011)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fuse applied to a power condenser with a built-in fuse in which a fuse bend portion is formed on one side and the other side, respectively, so as to facilitate connection to a capacitor element or a connection plate.

Another object of the present invention is to provide a fuse built-in type power capacitor which can be fused to a capacitor element or a connection plate by using a bonding equipment by forming a fuse bending portion on one side and the other side, respectively, so as to facilitate connection to a capacitor element or a connection plate The fuse being provided.

It is still another object of the present invention to provide a fuse-embedded type power supply device capable of automating a bonding operation to a capacitor element or a connection plate by connecting a fuse to a capacitor element or a connection plate using a bonding device, And a fuse applied to the capacitor.

According to the present invention, a fuse applied to a power capacitor with a built-in fuse includes a fuse wire fused when an overcurrent flows therein; A first fuse connecting plate connected to one side of the fuse wire and adhered to an upper portion of an insulating box surrounding the capacitor device; A second fuse connecting plate connected to the other side of the fuse wire so as to be spaced apart from the first fuse connecting plate and bonded to an upper portion of the insulating box surrounding the capacitor device; A first fuse bending portion extending from one end of the first fuse connecting plate and fused with a wiring plate on the other side; And a second fuse bent portion formed to extend from the other end of the second fuse connecting plate and inserted inside the bent portion of the capacitor element and joined to the bent portion by fusion welding.

A fuse applied to a power capacitor of a built-in type with a fuse may have a fuse bent portion formed on one side and the other side of the fuse for facilitating connection to a capacitor element or a connection plate, so that a fuse can be connected to a capacitor element or a connection plate And the fuse can be connected to the capacitor element or the connection plate by using the bonding equipment, so that it is possible to automate the bonding operation to the capacitor element or the connection plate, thereby improving the reliability and productivity of the product.

FIG. 1 is a perspective view of a fuse applied to a power condenser with built-in fuse of the present invention,
Fig. 2 is an exploded view of the fuse shown in Fig. 1,
Fig. 3 is a perspective view showing another embodiment of the fuse shown in Fig. 1,
4 is a perspective view showing still another embodiment of the fuse shown in FIG. 1,
FIG. 5 is a perspective view of a fuse-embedded power capacitor to which the fuse shown in FIG. 1 is applied; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a fuse applied to a power condenser with built-in fuse of the present invention will be described with reference to the accompanying drawings.

1, a fuse 10 applied to a fuse-embedded power capacitor 20 (shown in FIG. 5) of the present invention includes a fuse wire 11, a first fuse connecting plate 12, (13), a first fuse bend (14) and a second fuse bend (15).

The fuse wire 11 is made of thin wires and melted when the overcurrent flows therein to cut off the current flowing between the first fuse connecting plate 12 and the second fuse connecting plate 13. The first fuse connecting plate 12, Is connected to one side of the fuse wire 11 so as to be adhered and fixed to the upper part of the insulating box 22 surrounding the capacitor element 21 by using an adhesive. The second fuse connecting plate 13 is connected to the other side of the fuse wire 11 so as to be spaced apart from the first fuse connecting plate 12 to form an insulating box 22 (Not shown in the drawing). The first fuse bending portion 14 is formed to extend from one end of the first fuse connecting plate 12 and the connection plate 23 is fused to the other side. The second fuse bending portion 15 is formed to extend to the other end of the second fuse connecting plate 13 and is inserted inside the bent portion 21a (shown in Fig. 5) of the capacitor element 21, And are connected to each other by fusion bonding.

The fuse 10 applied to the fuse-embedded power capacitor 20 of the present invention having the above-described structure will be described in more detail.

The fuse wire 11 is of a rectangular or circular shape in cross section as shown in Figs. 1, 3 and 4, and is composed of an integral fuse wire 11, a soldering type fuse wire 11a, Type fuse wires 11b are selected and used.

As shown in FIG. 1, the integrated fuse wire 11 has a rectangular cross section 1a, and one end or the other end of the integrated fuse wire 11 is connected to the other end of the first fuse connecting plate 12, (13). That is, the integral fuse wire 11 is formed on a copper-made panel (not shown) as a developed view of the integrated fuse wire 11 shown in FIG. 2 by using a press, and bent along the dashed line shown in the developed view Thereby manufacturing an integral fuse wire 11. [

When the fuse wire 11, the first fuse connecting plate 12 and the second fuse connecting plate 13 are formed integrally with each other like the integral fuse wire 11, the fuse wire 11 is connected to the first fuse connecting plate 12, The connection between the first fuse 12 and the second fuse connection plate 13 is lost and the fuse 10 is connected to the bent portion 21a of the capacitor element 21 and the connection plate 23 5) is shortened to improve the productivity of the fuse-built power capacitor 20.

