KR100783740B1 - Method for manufacturing lead-wire of conductive polymer condenser - Google Patents

Abstract

A method for manufacturing a lead-wire of a polymer condenser is provided to reduce an environment cost by not using organic solvent such as toluene and prevent the contamination of the lead-wire without using expensive teflon resin film. A method for manufacturing a lead-wire of a polymer condenser includes the steps of: preparing fluoric solution by mixing 20~30 % of fluoric resin and 70~80 % of solvent selected among water, ethanol, and mixture of the water and the ethanol; applying the fluoric solution on the lead-wire tilted about an angle of 3~10 degrees; and hardening the fluoric solution on the lead-wire in a temperature range of 80~150 °C for 30~150 minutes.

Description

Method for manufacturing lead-based polymer capacitors {Method for manufacturing lead-wire of conductive polymer condenser}

1 is a schematic diagram of a lead terminal application shape of an aluminum polymer capacitor.

2 is a schematic diagram of a lead terminal application shape of a tantalum polymer capacitor.

3 is a schematic view of a lead terminal arrangement shape for fluorine resin coating.

The present invention relates to a method of manufacturing a polymer capacitor lead terminal, and more particularly, fluorine having a characteristic of being hardened by heat treatment without using a separate curing agent, which can use water or ethanol which is less harmful to the human body as a solvent, and is environmentally friendly. Impregnating or imparting a certain degree of inclination of the polymer capacitor lead terminal using a solution in which the resin is dissolved, and then applying a fluorine resin solution to the lead terminal by gravity and inclination, thereby producing a polymer and polymer solution. It can prevent problems such as short circuit, leakage current increase, breakdown voltage, and deterioration of appearance quality caused by condenser element lead terminal contamination that occur during the impregnation process, etc., and improve the coating workability on the lead terminal. Can increase productivity, and also use eco-friendly materials The present invention relates to a method for manufacturing a polymer capacitor lead terminal which can expect an effect of minimizing environmental pollution and minimizing material and process costs to lower the production cost of a product.

Aluminum or tantalum polymer capacitors have short circuits, increased leakage currents, lowered breakdown voltages due to contamination of lead terminals of capacitor elements due to the recyclable solution, or the polymer solution, which are generated during the process of impurity, impregnation of polymer solution, In order to prevent problems such as deterioration of appearance quality, lead terminals are pre-coated with various materials to prevent contamination due to these solutions.

Typically, aluminum polymer capacitors use a method of preventing contamination of a terminal by coating a resin of a silicon material on a lead terminal.

At this time, the silicone resin solution is basically prepared using toluene, which is a toxic organic solvent, as a solvent, and a mechanism for curing silicone by adding a small amount of curing agent to be cured after application to the lead terminals. At this time, the curing agent has a fatal problem of reducing the electrical conductivity of the conductive polymer used as the capacitor solid electrolyte when it is contained in the capacitor element. In order to apply the curing solution to the lead terminal, the curing of the silicone solution proceeds rapidly. It is not possible to use common instruments such as dispensers.

In addition, since toluene is easily volatilized in the air, the viscosity of the solution is continuously increased, and the work load for finishing the application in a short time is very large and the waste of the solution is very severe. In addition, due to the volatilization and hardening agent of toluene, the silicone solution hardens in the container or the application apparatus, and thus, a large amount of toluene must be used to remove it mechanically. have.

In particular, toluene used as a solvent is very toxic to the human body and has a high volatility, so that toluene vapor is continuously discharged into the air, so much facility investment must be made in the ventilation of the workplace, and the health care cost of the worker has a very high problem.

Teflon resin, which is mainly used to prevent lead terminal contamination of tantalum polymer capacitors, is used by processing a Teflon resin in the form of a ring suitable for lead terminal diameter by inserting it into a lead terminal. In this case, it is not a coating on the lead terminals, but a simple fitting method. Therefore, it is impossible to completely prevent capillary penetration such as recyclability and polymer solution due to its sealing property. It is impossible to prevent contamination sufficiently.

In addition, by applying a complicated punching machine to process the Teflon resin, a precision process that needs to be inserted into the lead terminal of the capacitor element of only a few millimeters is required, and the burden on the equipment cost is high, and the defect rate of the Teflon resin insertion process is very high. It has serious problems such as high.

