KR100806271B1 - Apparatus for trapping semiconductor residual product - Google Patents

Abstract

An apparatus for trapping semiconductor reaction byproducts is provided to easily remove collected reaction byproducts by installing reaction byproducts trapping apparatus in a pipe line like an H-type pipe. An inlet and an outlet are respectively formed on the upper and lower surfaces of a hollow body. A collection box whose one surface is open is formed at the outlet in the body. A plurality of plates are disposed on the upper surface of the collection box, vertically running in parallel with each other and separated from each other by a predetermined interval. A heater is inserted into one surface of the body to penetrate the plurality of plates. Reaction byproducts are introduced into the inlet of the hollow body, sequentially penetrate the plates, and are exhausted to the outlet of the hollow body via the collection box. At least one of the plates is extended to the open portion of the collection box. The inlet and outlet of the hollow body can cross each other.

Description

Semiconductor Reaction Byproduct Trap Device {APPARATUS FOR TRAPPING SEMICONDUCTOR RESIDUAL PRODUCT}

The present invention relates to a semiconductor reaction byproduct trap device, and more particularly, to actively prevent the reaction byproducts generated in the process chamber from being sucked into the vacuum pump during deposition and etching of the thin film, and to effectively capture the reaction byproducts. Improved trapping effect and collection capacity of reaction by-products by securing the maximum area, and easy removal of collected reaction by-products, and improved semiconductor reaction by-product traps applicable to “h” type pipes with narrow space in piping lines Relates to a device.

In general, the semiconductor manufacturing process is largely divided into a pre-process (Fabrication process) and a post-process (Assembly process), the pre-process is to deposit a thin film on a wafer (wafer) in various process chambers (Chamber), It is a process of manufacturing a so-called semiconductor chip by repeatedly performing a process of selectively etching a thin film that has been processed, and a post process refers to a process of separately separating chips manufactured in the previous process. After that, it refers to the process of assembling the finished product by combining with the lead frame.

The process of depositing a thin film on the wafer or etching the thin film deposited on the wafer uses a process gas such as hydrogen and harmful gases such as silane, arsine and boron chloride in a process chamber. It is carried out at a high temperature, a large amount of harmful gases such as various ignitable gases, corrosive foreign substances and toxic components are generated in the process chamber during the process.

On the other hand, in the semiconductor manufacturing equipment is installed a scrubber (Scrubber) to purify the exhaust gas discharged from the process chamber to the atmosphere at the rear end of the vacuum pump to make the process chamber in a vacuum state. At this time, when the exhaust gas discharged from the process chamber is in contact with the atmosphere or the ambient temperature is low, the exhaust gas is solidified into a powder. When the powder is adhered to the exhaust line to increase the exhaust pressure and flow into the vacuum pump There is a problem of causing a failure of the vacuum pump and causing a backflow of the exhaust gas to contaminate the wafer in the process chamber.

The prior art semiconductor reaction byproduct trap device for capturing reaction byproducts generated during deposition or etching of a thin film in the process chamber is disclosed by Applicants New Protec Co., Ltd. and Lee Seung-ryong (Patent Application No. 2005-0045158). (A semiconductor reaction byproduct trap device).

As shown in the figure, a hollow cooling chamber in which a cooling line is installed along the inner wall; It comprises a heating chamber which is spaced apart from the inner wall of the cooling chamber in the hollow portion of the cooling chamber and the reaction by-product flows from the process chamber, the cooling chamber, the first connection for connecting to the process chamber and the vacuum pump A first housing having a second connector for connection, installed in a plurality of layers in the interior of the first housing, the central portion of which includes first plates having through holes sufficient to fit the heating chamber, and first plates It is configured to include a plurality of supporting bars installed through to support the first plate.

The semiconductor reaction byproduct trap device according to the related art configured as described above includes a heating chamber inside the cooling chamber that maintains a temperature at which the phase change of the reaction byproducts such as unreacted gas introduced into the process chamber is possible. Since the by-products are introduced into the cooling chamber in a state where the powder is rapidly changed, the reaction chamber can trap the reaction by-products in the powder state more quickly.

