KR100825235B1 - Method for coating lead wire of polymer condenser - Google Patents

Abstract

The present invention relates to a method for coating an insulating resin on the welded portion of the lead terminal during the manufacture of an aluminum polymer capacitor, and in particular, to insulate the welded portion between the lead terminal plate and the lead or from the leaded terminal plate to the welded portion before fabricating the capacitor element. The present invention relates to a lead terminal coating method using a pre-coating method of applying a resin and then performing a winding process.

According to the present invention, the insulating resin coating liquid flows into the condenser element body at the time of manufacturing the device as in the prior art, and the effective electrode area of the condenser is reduced to reduce the capacity achievement rate, or it is hardened by burying on the surface of the element body. By blocking the exit portion of the microcapillary porous tissue of the can be effectively prevented the problem of poor recyclability or poor polymer solution penetration. As a result, it is possible to improve the insulation characteristics of the capacitor, to improve the electrical characteristics, and to significantly reduce recyclability, polymerization, and poor assembly.

Aluminum, Polymer, Capacitor, Lead Terminal, Insulation Resin, Pre-Coated

Description

Coating method for lead terminal of polymer capacitor {Method for coating lead wire of polymer condenser}

1 is a process chart showing a manufacturing process of an aluminum polymer capacitor according to the prior art,

2 is a view for explaining a problem according to the prior art,

3 is a process chart showing a manufacturing process of an aluminum polymer capacitor according to the present invention;

4 and 5 illustrate a lead terminal coating method according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: lead terminal 11: lead terminal plate

12: lead wire 13: welding part

21 container 22 insulated resin solution (coating solution)

23: insulating resin 30: jig

31: vertical plate 32: horizontal plate

33: dispenser

The present invention relates to a method for coating a lead terminal of an aluminum polymer capacitor, and more particularly, before the capacitor element is manufactured, a winding process after coating a welding portion between the lead terminal plate and the lead or the lead terminal plate to the welding portion with an insulating resin. It relates to a lead terminal coating method applying a pre-coating method to proceed.

Generally, as shown in FIG. 1, an aluminum polymer capacitor includes an etching process of chemically or electrochemically etching a high purity (99.99% or more) aluminum foil having a thickness of 70 to 150 μm, and the aluminum foil. After etching, it is chemically formed according to the rated voltage and capacitance to form an Al ₂ O ₃ oxide film, which is a dielectric and an insulator, and a cutting that is cut to a size suitable for the use after the formation. After cutting and cutting, use the positive lead terminal as a positive electrode and wind it together with a thin aluminum sheet for negative electrode with negative lead terminal interposed between separators to prevent short-circuit between positive and negative electrodes. a winding process for winding, a terminal application process for applying insulating resin to the welded portions of the positive and negative lead terminals of the wound element, and After recoating, the reprocessing process is performed, and after reprocessing, carbonization process is carried out at 30 to 150 minutes at 200 to 300 ° C to carbonize the insulating paper composed of fiber structure, and after the carbonization process to various organic solvents. It is prepared through a polymerization process that undergoes chemical oxidation polymerization in a solution in which a conductive polymer or a conductive polymer monomer is dissolved, and an assembly process, an aging process, and a marking process that are performed on the condenser element after the polymerization process.

In the conventional polymer capacitor manufacturing process described above, a chemical reaction or electrochemical reaction is performed by depositing various solutions such as a recyclable solution, an oxidizing agent solution for a polymer polymerization, a monomer solution, or a mixed solution of these oxidizing agents and monomers in the capacitor body elements. To perform the reaction.

However, the aluminum capacitor device used here is a structure in which the positive electrode foil and the negative electrode current collector composed of micro-porous etched pit of aluminum foil are wound with insulating paper interposed therebetween, and the tantalum capacitor has a fine structure. Tantalum powder has a microporous structure sintered under high temperature vacuum.

Therefore, the process of depositing these capacitor elements in various solutions using the structural features of these devices and proceeding the corresponding chemical and electrochemical reactions while the above solutions are sufficiently penetrated by the capillary phenomenon in the microporous structure inside the capacitor element. Will go through.

