KR100676975B1 - Styem riveting and Integrity of electrolytic cender - Google Patents

Abstract

The riveting and resonating apparatus of the insulating capacitor according to the present invention may roll a thin sheet of aluminum and paper into a roll to insert a pair of leads 14 into the wound portion, but rivet the lead 14 partially exposed to the outside. And in the riveting and resonating device to perform the resonance at the same time, V guide 112 is formed on both sides at a predetermined interval to set the mounting guide 111, the setting guide part 110, the setting guide part 110 The drive unit 120 and the base plate 122 to the cylinder rod in the vertical upper side and coupled to the cylinder rod to move up and down, and the base plate 122 of the drive unit 120 The upper resonance jig 131 is coupled to the upper resonance jig 131 vertically downwardly coupled to the resonance pins 131a at an interval equal to the width of the lead 14 of the pair of impregnated dielectrics 12 and the upper resonance jig 131. In the corresponding lower part of the dielectric (1 2) a resonance part 130 having a lower resonance jig 132 having a mounting recess 132a formed thereon so as to seat the pair of leads 14, and the impregnated dielectric material 12 through the resonance part 130; The upper rivet jig 141 coupled with the pressing block 141a vertically downward on the lower surface of the base plate 122 of the driving unit 120 to be riveted to the lead 14 cut by the resonance unit 130 of the ) Is coupled to the upper resonance jig 131 side and consists of a riveting unit 140 is provided with a lower rivet jig 142 set rivet 24 and washer 22 in the lower portion corresponding thereto.

Description

Riveting and resonance apparatus for electrolytic capacitors {styem riveting and Integrity of electrolytic cender}             

1 is an exploded perspective view showing a typical electrolytic capacitor.

Figure 2 is a front view showing the riveting and resonating device of the electrolytic capacitor of the present invention.

Figure 3 is a left side view showing the riveting device of the electrolytic capacitor of the present invention.

Figure 4 is a right side view showing the resonance device of the electrolytic capacitor of the present invention.

Figure 5 is a front view showing the setting guide portion of the riveting and resonating device of the electrolytic capacitor of the present invention.

Explanation of symbols on the main parts of the drawings

10 case 12 impregnated dielectric

14 lead 16 rivet hole

18: terminal plate 20: lug terminal

22: washer 24: rivet

26: heat shrink tube 100: riveting and resonance fixture

110: setting guide portion 111: mounting block

112: V groove 120: drive unit

121: cylinder 122: base plate

130: resonance unit 131: upper resonance jig

131a: resonance pin 132: lower resonance jig

132a: seating groove 140: riveting parts

141: upper rivet jig 141a: crimp block

142: lower rivet jig

The present invention relates to a lug type electrolytic capacitor assembling apparatus, and in particular, a lug type electrolytic capacitor assembling apparatus for automating the lug type electrolytic capacitor assembling process by allowing the lug type electrolytic capacitor assembly process of several processes to be performed at the same place. It is about.

In general, a lot of capacitors are used in various electronic products. The capacitor has a charging function and a rectifying function. There are various types of capacitors depending on the purpose. Among them, the present invention is a device related to a lug type electrolytic capacitor.

An electrolytic capacitor is a capacitor that makes an oxide film by electrolytic action on a high-purity aluminum surface and uses it as a dielectric. The oxide film is very thin and small, making it suitable for making large-capacity capacitors, but since the insulating material is small, breakdown or leakage occurs. Thus, a paper penetrated with an electrolyte solution or electrolyte paste is sandwiched between them for the purpose of separating the electrodes.

If the side where the oxide film is attached is positive, no current flows, but if it is reversed, a large current may flow and cause damage. For this reason, there is a distinction between plus and minus in the lead wire and the polarity is a big feature of the electrolytic capacitor.

However, there are some nonpolar capacitors which connect two electrolytic capacitors in reverse polarity because they may be used in alternating current. These electrolytic capacitors are small and have a large capacity, so they are indispensable in the coupling between filters and stages of power circuits. At present, many aluminum electrolytic capacitors are used.