In the above-described semiconductor by-product trap device, a heating chamber is maintained inside the cooling chamber to maintain a high temperature such that a phase change of the reaction by-products such as unreacted gas introduced into the process chamber is possible. Accordingly, since the reaction by-products are rapidly introduced into the cooling chamber in a state of being changed into powder, the reaction by-products in the powder state can be trapped more quickly in the cooling chamber.

However, since the second housing of the heating chamber is located inside the first housing of the cooling chamber, it is expected that the reaction by-products will not be converted into powder in the heating chamber. In addition, since the directions of the first connector and the second connector are at a right angle to each other, the flow of the reaction by-products is not smooth. In addition, the above-described powder trap device of the prior art had a problem that it is difficult to apply to the "h" -type pipe, etc. in the piping line because of the narrow space.

The present invention is to solve the above problems, the object of the present invention is to apply the "h" type of the pipe line of the narrow space, etc. to increase the collection effect and the collection capacity of the reaction by-products and to easily collect the reaction by-products To provide an improved semiconductor reaction byproduct trap device that can be removed easily.

In order to achieve the above objects, the present invention

A semiconductor reaction byproduct trap device which collects reaction by-products generated during deposition and etching of a thin film in a process chamber and is installed in a piping line to prevent the reaction by-products from being transferred into a vacuum pump.

A hollow body having inlets and outlets respectively formed on upper and lower surfaces thereof;

A dust collecting container provided at the outlet side inside the body and having one side open;

A plurality of plates disposed on an upper surface of the dust collecting container and arranged in parallel to each other at predetermined intervals with respect to each other; And

A heater fitted to one side of the body and installed through the plates; Including,

The reaction by-products are introduced through the inlet of the body and sequentially pass through the plates and then discharged to the outlet via the dust collecting container, and at least one of the plates extends to an open portion of the dust collecting container. By providing a trap device.

Preferably the inlet and outlet of the body are staggered with respect to each other.

A plurality of through holes are formed in the plates, and the through holes of the plates are alternately disposed with respect to each other.

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Preferably, the body is rectangular.

The semiconductor reaction by-product trap device according to the present invention is installed in a pipe line such as a "h" type pipe having a narrow space in a pipe line to increase the collection effect and the collection capacity of the reaction by-products and can easily remove the collected reaction by-products. It has an effect. In particular, the dust collector installed in the hollow in the housing can maximize the collection effect because it collects the reaction by-product in a double.

Hereinafter, with reference to the accompanying drawings, the contents of the present invention through the embodiments are described above. The following examples are by way of example only and are not intended to limit the scope of the invention.

1 is a view showing the assembly of the piping line 102, the blower 104 and the vacuum pump 106 to which the semiconductor by-product trap device according to an embodiment of the present invention is applied. FIG. 2 is an overall perspective view of the semiconductor by-product trap device 100 of the present invention in FIG. 1. FIG. 3 is a view of a semiconductor by-product trap device in a partially cut state in FIG. 1, to show an internal structure. 4 is a front view of FIG. 2.

1 to 4, the semiconductor reaction byproduct trap device 100 according to the present invention collects reaction by-products generated during deposition and etching of a thin film in a process chamber (not shown), and the reaction by-products are vacuum pumps ( 106 is mainly installed in, but not limited to, piping line 102, ie, “h” type piping, to prevent delivery into the tube.

The body 110 has a hollow hollow shape, and the inlet 112 and the outlet 114 are formed on the ceiling surface and the bottom surface. The inlet 112 is preferably approximately staggered with respect to the outlet 114. This is to apply to the pipe line 102 of the "h" shape (see Figure 4). That is, the piping line 102 is coupled to the inlet 112 and the outlet 114, respectively. Body 110 is preferably formed in a rectangular shape, other shapes are possible. The rectangular body 110 is easy to manufacture is further improved workability.

