KR200315909Y1 - rods - Google Patents

Abstract

The present invention is durable, improves resistance to breaks and balances, provides sensitivity to granulation and line play, as well as yields to accidental loads and restores to their original shape when the accidental loads are removed. The object of the present invention is to provide a fishing rod having a restoring force, the configuration of which is provided with a coated electrode and a titanium electrode, which is any one of a fishing rod, a bobbin or a fishing saw, in the vacuum evaporator, wherein the coated object and the titanium electrode are provided. sikimyeo evacuated until the degree of vacuum inside the vacuum evaporator is 10 ^-4 to 10 ^-7 Torr, the 10 ^-4 to 10 ^-7 Torr to oxygen for a controlled evacuation of the coating color of the object coated in a vacuum evaporator, argon, While supplying a gas in which any one or two of nitrogen is mixed, titanium is ionized by applying a high voltage to the titanium electrode and ionizing the gas. Melt by evaporation so that the reaction for the ionized gas and the molten titanium is evaporated to 10-35 minutes, and coated on the surface of the object is made hayeoseo coating.

Description

Fishing rod {rods}

The present invention improves durability, balance (bending coefficient, flexural strength) and resistance to breakage on the surface of the coated object, which is one of fishing rods, bobbers and bobbers, as well as injecting and coating reaction gas into the vacuum deposition machine. It relates to a fishing rod coated to have a specific color by selectively adjusting the time.

To express various colors and patterns on the surface of a fishing rod made of conventional synthetic resin, etc., various types of metals are deposited and plated, and then a printing layer is formed by silk printing, and then a thinner is cleaned using a chemical such as thinner. As a method of expressing the finished pattern and painting using a transparent finishing material (Registration No. 10-1992-0002767), etc. have been used, but this method has a problem that the plated metal layer is separated from the inner surface of the coating material and becomes unsightly by the use of a fishing rod. there was.

Plating method by vacuum deposition is widely used because it can be plated on plastic, cloth, paper, glass, wood, etc., and the processing cost is low, there is no pollution, and it is possible to form a film with high uniform reflectivity so that polishing is not necessary.

The plating layer formed by the vacuum deposition method has a disadvantage in that wear resistance and corrosion resistance are inferior to other plating methods. However, the deposition plating method used on the surface of a conventional fishing rod has been difficult to maintain a pattern or color that is easily separated and expressed by performing metal deposition directly on a fishing rod surface made of a synthetic resin material having a relatively smooth surface.

The fishing rod of the present invention is durable, improves resistance to breakage, balance, provides sensitivity to mouth play and line play, and surrenders to accidental loads. It is an object of the present invention to provide a fishing rod that has a restoring force restored to its original shape when the accidental load is removed.

1 is a perspective view showing a fishing rod coated with titanium of the present invention.

2 is a cross-sectional view of "A-A" of FIG.

※ Explanation of symbols about main part of drawing ※

10: coating material 20: coating layer

The fishing rod configuration of the present invention for achieving the above object is provided with a coated electrode and a titanium electrode which is any one of a fishing rod, a fishing bobber, a fishing saw in a vacuum evaporator, and the inside of the vacuum evaporator provided with the coated object and the titanium electrode. vacuum of 10 ^-4 sikimyeo evacuated until to 10 ^-7 Torr, the 10 ^-4 to 10 any one of oxygen, argon and nitrogen to a ^-7 Torr in the evacuated vacuum evaporator to control the water coating color avoid coating one Or supplying a gas mixed with the two, and applying a high voltage to the titanium electrode to ionize the gas to cause the titanium to melt evaporate and react the ionized gas with the melt evaporated titanium for 10 to 35 minutes. To coat the surface of the coating.

And, the coating material is one of acrylic or urethane coated on the surface.

In order to make the coating color of the coating material pearly, oxygen is supplied to the vacuum vapor deposition machine in the range of 280 to 800 sccm, and the reaction time of the ionized gas and the molten evaporated titanium is set to 15 to 35 minutes.

In order to change the coating color of the coating material into a transparent rainbow color, a vacuum evaporator was supplied in a range of 250 to 700 sccm of argon and 280 to 800 sccm of oxygen, and the reaction time of the ionized gas and molten evaporated titanium was 12 to 18 minutes.

In order to change the coating color of the coating material into pearl color, a vacuum evaporator was supplied in the range of 250 to 700 sccm of argon and 280 to 800 sccm of oxygen, and the reaction time of the ionized gas and molten evaporated titanium was 20 to 35 minutes.

