KR20020067290A - Deposition apparatus of continuous polymerizing system using plasma - Google Patents

Abstract

PURPOSE: An apparatus for continuously depositing polymer film using plasma is provided to improve working efficiency by concentratively supplying a reaction gas into a plasma forming region through which a material to be processed passes, thereby cutting off unnecessary consumption of the reaction gas. CONSTITUTION: The apparatus for continuously depositing polymer film using plasma comprises a process chamber(11); an unwinder(13) which is installed at one side of the process chamber(11) to supply a material to be processed into the process chamber(11); a winder(14) which is installed at the other side of the process chamber(11) to wind the material to be processed discharged from the process chamber(11); upper and mower electrodes(15,16) which are arranged in upper and lower sides of the material to be processed(12) passing through the process chamber(11); reaction gas supply pipes(17) for supply reaction gas into the plasma formation region between the upper and mower electrodes(15,16); non-reaction gas supply pipes(18) for supplying non-reaction gas to the outer side of the upper and mower electrodes(15,16); and gas exhaust pipes(19) for exhausting the exhaust gas generated after the reaction in the process chamber(11), wherein the reaction gas supply pipes(17) are arranged at upper and lower parts of the material to be processed(12) to supply reaction gas in a moving direction of the material to be processed so that equal gas flows from the reaction gas supply pipes(17) are formed in a moving direction of the material to be processed.

Description

Polymer film continuous deposition apparatus using plasma {DEPOSITION APPARATUS OF CONTINUOUS POLYMERIZING SYSTEM USING PLASMA}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polymer film continuous deposition apparatus using plasma, and more particularly, to a polymer film continuous deposition apparatus using plasma suitable for efficient deposition operation by intensively supplying reaction gas to plasma formation around a material.

In general, a deposition method using plasma (PLASMA) is mainly used as a metal surface treatment method of depositing a polymer material on a metal material to improve hydrophilicity or superhydrophobicity. This is because the deposition temperature can be lowered, so that the deformation and deformation of the base material due to high temperature heating can be reduced.

As described above, a method of depositing a polymer material on a metal material by using plasma is described. Two electrodes ELECTRODE are disposed inside the process chamber, a material is placed between the electrodes, and the material is supplied with power. When connected to the power supply and the electrode is grounded, the inside of the process chamber is pumped with a vacuum pump to maintain a vacuum state, while power is supplied to the electrode using a power supply. The plasma is generated, the molecular bonds of the gases are broken by the plasma generated in this way to deposit the polymer film on the surface of the sample.

However, the plasma deposition as described above is to form a process atmosphere in a state in which a predetermined size of material is mounted inside the process chamber, and then deposited, which is not suitable for mass production because continuous work cannot be performed.

As a solution to this problem, the sheet-shaped sheet rolled sheet is continuously supplied from the unwinder to the process chamber, and the material deposited in the process chamber is wound on the opposite winder. The method of carrying out the work continuously is introduced.

However, in the continuous deposition apparatus of the polymer film using the plasma, since the reaction gas supplied into the process chamber is supplied through a gas supply pipe in the form of a mixed gas, it is also supplied to a portion other than the plasma forming region where the polymer film is deposited on the material. As a result, the reaction gas supplied to a region other than the plasma forming region is hardly contributing to the reaction and is discharged to the outside as it is, so that there is a problem in that unnecessary loss of the reaction gas occurs.

The object of the present invention devised in view of the above problems is that the reaction gas is intensively supplied to the plasma forming region through which the material passes to participate in the reaction, thereby preventing the unnecessary reaction gas consumption and improving the working efficiency. It is to provide a gas supply structure of the polymer film continuous deposition equipment using plasma.

1 is a longitudinal sectional view schematically showing a polymer film continuous deposition apparatus using a plasma of the present invention.

Figure 2 is a longitudinal cross-sectional view showing in detail the gas supply structure of the present invention.

Explanation of symbols on the main parts of the drawings

11: process chamber 12: material

13: unwinder 14: winder

15,16: upper and lower electrodes 17: reaction gas supply pipe

18: non-reaction gas supply pipe 19: exhaust pipe

In order to achieve the above object of the present invention, a process chamber, an unwinder installed at one side of the process chamber to supply a material to the process chamber, and a wine installed at the other side to wind up the material discharged from the process chamber Further, the upper and lower electrodes disposed on the upper and lower sides of the material passing through the process chamber, a reaction gas supply pipe for supplying the reaction gas to the plasma forming region between the upper and lower electrodes, and the upper and lower parts Provided is a polymer film continuous deposition apparatus using plasma, comprising a non-reaction gas supply pipe for supplying the non-reaction gas to the outside of the electrode, and a gas exhaust pipe for exhausting the exhaust gas after reacting in the process chamber. do.