However, this capillary phenomenon does not end only by infiltrating various solutions inside the capacitor element, but in the case of an aluminum capacitor, up to the anode and cathode lead terminals, and in the case of a tantalum capacitor, up to the anode tantalum wire, an electrical short circuit of the capacitor, an increase in leakage current, and a breakdown voltage are reduced. And fatal problems.

Due to these problems, in the case of an aluminum device, a method of blocking the moving path of various solutions by applying an insulating resin to the welding part of the anode and cathode lead terminals of the device in which the winding is completed.

In addition, in the tantalum element, the Teflon film resin is processed into a ring shape to be inserted into the anode tantalum wire to prevent the movement of the solutions.

However, this method of insulating resin application causes a problem of adding a process and consequently increasing the process cost and also increasing the production cost.

In addition, in the method of applying the insulating resin, since the insulating resin in the liquid state is coated on the lead terminal welding part or tantalum wire, which is only 0.5 to 2 mm in length, it is very difficult to work and a very precise insulating resin coating machine should be used.

This is an additional cost increase because it requires expensive additional equipment.

In addition, the liquid insulating resin solution (coating solution) should be precisely applied to the narrow area as described above. The microporous structure inside the device that forms the capillary structure while inadvertently applying the insulating resin solution to the surface of the capacitor device One end of the connection to the device surface is blocked, resulting in loss of capillary function.

2 is a view showing a state in which the aluminum polymer capacitor device is contaminated by the insulating resin solution (coating solution) in the conventional manufacturing process.

In this case, when the various solutions of the process are to be deposited on the condenser elements, the capillaries are clogged so that the solution cannot be sufficiently drawn inside the condenser.

In particular, in such a situation, failure to deposit a recyclable solution or a polymerization solution inside the capacitor device may cause various electrical characteristics not to be properly implemented.

Accordingly, the present invention has been invented to solve the above problems, and in the manufacturing process of the aluminum polymer capacitor, a short circuit due to contamination of the lead terminal of the capacitor element generated during the construction process such as recyclability, polymer solution impregnation, etc. ), In order to prevent problems such as an increase in leakage current, a breakdown voltage, and a deterioration in appearance quality, when the insulating resin is applied to the welding portion of the lead terminal, an insulating resin coating liquid flows into the body of the capacitor element, and the effective electrode area inside the capacitor. To reduce the capacity to achieve capacity, or to harden on the surface of the device body to block the exit portion of the microcapillary porous tissue inside the device to lose much of the capillary function, so that the liquid or polymer solution Poor recyclability or polymer solution It is an object of the present invention to provide a lead terminal coating method of an aluminum polymer capacitor, which can prevent problems such as poor penetration and eventually fail to exhibit a capacitor function.

In order to achieve the above object, the present invention, in the lead terminal coating method of the polymer capacitor to coat the insulating resin on the positive and negative lead terminals of the capacitor in order to prevent contamination by various chemicals in the manufacturing process of the polymer capacitor To provide a lead terminal coating method for a polymer capacitor, a winding process is performed after a preliminary lead terminal coating for applying an insulating resin solution to a predetermined portion of the anode and cathode lead terminals before fabricating the capacitor element.

In an exemplary embodiment, the insulating resin solution may be coated on the lead terminal plate and the welded part by dipping the lead terminal plate of the lead terminal to the welding part between the lead terminal plate and the lead wire in the insulating resin solution.

In another preferred embodiment, the lead terminal is mounted on a jig to be coated, and the insulating resin solution is coated only on the exposed welded area by using a jig that exposes only the welded area between the lead terminal plate and the lead wire of the lead terminal. It is done.

Here, two vertical plates at predetermined intervals and two jig on each inner surface facing each other of the two vertical plates using a jig comprising a horizontal plate installed side by side at a predetermined interval up and down, the lead terminal It is characterized in that the insulating resin solution is applied to the welded portions exposed between the horizontal plates while inserted between the plates and transported laterally.

In particular, the insulating resin solution is applied to the upper and lower surfaces of the welding part exposed by the jig using one selected from a brush, a roller, and a dispenser.