The soldering type fuse wire 11a is formed in a circular shape in cross section as shown in FIG. 3, and one side and the other side are located on the upper surface of the first fuse connecting plate 12 and the second fuse connecting plate 13, respectively And is connected to the first fuse connecting plate 12 and the second fuse connecting plate 13 by soldering. When a soldering type fuse wire 11 is connected to the first fuse connecting plate 12 and the second fuse connecting plate 13, a part of one side or the other side of the soldering type fuse wire 11 is connected to the first fuse connecting plate 12, The soldering member 2 is formed by soldering while being aligned on the upper surface of the first fuse connecting plate 13 and the upper surface of the second fuse connecting plate 13 so that the soldering type fuse wire 11 is connected to the first fuse connecting plate 12 and the second fuse connecting plate 13).

The junction type fuse wire 11b is composed of an intermediate fuse wire 3a, a first fuse connecting block 3b and a second fuse connecting block 3c as shown in Fig.

The intermediate fuse wire 3a has a circular cross section 1c and is fused when the overcurrent flows therein to cut off the current flowing between the first fuse connecting block 3b and the second fuse connecting block 3c. The first fuse connection block 3b is formed in a rectangular shape in section so as to extend from one end of the intermediate fuse wire 3a and is located on the upper surface of the first fuse connection plate 12, and is connected to the first fuse connecting plate 12 by spot welding. The second fuse connection block 3c is formed in a rectangular shape in cross section so as to extend from the other end of the intermediate fuse wire 3a and is located on the upper surface of the second fuse connection plate 13, Is connected to the first fuse connecting plate (12).

The first fuse connecting plate 12 and the second fuse connecting plate 13 are formed such that one end of each of the first fuse connecting plate 12 and the second fuse connecting plate 13 has a curved line 2a. Edge current can be prevented by forming the first fuse connecting plate 12 and the second fuse connecting plate 13 so that one end or the other end of the second fuse connecting plate 13 has a curved line 2a, So that the current can be cut off. That is, when one end or the other end of the first fuse connecting plate 12 and the second fuse connecting plate 13 is formed to have an angle like a quadrangle, when the overcurrent is generated, the current is pushed to the edge and then the fuse wire 11 The damage of the fuse-built-in power capacitor 20, which may be generated by melting the power capacitor 20, can be reduced.

The first fuse bending portion 14 is positioned at one side of the capacitor element 21 in a direction perpendicular to the first fuse bending portion 14 in a state of being separated from the second fuse bending portion 15 as shown in Fig. And is constituted by a first one-side bending connection plate 14a and a second one-side bending connection plate 14b.

The first bending connecting plate 14a is formed to extend from one end of the first fuse connecting plate 12 and is bent to bend toward the lower side of the first fuse connecting plate 12. [ The first one side bending connection plate 14a is connected to the insulation plate 23 so that the second one side bending connection plate 14b can be easily connected to the connection plate 23 using a bonding equipment (not shown) (22).

The second one-side bending connection plate 14b is formed to extend from one end of the first bending connection plate 14a perpendicular to one end of the first fuse connection plate 12, 14a, and the connection plate 23 is welded to and bonded to the other surface of the connection plate 23 so as to be connected to the connection plate 23. In other words, the second one-side bending connection plate 14b is formed so as to extend from one end of the first bending connection plate 14a in the direction perpendicular to the first fuse connection plate 12, And is integrally formed at one end of the connecting plate 14a.

The second one side bending connection plate 14b is extended from one end of the first one side bending connection plate 14a in a state in which the second one side bending connection plate 14b is formed integrally with the first one side bending connection plate 14a And is disposed so as to face the first bending connection plate 14a. On the surface opposite to the first bending connection plate 14a, that is, on the other side, the connection plate 23 is provided with an ultrasonic wave Welded and connected. Ultrasonic fusion bonding with the connection plate 23 is performed by using a bonding equipment. The first one-side bending connection plate 14a and the connection plate 23 are bonded to each other by ultrasonic welding using ultrasonic welding, And are connected to each other by an ultrasonic fused portion 23a.