Accordingly, the inventors of the present invention have been researched to solve the above problems, and as a result, instead of using a resin of silicon or Teflon in order to block the contamination of the lead terminal when manufacturing a conventional polymer capacitor lead terminal, When the fluororesin solution in which the fluororesin is dissolved using water, ethanol or a mixture thereof as a solvent is found, the above problems can be solved, thereby completing the present invention.

According to the present invention, a fluorine resin having a relatively low risk to human body is used in comparison with silicone or Teflon resin, and water, ethanol or a mixture thereof is used as a solvent instead of a highly toxic organic solvent capable of dissolving silicone or Teflon resin. It can be used to reduce the risk to the environment and human body.

In addition, unlike conventional organic solvents, by using a less volatile water, ethanol or a mixture thereof as a solvent, it is possible to minimize the evaporation of the solvent during the process to minimize the viscosity change of the fluororesin solution, simple dipping (dipping) After applying a certain slope to the process or polymer capacitor, it is possible to apply the fluororesin solution completely to the lead terminal of the polymer capacitor by a simple method of using a dispenser.

In addition, since the used fluorine resin has a property of dissolving in water, it is possible to wash the water during the post-treatment of the apparatus applied to the process, and thus an additional effect of improving workability and environmental performance can be expected.

In addition, the effect of solving the problem of lowering the electrical conductivity of the conductive polymer can be expected by not using additional additives such as a curing agent in the fluororesin solution.

Accordingly, the present invention uses an fluororesin solution to manufacture an improved polymer capacitor lead terminal that can prevent problems such as short circuit, leakage current increase, breakdown voltage, and appearance quality deterioration due to contamination of the capacitor terminal lead terminal. The purpose is to provide a method.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention relates to a method for producing a polymer capacitor lead terminal, comprising a fluorine resin solution comprising 20 to 30% by weight of a fluorine resin and 70 to 80% by weight of a solvent selected from water, alcohol and a mixed solution thereof. Characterized in that the method for producing a polymer capacitor lead terminal comprising the step of applying to the lead terminal of the condenser element is inclined to be positioned in the lower direction and then hardening.

Hereinafter, the present invention will be described in detail.

The present invention relates to a method for manufacturing a polymer capacitor lead terminal, and more particularly, fluorine having a characteristic of being hardened by heat treatment without using a separate curing agent, which can use water or ethanol which is less harmful to the human body as a solvent, and is environmentally friendly. Impregnating or imparting a certain degree of inclination of the polymer capacitor lead terminal using a solution in which the resin is dissolved, and then applying a fluorine resin solution to the lead terminal by gravity and inclination, thereby producing a polymer and polymer solution. The present invention relates to a method of manufacturing a polymer capacitor lead terminal that can prevent problems such as short circuit, leakage current increase, breakdown voltage, and appearance quality deterioration due to contamination of the capacitor element lead terminal generated during the impregnation process. .

According to the manufacturing method according to the embodiment of the present invention, it is possible to improve the coating workability to the lead lead terminal of the polymer capacitor can increase the productivity, and also to minimize environmental pollution by using environmentally friendly materials and materials and process costs It can be expected to reduce the production cost of the product by minimizing the cost.

In the present invention, a fluorine resin is used as the resin applied to the lead terminals in the production of the polymer capacitor lead terminals.

That is, a fluororesin solution containing 20 to 30 wt% of fluororesin and 70 to 80 wt% of a solvent selected from water, alcohol, and a mixed solution thereof is used, and the fluororesin is tetrafluoroethylene, purple o The fluorine resin selected from the alkyl vinyl ether copolymer may be used, and the fluorine resin in the fluorine resin solution is used in the range of 20 to 30% by weight. When the fluorine resin content is less than 20% by weight, the resin amount is small and the lead terminal coating ability is achieved. This is not preferable because it tends to be lowered and the viscosity is lowered, and when it is contained in excess of 30% by weight, the solution viscosity tends to increase due to the excessive amount of resin, which is not preferable.

As the solvent, water, ethanol or a mixture thereof may be used, and when water is used, volatilization of the solvent is minimized during the manufacturing process, and when ethanol is used, the solution viscosity is low and the permeability of the solution to the electrode foil is improved. In the case of mixing water and ethanol, it is preferable to use the mixture of water and ethanol in a weight ratio of 5 to 9: 1 to 5, in terms of economical and environmental aspects.