1 is an exploded perspective view showing a general lug type electrolytic capacitor. 1 illustrates a case 10. This case is made of aluminum (Al). This case 10 has a substantially cylindrical shape. Above the case 10, an impregnated dielectric 12 is shown. The impregnated dielectric material 12 is formed by rolling a thin sheet of aluminum and paper in the form of a roll. The impregnation dielectric 12 protrudes as shown in the lead 14. Rivet holes 16 are formed in the leads 14.

The terminal plate 18 is shown in FIG. The terminal plate 18 is a portion that blocks the inlet of the case 10 while the impregnated dielectric 12 is inserted into the case 10. The lug terminal 20 is shown in front of the terminal plate 18. The lug terminal 20 is a portion connected to the lead 16. The lug terminal 20, the terminal plate 18 and the lead 14 are integrally coupled to each other through the washer 22 and the rivet 24.

As shown, the electrolytic capacitor has a heat shrink tube 26. The heat shrink tube 26 surrounds the outside of the case 10, and when heat is applied, the heat shrink tube 26 closely adheres to the outer surface of the case 10. Shown below it is the bottom plate 28.

In the process of assembling an electrolytic capacitor as shown in FIG. 1, conventionally, an impregnation operation of the impregnated dielectric material 12, rivets for fastening the lug terminal 20, the terminal plate 18 and the lead 14 with the rivet 24 are performed. Coating operation, a curling operation in which the upper end of the case 10 is rolled and sealed while the impregnated dielectric material 12 is inserted into the case 10, and a sleeving covering the heat shrink tube 26 with the case 10. Sleeving was performed on separate devices. As a result, it takes about 6 days to manufacture a lug type electrolytic capacitor due to the time loss caused by the movement of each process.

Accordingly, a main object of the present invention is to provide a riveting and resonating device for an electrolytic capacitor, which can automatically perform resonance and riveting operations on the rud terminals of the electrolytic capacitor at the same time.

In order to achieve the above object, the electrolytic capacitor riveting and resonating apparatus of the present invention has a sheet of rolled aluminum and paper rolled in a roll form to inject a pair of leads into the wound portion, but riveting the lead partially exposed to the outside. And in the riveting and resonating device to perform the resonance at the same time,

V guide grooves are formed at regular intervals on both sides to set the seating guide block, the driving unit to install the cylinder vertically downwards on the upper side of the setting guide portion and to move the base plate to the cylinder rod to move up and down The upper resonance jig is coupled to one side of the base plate of the driving unit, and the resonance pins are coupled at the same interval as the width of the lead width of the pair of impregnated dielectrics vertically downward to the upper resonance jig. A crimping block is provided on the lower surface of the base plate of the driving unit so as to be able to rivet the lead cut out by the resonance portion of the impregnated dielectric material through the resonance portion provided with the lower resonance jig forming the seating groove so as to be seated. The upper rivet jig coupled vertically downward is coupled to the upper resonance jig side and And the installation in which the lower riveting tool for setting a rivet and a washer to be Yes lower rivet portion configured putting the basic features.

When described in more detail with reference to the accompanying drawings, such as the riveting and resonator of the electrolytic capacitor of the present invention.

2 is a front view showing a riveting and resonating device of the electrolytic capacitor of the present invention, Figure 3 is a left side view showing a riveting device of the electrolytic capacitor of the present invention, Figure 4 shows a resonance device of the electrolytic capacitor of the present invention. 5 is a front view illustrating a riveting and resonating device setting guide part of the electrolytic capacitor of the present invention.