The second fuse bending portion 15 is arranged such that the first fuse bending portion 14 and the first fuse bending portion 14 are arranged in the longitudinal direction of the insulation box 22, And is configured to be aligned with the insulating box 22 so as to be orthogonal to the first horizontal bending connection plate 15a and the second horizontal bending connection plate 15b.

The other horizontal connecting plate 15a extends from the other end of the second fuse connecting plate 13 and is formed so as to be in parallel with the second fuse connecting plate 13 so that the other end of the other horizontal connecting plate 15a, 15b are arranged so as to be aligned with the other end of the insulation box 22.

The first other-side bending connection plate 15b is formed to extend from the other end of the other-side horizontal connection plate 15a and is bent so as to face the lower side of the other-side horizontal connection plate 15a. The first other-side bending connection plate 15b is bent in a state where the bent portion 21a (shown in Fig. 5) of the condenser element 21 is bent, so that the inside is bent obliquely And is bent so as to be inclined along the inclination of the inside of the bent portion 21a of the capacitor element 21. [

The second other bending connection plate 15c is formed to extend from the first other bending connection plate 15b and faces the upper portion of the other horizontal connection plate 15a so as to face the first other bending connection plate 15b And bent and connected to the bent portion 21a (shown in Fig. 5) of the capacitor element 21 by ultrasonic welding using a bonding equipment. The second other bending connection plate 15c which is welded to and connected to the bent portion 21a of the capacitor element 21 is bent at the bent portion 21a of the capacitor element 21 to fuse the bent portion 21a of the capacitor element 21 21a in a state in which they are parallel to each other. The second bending connection plate 15c and the bent portion 21a of the condenser element 21 are arranged to be in contact with each other so as to be parallel to each other and then ultrasonically fused and connected to each other by the ultrasonic fused portion 21a shown in Fig. The bending portion 21a of the element 21 is bent in the state shown in Figure 1 to assemble the second other bending connection plate 15c to complete the assembly of the fuse 10 to the capacitor element 21. [

The fuse wire 11 and the first fuse connecting plate 12 and the second fuse connecting plate 13 and the first fuse connecting plate 12 and the second fuse connecting plate 13 are fused to the overcurrent so as to protect the fuse- The material of the portion 14 and the second fuse bend portion 15 is made of a metal material such as copper.

The operation of the fuse 10 applied to the fuse-built-in type power capacitor 20 of the present invention having the above-described configuration will now be described.

5, the fuse-embedded power capacitor 20 to which the fuse 10 of the present invention is applied uses the wiring band 26 in a state in which a plurality of capacitor elements 21 accommodated in the insulation box 22 are stacked, Thereby fixing the laminated state. The fuse 10 is connected to the capacitor element 21 before the capacitor element 21 is laminated. The second fuse bending portion 15 of the fuse 10 is connected to the bending portion 21a of the capacitor element 21 by ultrasonic welding in the state shown in Fig. 1 in order to connect the fuse 10 to the capacitor element 21. [ To connect them.

When the second fuse bending portion 15 of the fuse 10 is connected to the bent portion 21a of the capacitor element 21, the capacitor element 21 is covered to cover the insulating box 22, 1 as shown in Fig. When the fuse 10 is arranged in the state shown in Fig. 1, the first fuse bent portion 14 is ultrasonically fused to the connection plate 23 to connect and connect them. The connection plate 23 is connected to the external terminal 25 by the auxiliary connection plate 24 in a state of being connected to the fuse 10 or connected to the bent portion 21a of the capacitor element 21. [

When the fuse 10 is connected to the bent portion 21a of the capacitor element 21 and the connection plate 23 by ultrasonic welding, the fuse 10 is connected and a plurality of capacitor elements 21 ) Are stacked, and then they are fixed to each other using the connection band 26 so that the stacked state is not disturbed. When a plurality of capacitor elements 21 are fixed in a stacked state using the connection band 26, a plurality of capacitor elements 21 in a stacked state are housed in the outer case 27 to form the fuse- The assembly is completed.

The assembled fuse-built type power capacitor 20 may cause an overcurrent due to malfunction of the capacitor element 21 due to overheating or the like during use. If a large number of capacitor elements 21 are malfunctioned to generate an overcurrent, 10 are fused by the overcurrent. When the fuse wire 11 is fused by an overcurrent, the capacitor element 21 connected to the fuse 10 in which the fuse wire 11 is fused is disconnected from the remaining capacitors 21 which are normally operated, The power capacitor 20 is protected. The electrical connections of the plurality of condenser elements 21 stacked on the power condenser 20 with a built-in fuse are electrically connected in series or in parallel with each other by the connection plate 23 connected to the fuse 10 or the condenser element 21. [ .