Isopropyl alcohol may be added in order to improve solubility in the fluororesin solution as necessary, and the amount of the fluororesin solution may be added in an amount of 0 to 1% by weight.

The application of the fluororesin solution is performed by depositing a polymer capacitor lead terminal or a dispenser. When applying the fluororesin solution using a dispenser, the lead terminal of the condenser element is inclined so that the lead terminal is positioned downward. Apply to the skin.

Figure 3 shows a schematic view of the lead terminal arrangement shape for applying the fluorine resin in the manner according to the embodiment of the present invention.

That is, as shown in FIG. 3, the inclination of the capacitor element to the upper surface is to prevent the applied fluorine resin from absorbing the inside of the element. Enable application. In order to completely apply the entire surface of the lead terminal, immediately after application of fluorine resin, the lead terminal is blown by air to the lower side of the lead terminal by air to quickly spread from the surface discharged from the fluorine resin and the dispenser to the entire surface of the lead. It becomes possible and becomes more preferable.

In the case of providing the inclination as described above, the fluorine resin solution is naturally applied to the lead terminal by gravity and inclination. The inclination is to be made of an inclination of 3 to 10 degrees, if the inclination is less than 3 degrees, the flow rate of the fluorine resin solution is less tends to be applied is slow, and if the inclination is more than 10 degrees is rapidly flowing down the corresponding area It is not preferable because it tends to be applied to other electrode surfaces.

Application of the fluorine resin is preferably carried out over the entire lead terminal.

After the application of the fluorine resin is made, the applied fluorine resin is dried and cured. The curing is performed for 30 to 120 minutes in a temperature range of 80 to 150 ° C. to complete the application of the fluorine resin to the lead terminals. If the curing temperature is less than the above range, the time required for curing is long, and if the curing temperature is higher than the above range, the coating state tends to be rough due to rapid curing.

The polymer capacitor of the present invention may be an aluminum or tantalum capacitor.

Polymer capacitors manufactured as described above have problems such as short circuit, leakage current increase, withstand voltage degradation, and appearance quality deterioration due to contamination of capacitor terminal lead terminals generated during the manufacturing process such as recyclability and polymer solution impregnation. You can prevent them.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that. Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive.

As described above, according to the present invention, by not using an organic solvent such as toluene, which is toxic to the human body, the environmental cost is reduced in products and work processes, and the pollution prevention effect of the lead terminal is eliminated without using an expensive Teflon resin film. The effect can be maximized.

Therefore, it is possible to eliminate the use of a separate curing agent because the silicone resin is not used, and thus the problem of reducing the electrical conductivity of the conductive polymer material, which is a capacitor solid electrolyte material, can be improved. The effect which can remarkably improve defects, etc. can be acquired.

In addition, it is possible to solve problems such as difficulty in working due to the use of silicone resin, waste of solution, and can easily apply the fluorine resin by a simple precipitation or dispenser method, thereby simplifying the process equipment.

As a result, it is possible to increase the production speed of the capacitor production line and reduce the overall product cost, thereby obtaining more efficient productivity and price competitiveness.

In addition, by using environmentally friendly materials can minimize the environmental pollution can be expected to contribute to maintaining a sustainable social structure.

Claims (7)

In the manufacturing method of the polymer capacitor lead terminal, Fluorine resin solution comprising 20 to 30% by weight of fluorine resin, and 70 to 80% by weight of a solvent selected from water, ethanol and a mixed solution thereof. A method of manufacturing a polymer capacitor lead terminal, comprising the step of applying the lead terminal of the condenser element is inclined so that the lead terminal is positioned in the lower direction and then hardening. The method of claim 1, wherein the polymer capacitor is an aluminum or tantalum capacitor. The method of claim 1, wherein the coating of the fluororesin solution is performed by depositing or dispensing a polymer capacitor lead terminal. The method of manufacturing a polymer capacitor lead terminal according to claim 1, wherein the inclination is made of inclination of 3 to 10 degrees. The method of claim 1, wherein the coating of the fluorine resin is performed on the entire lead terminal. The method of claim 1, wherein the curing is performed for 30 to 120 minutes at a temperature range of 80 to 150 ℃. The method of claim 1, wherein 0 to 1% by weight of isopropyl alcohol is added to the fluororesin solution.

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