Meanwhile, as shown in FIGS. 1 and 2, the fishing rod according to the present invention is coated with a transparent rainbow color of titanium on the surface of the coated material 10, which is one of ordinary fishing rods, bobbers and bobbins. Formed;

Titanium is coated with a pearl color on the surface of the coating 10, which is any of fishing rods, bobbers and bobbins to form a coating layer 20;

Titanium is coated with a transparent rainbow color on the surface of the coated material 10, which is one of conventional fishing rods, fishing bobbins and fishing bobbins coated with either acrylic or urethane to form a coating layer 20;

Titanium is coated in a pearl color on the surface of the coated material 10, which is any one of conventional fishing rods, fishing bobbins and fishing bobbins coated with either acrylic or urethane, thereby forming a coating layer 20.

Referring to the fishing rod according to the present invention having the characteristics as described above in more detail.

The vacuum deposition method is a conventional activated reactive vacuum deposition method to ionize the reaction gas in order to improve the reaction probability of the evaporated metal particles and the reaction gas in the vacuum deposition, to deposit the chemical, the vacuum vapor deposition machine used in the present invention ( Chamber) impinges the electron beam deflected on the rod-shaped titanium target, causing the target to melt and evaporate.

At this time, when the reaction gas is injected into the vacuum evaporator, the reaction gas is ionized by the discharge probe to which the voltage is applied, thereby generating a glow discharge, and the reacted compound is deposited on the coating target.

The vacuum deposition method in this manner enables the formation of a thin film having characteristics such as corrosion resistance, heat resistance, and abrasion resistance, and can be freely coated with an oxide film, a nitride film, a carbonized film, etc. as well as a pure metal film.

The above method is widely used in the field of metals, machinery as well as all industries. For example, there is a technique of coating titanium on an eyeglass frame. However, the above technique is merely coating the titanium to give a firmness to the surface of the object, it did not give a color.

The present invention is intended to give the solidity of the titanium coating, as well as color (color), and the coating method thereof is described in detail by dividing each step as follows.

(Step 1)

The first step according to the present invention is to provide a coating material and a titanium electrode of any one of a fishing rod, a fishing bobber and a fishing saw in a vacuum evaporator capable of rotating and revolving. As a conventional method for vacuum deposition, further detailed descriptions are omitted.

(Step 2)

A second step according to the present invention is a step of maintaining a degree of vacuum within the vacuum evaporator, which is the to-be-coating and the titanium electrode in a manner that the degree of vacuum injection, and exhausting the argon gas into the vacuum evaporator comprising ^10-4 to ^10- Vacuum until ⁷ Torr.

At this time, there is a fear that the degree of vacuum within the vacuum evaporator is a weak attractive force between the coating film is peeled off of 10 ^-4 Torr, if the coating film is lower than the blood and the coating, which is opposed to the degree of vacuum within the vacuum evaporator is higher than the required 10 ^-7 Torr As a result, the time required for evacuating the inside of the vacuum evaporator becomes long, resulting in a delay in coating time. Therefore, the vacuum degree inside the vacuum evaporator is preferably 10 ^-4 to 10 ^-7 Torr.

(Step 3)

In the third step according to the present invention, a high pressure voltage is applied to the titanium electrode of the vacuum vaporizer vacuumed to 10 ^-4 to 10 ^-7 Torr to allow titanium to be melt evaporated and oxygen, argon for the colorization of the coating. In addition, the ionized gas and molten evaporated titanium react with each other for 10 to 35 minutes while being ionized by supplying a mixed gas in which one or two of nitrogen are mixed and coated on the surface of the coating target.

In order to make the color of titanium coated on the coating material in the third step of the coating method to be pearl color, oxygen is supplied to the vacuum vapor deposition machine in the range of 280 to 800 sccm, and the reaction time between the ionized gas and the molten evaporated titanium is 15. Do it for 35 minutes.

The reason for securing a predetermined oxygen supply and reaction time in applying the titanium coating to the coating is because it is necessary to color the titanium coating, and in particular, in order to perform pearl-colored titanium coating, the oxygen supply is in the range of 280 to 800 sccm. The reaction time should be 15 to 35 minutes.

The reason why the oxygen supply amount is in the range of 280 to 800 sccm and the reaction time is 15 to 35 minutes is that if the amount is kept below or above, the color of the titanium coating does not maintain the pearl color, as well as the thickness of the coating. This is because it does not maintain the desired thickness.