As described above, according to the present invention, a fuse applied to a capacitor for a fuse-embedded type power supply has a fuse bent portion formed on one side and the other side to facilitate connection to a capacitor element or a connection plate, And by connecting the fuse to the capacitor element or the connection plate by using the bonding equipment, it is possible to automate the bonding operation to the capacitor element or the connection plate, thereby improving the product reliability and productivity.

The fuse applied to the fuse-embedded power capacitor of the present invention can be applied to the field of power capacitor manufacturing and the field of power factor improvement of transmission line for high-voltage power.

10: fuse 11: fuse wire
12: first fuse connecting plate 13: second fuse connecting plate
14: first fuse bent portion 14a: first bending connecting plate
14b: second one-side bent connection plate 15: second fuse bent portion
15a: the other horizontal connecting plate 15b: the first other-side bending connecting plate
15c: second other-side bending connection plate 20: fuse built-in type power condenser
21: Capacitor element 22: Insulation box
23: connection plate 24: auxiliary connection plate
25: External terminal 26: Connection band
27: outer case

Claims (9)

A fuse wire fused when an overcurrent flows;
A first fuse connecting plate connected to one side of the fuse wire and adhered to an upper portion of an insulating box surrounding the capacitor device;
A second fuse connecting plate connected to the other side of the fuse wire so as to be spaced apart from the first fuse connecting plate and bonded to an upper portion of the insulating box surrounding the capacitor device;
A first fuse bending portion extending from one end of the first fuse connecting plate and fused with a wiring plate on the other side;
And a second fuse bending portion formed to extend from the other end of the second fuse connecting plate and inserted into the bending portion of the capacitor element to be connected to the bending portion by fusion bonding. Applied fuse. The fuse-embedded power capacitor according to claim 1, wherein the fuse wire has a square or circular cross-section, and at least one of an integrated fuse wire, a soldered fuse wire, and a junction fuse wire is selected and used Applied fuse. The integrated fuse wire according to claim 2, wherein the integrated fuse wire has a rectangular cross section, and one end or the other end of the integrally formed fuse wire is connected to the other end of the first fuse connecting plate or the other end of the second fuse connecting plate And the fuse is applied to the power condenser with built-in fuse. The soldering type fuse wire according to claim 2, wherein the soldering type fuse wire has a circular cross section, one side and the other side being located on the upper surface of the first fuse connecting plate and the second fuse connecting plate, respectively, Wherein the fuse is connected to the second fuse connecting plate. 3. The method of claim 2, wherein the junction fuse wire comprises: an intermediate fuse wire having a circular cross section;
And a first fuse connected to the first fuse connecting plate by ultrasonic welding or spot welding, the first fuse connecting plate being formed on the upper surface of the first fuse connecting plate so as to extend from one end of the intermediate fuse wire, A connection block;
And a second fuse connecting block connected to the first fuse connecting plate by ultrasonic welding or spot welding, the second fuse connecting block being formed on the upper surface of the second fuse connecting plate so as to extend from the other end of the intermediate fuse wire, And the fuse is applied to the power condenser with built-in fuse. The fuse according to claim 1, wherein the first fuse connecting plate and the second fuse connecting plate are formed so that one end or the other end has a curved line. [2] The apparatus according to claim 1, wherein the first bent portion of the first fuse is formed to extend from one end of the first fuse connecting plate and is bent toward the lower portion of the first fuse connecting plate;
Wherein the first fuse connecting plate is formed to extend from one end of the first bending connecting plate perpendicular to the first end of the first fuse connecting plate and bent to face the first bending connecting plate, And a second bending connection plate for connecting the fuse. [2] The apparatus according to claim 1, wherein the second fuse bent portion includes: a second horizontal connecting plate extending from the other end of the second fuse connecting plate and formed to be parallel to the second fuse connecting plate;
A first other-side bending connection plate formed to extend from the other end of the other-side horizontal connection plate and bent toward the lower side of the other-side horizontal connection plate;
A second bending connection part formed to extend from the first other-side bending connection plate and bent toward the upper part of the other-side horizontal connection plate so as to face the first other-side bending connection plate, Wherein the fuse includes a plurality of fuses. 2. The power supply unit according to claim 1, wherein the fuse wire, the first fuse connecting plate, the second fuse connecting plate, the first fuse bent portion, and the second fuse bent portion are made of copper, Fuses applied to capacitors.

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