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

FIG. 3 is a process diagram illustrating a manufacturing process of an aluminum polymer capacitor according to the present invention, and FIGS. 4 and 5 are views illustrating a lead terminal coating method according to the present invention.

In the lead terminal coating method of the aluminum polymer capacitor according to the present invention, in order to solve the conventional problems, the insulating resin is applied to a necessary part before the part used as the lead terminal of the capacitor element is applied to the capacitor body, and the aluminum capacitor is wound thereafter. The production of tantalum devices allows the improvement of capacitor characteristics, reduction of defective rate, and reduction of production cost.

In particular, in the present invention, a pre-coating method of coating the insulating resin before the winding process is applied, and thus the lead terminal plate and the welding portion (lead terminal plate) of the lead terminal before the positive and negative lead terminals of the capacitor element are used in the manufacture of the capacitor element. And the area where the lead wires are welded) is dipped into the insulating resin solution to apply the insulating resin from the lead terminal plate to the welding portion, or to apply the insulating resin only to the welding portion of the lead terminal using a separately manufactured work jig. have.

Referring to Figure 3, it was shown that the terminal coating step of coating the insulating resin before the winding step.

In order to solve the problems of the prior art, it is necessary to implement a coating process that can easily apply the insulating resin to the required portion of the lead terminal for the polymer capacitor.

In addition, when the insulating resin is applied after the lead terminal is applied to the condenser element, it becomes difficult to apply the insulating resin. Therefore, the insulating resin is applied before the lead terminal is applied to the condenser element. The use of topical applicators should be excluded.

In the present invention, when the insulating resin is applied to the welding portion between the lead terminal plate and the lead wire of the narrow lead terminal, which is only a few mm, the insulating resin flows into the condenser body or is applied to the body surface to block the end surface of the capillary structure inside the condenser. In order to prevent the phenomenon of throwing away, the step of coating the insulating resin on the lead terminal, that is, the step of applying the insulating resin on the lead terminal is separated before the capacitor manufacturing process.

At this time, unlike the conventional method, the application of the insulating resin to the lead terminal plate and the welding of the lead terminal plate and the lead wire is applied simply by dipping into the insulating resin solution and then dried to form an insulating resin layer.

Alternatively, in the present invention, a separate jig may be used for coating the insulating resin. In this case, a method of applying the insulating resin to only the exposed welding part after exposing only the welding part of the lead terminal plate and the lead wire to the jig may be applied.

As the insulating resin coating liquid applied to the lead terminals, a solution in which silicon is diluted in toluene is used, and the viscosity of the insulating resin solution is adjusted by dilution of toluene, and a small amount of a hardener is added thereto, which can then be cured. Make sure

Referring to the method of applying the insulating resin of the lead terminal according to the present invention in more detail with reference to the drawings, as shown in Figure 4, as shown in Figure 4, the lead wire 12 of the lead terminal 10 simply While leaving the fixed jig (not shown), the lead terminal plate 11 of the lead terminal and the welding portion (welding portion of the lead terminal plate and the lead wire) 13 are dipped into the insulating resin solution 22 contained in the container 21. Apply insulating resin solution on the surface.

Thereafter, the mixture is left at room temperature for at least 60 minutes to cure the insulating resin of the silicon component.

Then, the lead terminal 10 is a current collector for the positive electrode and the negative electrode for applying to the capacitor element in a state in which the lead terminal plate 11 is coated with the insulating resin 23 from the lead terminal plate 11 to the welding portion 13 with the lead wire 12. Stitching is done on aluminum foil.

At this time, the insulating resin film of the lead terminal plate 11 is physically destroyed to secure an electrical passage between the lead terminal and the aluminum foil, and the remaining non-destructive portion of the insulating resin is insulated to prevent an electrical short circuit when the capacitor is completed. And increase the breakdown voltage and reduce the leakage current.

As another embodiment of the present invention, the lead terminal plate 11 and the lead wire without applying an insulating resin to the lead terminal plate 11 by using a predetermined jig to enhance the electrical contact between the lead terminal plate 11 and the aluminum foil. (12) Apply insulating resin only to the welds 13 between them.