According to the present invention constituted as described above, while supplying the material of the sheet state to the process chamber in the unwinder and winding the material discharged from the process chamber in the winder while injecting the process gas into the interior of the process chamber The polymer is deposited on the surface of the material by generating a plasma between the upper and lower electrodes by applying power to the lower electrode and the material.

As described above, the process gas supplied to the process chamber supplies a reaction gas to the plasma forming region between the upper and lower electrodes, and supplies a non-reactive gas to the outer side of the upper and lower electrodes to form a plasma between the upper and lower electrodes. By supplying a certain amount to the region to participate in the reaction, as the reaction gas is intensively supplied to the plasma formation region, deposition is performed using a small amount of reaction gas.

Hereinafter, the polymer film continuous deposition apparatus using the plasma of the present invention as described above will be described in more detail with reference to the embodiments of the accompanying drawings.

1 is a longitudinal sectional view schematically showing a polymer film continuous deposition apparatus using a plasma of the present invention, Figure 2 is a longitudinal sectional view showing a gas supply structure of the present invention in detail.

As shown, the polymer film continuous deposition apparatus using the plasma of the present invention is provided with an unwinder 13 for supplying the material 12 to the process chamber 11 on one side of the process chamber 11, On the side, a winder 14 for winding the material 12 discharged from the process chamber 11 is provided.

In addition, the upper and lower electrodes 15 and 16 are fixed to the upper and lower sides of the material 12 passing through the process chamber 11, so that the upper and lower electrodes 15 are fixed inside the process chamber 11. The plasma can be formed by applying power to the material 16 and the material 12 passing therebetween.

In addition, a reaction gas supply pipe 17 for supplying a hydrocarbon gas, which is a reaction gas, is provided in the plasma formation region P between the upper and lower electrodes 15 and 16 on the front side of the process chamber 11. The upper and lower electrodes 15 and 16 and the non-reacted gas supply pipe 18 for supplying the non-reacted gas between the upper and lower surfaces of the inside of the process chamber 11 are disposed on the upper and lower parts of the process chamber 11. It is connected to the outer side, and a gas exhaust pipe 19 for discharging the exhaust gas after reacting in the process chamber 11 is provided at the rear of the process chamber 11.

In the polymer film continuous deposition apparatus using the plasma of the present invention configured as described above, the material 12 is supplied from the unwinder 13 to the inside of the process chamber 11, and the material 12 is supplied as such. The non-reacted gas is supplied to the inside of the process chamber 11 through the non-reaction gas supply pipe 18 in a state where the gas is wound around the winder 14 through the process chamber 11 and the reaction gas supply pipe 17 When power is applied to the electrodes 15 and 16 and the material 12 while supplying a hydrocarbon gas to the inside of the process chamber 11 through the plasma chamber P, the plasma P is formed between the upper and lower electrodes 15 and 16. Is formed and the polymer polymer is deposited on the surface of the material 12.

As described above, the non-reacted gas supplied into the process chamber 11 is supplied to the outer side of the upper and lower electrodes 15 and 16, and the hydrocarbon gas, which is the reaction gas, is the upper and lower electrodes 15. Most of the reactant gases supplied while being concentrated in the plasma forming region between the 16 and mixed with the non-reactant gases contribute to the deposition of the polymer.

That is, the gas shield is formed by the non-reaction gas supplied to the region other than the plasma formation region, and most of the reaction gas supplied to the plasma formation region of the process chamber 11 is mixed with the non-reaction gas to react. After participating in the flow is to be discharged to the gas exhaust pipe (19).

As described above in detail, in the polymer film continuous deposition apparatus using the plasma of the present invention, a reaction gas supply pipe is installed to supply the reaction gas to the plasma forming region between the upper and lower electrodes installed inside the process chamber. Since the reaction gas is mostly exhausted after the reaction for deposition, the deposition efficiency according to the reduction of the reaction gas is improved, the uniform deposition is made.

Claims (2)

A process chamber, an unwinder installed at one side of the process chamber for supplying material to the process chamber, a winder installed at the other side, and winding material discharged from the process chamber, and a material passing through the interior of the process chamber. A reaction gas supply pipe for supplying a reaction gas to the upper and lower electrodes disposed at upper and lower sides of the upper and lower electrodes, a plasma forming region between the upper and lower electrodes, and a non-reactive gas to supply the outer and upper electrodes. A polymer film continuous deposition apparatus using plasma, comprising an unreacted gas supply pipe and a gas exhaust pipe for discharging exhaust gas after reacting in the process chamber. The method of claim 1, wherein the reaction gas supply pipe is disposed on the upper and lower sides of the material to supply the reaction gas in the direction of movement of the material to form the same gas flow in the movement direction of the material using plasma Polymer film continuous deposition device.