As shown in Figures 2 to 5, the electrolytic capacitor riveting and resonating apparatus of the present invention is to roll the aluminum and paper in the form of a roll in the form of a roll to inject a pair of leads 14 in the wound portion to the outside portion In the riveting and resonating device for performing the riveting and resonance at the same time on the exposed lead 14,

The V guide 112 is formed at both sides at regular intervals, and the setting guide part 110 having the seating block 111 installed thereon, and the cylinder 121 being installed vertically downward on the upper side of the setting guide part 110 and the cylinder rod. Combining the base plate 122 to the driving unit 120 to move up and down, and the upper resonance jig 131 on one side of the base plate 122 of the driving unit 120, but the upper resonance jig 131 A pair of leads 14 of the impregnated dielectric material 12 is coupled to the lower side of the upper resonance jig 131 by coupling the resonance pins 131a at the same interval as the width of the pair of leads 14 of the impregnated dielectric material 12 vertically downward. By the resonance unit 130 and the resonance portion 130 of the impregnated dielectric material through the resonance portion 130 and the lower resonance jig 132 is formed to form a seating groove (132a) to seat the Lower surface of the base plate 122 of the drive unit 120 to rivet the cut lead 14 The upper rivet jig 141 which combines the compression block 141a in the vertical downward direction is coupled to the upper resonance jig 131 side, and the lower rivet jig 142 in which the rivet 24 and the washer 22 are set in the lower part corresponding thereto. The riveting unit 140 is installed.

Looking at the operating state of the electrolytic capacitor riveting and resonant device of the present invention configured as described above are as follows.

First, as shown in FIG. 5, the impregnated dielectric material 12 formed on one side of the V grooves 112 formed on both sides of the upper surface of the setting guide 110 is seated. At this time, the V-groove 112 can be adapted to the impregnated dielectric material 12 having various diameters, and the lead 14 of the impregnated dielectric material 12 can be seated in the seating groove 132a of the lower resonance jig 132. do.

Thereafter, as shown in FIG. 4, the cylinder 121 of the driving unit 120 is driven vertically downward to move the base plate 122 downward by the cylinder rod. The upper resonance jig 131 coupled to the lower surface of the base plate 122 moved downward interlocks the sharp end of the resonance pin 131a so that the lead 14 intersects with a "+" shape.

As shown in FIG. 3, the impregnated dielectric material 12 resonated through the resonance part 130 is positioned in the V groove 112 of the setting guide part 110 located at the side. At this time, the rivet jig 142 is set to the rivet 24 and the washer 22 in advance and then penetrated through the lead 14 cut into a "+" shape.

Next, the base plate 122 is moved downward again through the driving unit 120, and the crimping block 141a of the upper rivet jig 141 rivets the rivet 24 to rivet the impregnated dielectric 12. To complete.

Thus, there is an effect that the riveting and resonating work is integrally mounted so that the riveting work can be performed at once after the resonance work on the lead 14 of the impregnated dielectric material 12.

As described above, the riveting and resonating device of the electrolytic capacitor of the present invention has an effect of improving the work efficiency of the electrolytic capacitor by automatically taking the resonance and riveting work at the same terminal of the electrolytic capacitor. have.

Claims (1)

 Rolling aluminum and paper in the form of a roll to roll a pair of leads 14 into the rolled portion, but riveting and resonating to simultaneously perform the riveting and resonance on the lead 14 partially exposed to the outside In the apparatus, V guide 112 is formed at both sides at a predetermined interval to set the mounting guide 111, the mounting block 111, A driving unit 120 for installing the cylinder 121 vertically downward on the upper side of the setting guide unit 110 and coupling the base plate 122 to the cylinder rod to move up and down; The upper resonance jig 131 is coupled to one side of the base plate 122 of the driving unit 120, and the resonance pins are spaced vertically downward to the upper resonance jig 131 at equal intervals with the width of the lead 14 of the pair of the dielectrics 12. The lower resonance jig 132 having a mounting recess 132a formed therein to couple the 131a and to mount the pair of leads 14 of the impregnated dielectric 12 in the corresponding lower portion of the upper resonance jig 131. Resonator 130, The crimping block on the lower surface of the base plate 122 of the drive unit 120 to be riveted to the lead 14 cut by the resonance unit 130 of the impregnated dielectric 12 through the resonance unit 130 ( The upper rivet jig 141 which combines the vertical rivet 141a to the side of the upper resonance jig 131 is installed, and the lower rivet jig 142 having the rivet 24 and the washer 22 set at the lower part corresponding thereto is installed. Riveting and resonating device of an electrolytic capacitor, characterized in that consisting of the riveting unit 140.

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