At this time, the jig 30 as shown in FIG. 5 is used, and the jig 30 has two vertical plates 31 arranged at predetermined intervals, and two on each inner side surface of the two vertical plates 31 facing each other. The dog is configured to include a horizontal plate 32 is installed side by side at a predetermined interval up and down.

When the lead terminal 10 is inserted between the upper and lower horizontal plates 32, the jig 30 exposes only the welding part 13, and the lead terminals 10 are inserted between the upper and lower horizontal plates 32. By feeding the insulating resin coating liquid 22 to the upper and lower surfaces of the welded portions 13 exposed between the horizontal plates by a brush, a roller, a dispenser 33, or the like, and transferring the insulating portions 23 only to the welded portions 13. )).

In this way, according to the present invention, by applying a pre-coating method of applying a welding portion between the lead terminal plate and the lead wire or the lead terminal plate from the lead terminal plate with the insulating resin and then winding the process before fabricating the capacitor element, As described above, the insulating resin coating liquid flows into the condenser element body or is buried on the surface of the element body, thereby preventing the problem caused by blocking the microcapillary tissue inside the element.

As described above, according to the lead terminal coating method of the polymer capacitor according to the present invention, before fabricating the capacitor element, the welding portion between the lead terminal plate and the lead wire or the lead terminal plate to the welding portion is coated with an insulating resin and then wound up. By applying the pre-coating method that proceeds the process, the insulating resin coating liquid flows into the capacitor element body at the time of manufacturing the device as in the prior art, reducing the effective electrode area inside the capacitor to reduce the capacity achievement rate, or to the surface of the element body. By buried and hardened, the outlet portion of the microcapillary porous tissue inside the device can be blocked, thereby effectively preventing a problem of poor reproducibility or poor penetration of polymer solution.

As a result, according to the present invention, the insulating properties of the capacitor can be improved, the electrical properties can be improved, and recyclability, polymerization, and poor assembly can be significantly reduced.

In particular, since only the welding portion between the lead terminal plate and the lead wire can be coated with an insulating resin, electrical contact between the lead terminal and the condenser element can be strengthened, thereby improving the characteristics of the condenser.

In addition, by applying a very simple coating process, it is possible to reduce the process cost and production cost, and does not require expensive equipment, thereby reducing costs, simplifying production equipment, and improving productivity.

Claims (6)

In the method of coating a lead terminal of a polymer capacitor in which insulating resin is coated on the cathode and anode lead terminals of the capacitor in order to prevent contamination by various chemicals in the manufacturing process of the polymer capacitor, the anode and cathode leads before manufacturing the capacitor element Apply pre-lead terminal coating to apply insulation resin solution to the designated part of the terminal and then take up the winding process, but use the jig to expose only the welding part between the lead terminal plate of the lead terminal and the lead wire by mounting the lead terminal to the jig. The coating method of the lead terminal of the polymer capacitor, characterized in that to coat the insulating resin solution only on the exposed weld. delete delete The method according to claim 1, Using a jig comprising two vertical plates of a predetermined interval and horizontal plates installed on the inner surface of the two vertical plates facing each other, the two vertical plates are arranged side by side at a predetermined interval, the lead terminal between the upper and lower horizontal plates A method of coating a lead terminal of a polymer capacitor, characterized by coating an insulating resin solution on a welded portion exposed between horizontal plates while being inserted and transported laterally. The method according to claim 1 or 4, The method of coating a lead terminal of a polymer capacitor, characterized in that the insulating resin solution is applied to the upper and lower surfaces of the welding portion exposed by the jig using a brush, a roller, or a dispenser. In the method of coating a lead terminal of a polymer capacitor in which insulating resin is coated on the cathode and anode lead terminals of the capacitor in order to prevent contamination by various chemicals in the manufacturing process of the polymer capacitor, the anode and cathode leads before manufacturing the capacitor element After the pre-lead terminal coating to apply the insulating resin solution to the predetermined portion of the terminal and the winding process is carried out, including the lead terminal plate of the lead terminal to the welding region between the lead terminal plate and the lead wire in the insulating resin solution, The lead terminal coating method of the polymer capacitor, characterized in that the coating the insulating resin solution on the lead terminal plate and the welding portion.

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