In addition, in order to make the coating color of the coating material into a transparent rainbow color, a vacuum evaporator was supplied in a range of 250 to 700 sccm of argon and 280 to 800 sccm of oxygen, and the reaction time of the ionized gas and molten evaporated titanium was 12 to 18 minutes. do. The reason for supplying the argon 250 to 700 sccm is to adjust the degree of vacuum of the vacuum evaporator to the desired degree.

The reason why the oxygen supply amount is in the range of 280 to 800 sccm and the reaction time is 12 to 18 minutes is as described above. If the amount is kept below or above, the color of the titanium coating does not maintain the transparent rainbow color. Of course, because the thickness of the coating does not maintain the desired thickness.

In addition, in order to make the coating color of the coating to be pearl color, a vacuum evaporator is supplied in the range of 250 to 700 sccm of argon and 280 to 800 sccm of oxygen, and the reaction time of the ionized gas and the molten evaporated titanium is 20 to 35 minutes. The reason for supplying 250-700 sccm of argon is to adjust the vacuum degree of a vacuum evaporator to the desired degree similarly to the above.

In addition, the oxygen supply is in the range of 280 to 800 sccm and the reaction time is 20 to 35. The reason why the color of the titanium coating does not maintain the pearl color is maintained when it is kept below or above. Of course, the thickness of the coating does not maintain the desired thickness.

However, in the titanium coating of the coating object, the temperature of the vacuum vapor deposition machine may be maintained at room temperature, and the coating material may be made of synthetic resin, carbon rod, or stainless steel, and either of acrylic or urethane may be coated on their surface. You may coat titanium with the old one.

In addition to the above-described titanium coating color of the coating can be adjusted to gold or silver, the gas supply and coating time for the coating is shown in Table 1 below.

Table 1 below shows the gas used, the degree of vacuum, the temperature of the vacuum evaporator, the coating time, etc., which are selected to produce each color while coating the coating.

Table 2 below shows the results of the bending test before and after performing titanium coating on the coating material for each material.

Table 3 shows the results of the bending test before and after performing the titanium coating on the coating material for each material.

Table 4 shows the results of the bending test before and after the titanium coating according to the size of each cylinder of the fishing rod.

Table 5 shows the results of the bending test before and after performing the titanium coating according to the size of each cylinder of the fishing rod.

The present invention as described above, by coating titanium on the coating material of any one of the fishing rod, fishing bobber, fishing bobbin, to improve the corrosion resistance, wear resistance, resistance, balance flexural strength, and also to improve the surface of the coated coating By colorizing, there is an effect of improving the aesthetic appearance.

Claims (4)

In the vacuum evaporator is provided with the coating 10 and any one of the usual fishing rod, bobber, fishing bobbin and titanium electrode, Vacuum the inside of the vacuum evaporator until the vacuum degree is 10 ^-4 to 10 ^-7 Torr, By applying a high voltage to the titanium electrode to cause the titanium to melt evaporate and at the same time supplying and ionizing a gas mixed with oxygen, argon, or nitrogen for the colorization of the coating, the ionized gas and melt evaporation The titanium is reacted for 10 to 35 minutes, the surface of the coating 10 is coated with titanium transparent rainbow color, characterized in that the coating layer 20 is formed. The method of claim 1, Fishing rod, characterized in that the coating layer (20) is formed by coating titanium with a pearl color on the surface of the coating material (10). Equipped with a titanium electrode and the coating material 10, which is any one of a common fishing rod, bobber, fishing bobber coated with either acrylic or urethane in a vacuum evaporator, Vacuum the inside of the vacuum evaporator until the vacuum degree is 10 ^-4 to 10 ^-7 Torr, A high voltage is applied to the titanium electrode to cause the titanium to be melt evaporated, and ionized while supplying and ionizing a gas in which one or two of oxygen, argon, and nitrogen are mixed for colorization of the coating material 10. The fishing rod is characterized in that the gas and molten evaporated titanium reacts for 10 to 35 minutes, the titanium is coated with a transparent rainbow color on the surface of the coating 10 to form a coating layer (20). Equipped with a titanium electrode and the coating material 10, which is any one of a common fishing rod, bobber, fishing bobber coated with either acrylic or urethane in a vacuum evaporator, Vacuum the inside of the vacuum evaporator until the vacuum degree is 10 ^-4 to 10 ^-7 Torr, A high voltage is applied to the titanium electrode to cause the titanium to be melt evaporated, and ionized while supplying and ionizing a gas in which one or two of oxygen, argon, and nitrogen are mixed for colorization of the coating material 10. The fishing rod is characterized in that the gas and molten evaporated titanium reacts for 10 to 35 minutes, and the coating layer 20 is formed by coating titanium with a pearl color on the surface of the coating material 10.