KR100317205B1 - Shaking table - Google Patents

Abstract

The present invention relates to a vibrating table that can be uniformly coated on the surface when coating the specimen by using a plasma, the present invention is a tray installed in the chamber, a motor provided with a cam on the rotating shaft through the chamber, the interior of the chamber Rails hypothesized on the bottom surface, fixed shaft that is fixed to one end is fixed to the chamber and the other end is sliding while supporting the tray and one end is fixed to the lower surface of the tray and the other end is disposed on the rail and connected to the fixed shaft and the spring And a moving shaft reciprocating in accordance with the rotation of the motor by being in contact with the cam.

Accordingly, since the cam is installed on the rotating shaft connected to the motor, and the moving shaft in contact with the cam vibrates by the rotation of the motor, the tray shakes, the steel balls placed on the tray are rolled up and down, so that the surface is uniformly coated by the plasma. .

Description

Vibration Table {SHAKING TABLE}

The present invention relates to a vibration table, and more particularly, to a vibration table that can be uniformly coated on the surface of a round shaped product, such as steel balls when the coating process is performed by chemical vapor deposition using plasma.

The method of uniformly coating the specimen using plasma is roughly classified into physical vapor deposition (PVD) and chemical vapor deposition (CVD).

In the former physical vapor deposition method, the specimen is fixed to the specimen holder and the specimen holder is rotated to induce the coating evenly on the surface of the specimen.In this case, the coating of the complex shape is difficult because the ionized elements move linearly. Applying power to the specimen holder and adjusting the applied voltage to induce a uniform coating of the complex shape, and also to control the number of rotation of the specimen holder to coat the complex shape.

In the latter chemical vapor deposition method, the flow of incoming gas is controlled to evenly coat the specimen surface. In this case, since the coating is performed by the mutual chemical reaction of the introduced gases, the uniform coating of the product is easier than physical vapor deposition. However, it is difficult to uniform the coating over the entire area of the product by controlling the gas inflow rate. Thus, many researchers are studying how to distribute the amount of incoming gas evenly into the chamber, and one of them uses a method of controlling the gas inflow rate. This method is to reduce the amount of incoming gas and to suppress the vortex caused by the inflow and exhaust inside the chamber so that the reaction gas remains inside the chamber for as long as possible to coat the entire area of the product evenly.

However, physical vapor deposition and chemical vapor deposition using plasma must have a specimen holder and a specimen support to hold the specimen. Because it is put on, the area in contact with the support is not coated.

Particularly, round shaped products, such as steel balls, do not have a uniform coating in the conventional apparatus, although the whole should be uniformly coated.

The present invention devised to solve this problem is an object of the present invention to provide a vibrating table that can be uniformly coated when coating a round-shaped product such as steel balls using a plasma.

1 is a side view schematically showing a vibration table according to an embodiment of the present invention;

Figure 2 is a plan view schematically showing a vibration table according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

2: chamber 4: support

6: Tray 8: motor

10: rotating shaft 12: cam

14: Fixed axis 16: Teflon

18: rail 20: guide member

22: Spring 24: Steel ball

In order to achieve the above object, the present invention is disposed inside the chamber, the tray on which the specimen is placed, a motor installed with a cam on a rotating shaft passing through the chamber, a rail installed on the inner bottom of the chamber, and one end fixed to the chamber. A fixed shaft having one end being slid while supporting the tray and one end fixed to a lower surface of the tray, and the other end disposed on the rail, connected to the fixed shaft and a spring, and contacting the cam, thereby reciprocating according to the rotation of the motor. Consisting of a moving shaft.

The tray is preferably supported by a predetermined number of supports fixed inside the chamber.

In addition, a jaw protruding upwardly is formed at the edge of the tray to prevent the specimen placed on the tray from falling outward.

And, it is preferable that an insulator is installed at the connection portion between the fixed shaft and the chamber.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a side view schematically showing a vibration table according to a preferred embodiment of the present invention, Figure 2 is a plan view schematically showing a vibration table according to a preferred embodiment of the present invention.

2 is a chamber. On the inner bottom of the chamber 2, a predetermined number of supports 4 are fixed in the vertical direction. At this time, the support 4 is preferably used when the weight of the specimen to be placed on the tray 6 to be described later is heavy.

The tray 6 mounted on the above-described support 4 is a flat plate, and a jaw protruding upwardly is formed at the edge to prevent the specimens and the like placed on the tray 6 from falling out.

A motor 8 is positioned below the bottom of the chamber 2, and the rotary shaft 10 of the motor 8 penetrates the bottom of the chamber 2 to protrude into the chamber 2, and the rotary shaft 10 The cam 12 is installed.

On the other hand, the inner surface of the bottom surface of the chamber 2 is formed with a fixed shaft 14 which is vertically fixed while penetrating the chamber 2 as an insulator between the chamber 2 and the fixed shaft 14 for insulation. Teflon 16 is fitted.

And the side of the fixed shaft 14, the rail 18 is installed on the bottom of the bottom of the chamber 2, the moving shaft 20 is erected in the vertical direction on the rail 18 is fixed to the lower surface of the tray (6) It comes in contact with the cam 12 described above.

The moving shaft 20 and the fixed shaft 14 is connected by a spring 22, preferably by a compression spring.

The vibration table of the present invention configured as described above exhibits the following operation.

When the motor is rotated, the cam 12 is also rotated as the rotating shaft 10 is rotated, and the moving shaft 20 in contact with the cam 12 vibrates upon sliding on the rail 18.

Therefore, since the movable shaft 20 is fixed to the tray 6, the tray 6 placed on the support 4 vibrates, and the steel balls 24, which are the specimens placed thereon, are rolled up and down and coated. will be.

As described above, the preferred embodiment of the present invention substantially solves the conventional problems.

That is, since the cam is installed on the rotating shaft connected to the motor, and the moving shaft in contact with the cam vibrates by the rotation of the motor, the tray is shaken, so that the steel balls placed on the tray are rolled around and the surface is uniformly coated by the plasma.

Claims (4)

In the apparatus for coating the specimen inside the chamber, A tray disposed in the chamber and on which the specimen is placed; A motor having a cam installed on the rotating shaft passing through the chamber; A rail installed on an inner bottom of the chamber; A fixed shaft having one end fixed to the chamber and the other end sliding while supporting the tray; And One end is fixed to the lower surface of the tray and the other end is disposed on the rail, the vibration table, characterized in that consisting of a moving shaft which is connected to the fixed shaft and the spring and reciprocated in accordance with the rotation of the motor by contacting the cam. The vibration table according to claim 1, wherein the tray is supported by a predetermined number of supports fixed inside the chamber. The vibrating table of claim 1, wherein a jaw protruding upward is formed at an edge of the tray. The vibration table according to any one of claims 1 to 3, wherein an insulator is provided at a connection portion between the fixed shaft and the chamber.