Plate 120 is provided with a plurality, the plates 120 are disposed on the inside of the body 110, that is, the upper surface of the dust collecting container 130 to be described later, are installed in parallel to each other perpendicularly. A plurality of through holes 122 penetrate the surfaces of the plates 120. Here, when the plates 120 are horizontally arranged with each other, the plates 120 positioned at the top and the bottom thereof are preferably staggered with respect to the respective through holes 122. This is to increase the surface area to improve the collection capacity of the reaction by-products.

Dust collector 130 is provided at the inlet 112 in the body (110). Dust collector 130 is formed in an open state in one direction.

The heater 140 is installed through one side of the housing 110. At least one heater 140 is preferably provided.

The reaction by-products are introduced through the inlet 112 of the body 110 and sequentially pass through the plates 120 and then discharged to the outlet 114 via the dust collecting container 130.

The operation of the semiconductor reaction byproduct trap device according to the preferred embodiment of the present invention having the structure as described above will be described with reference to the accompanying drawings.

Again, referring to FIGS. 1 to 4, reaction by-products generated during deposition and etching of a thin film in a process chamber (not shown) are first introduced into the body 110. The reaction by-products thus introduced are primarily collected at the bottom of the dust collecting container 130.

Subsequently, the remaining reaction by-products pass through the plurality of plates 120 and are discharged to the outlet 114 via the dust collecting container 130. That is, one through-hole 122 formed in the plate 120 on the left side is disposed not directly in proximity to the through-hole 122 formed in the plate 120 on the right side. In this process, the plurality of plates 120 are passed through the through holes 122 (the movement path of the reaction by-products is indicated by arrows in FIG. 4).

Here, the collection efficiency is further improved because one of the plates 120 is extended and closed in an open portion of the dust collecting container 130. At this time, some of the reaction by-products introduced into the dust collecting container 130 are collected at the bottom of the dust collecting container 130.

Through this process, after the reaction by-products are collected by the trap apparatus 100 of the present invention, the gas containing no reaction by-products is discharged to the vacuum pump (not shown) through the outlet 114.

As a result, in the present invention, the dust collecting container 130 is installed in the housing 110. For this reason, the reaction by-products are first collected in the plate 120, and then the remaining reaction by-products are collected by the dust collector 110. In particular, in the present invention, it is easy to apply to the "h" shaped pipe line 102 rather than straight.

1 is a perspective view of a piping line, a blower and a vacuum pump assembly to which a semiconductor by-product trap device is applied according to an embodiment of the present invention;

2 is an overall perspective view of the semiconductor by-product trap device of the present invention in FIG.

FIG. 3 is a perspective view of a semiconductor by-product trap device in a partially cutaway state in FIG. 1; FIG. And

4 is a front view of FIG. 2.

Explanation of symbols on the main parts of the drawings

100: trap device 102: piping line

104: blower 106: vacuum pump

110: body 112: inlet

114: outlet 120: plate

122: through air 130: dust collecting

140: heater

Claims (5)

A semiconductor reaction byproduct trap device which collects reaction by-products generated during deposition and etching of a thin film in a process chamber and is installed in a piping line to prevent the reaction by-products from being transferred into a vacuum pump. A hollow body having inlets and outlets respectively formed on upper and lower surfaces thereof; A dust collecting container provided at the outlet side inside the body and having one side open; A plurality of plates disposed on an upper surface of the dust collecting container and arranged in parallel to each other at predetermined intervals with respect to each other; And A heater fitted to one side of the body and installed through the plates; Including, Reaction by-products are introduced through the inlet of the body and pass through the plates in turn and then discharged to the outlet via the dust collecting container, wherein at least one of the plates extends to an open portion of the dust collecting container. Semiconductor reaction byproduct trap device. The device of claim 1, wherein the body is rectangular. The device of claim 2, wherein the inlet and outlet of the body are staggered with respect to each other. The apparatus of claim 1, wherein a plurality of holes are formed in the plates, and the holes of the plates are alternately disposed with respect to each other. delete

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