KR101910661B1 - Resin separation apparatus from Carbon fiber using plasma - Google Patents

Abstract

The present invention relates to a carbon fiber resin separating apparatus using plasma, and more particularly, to a carbon fiber resin separating apparatus using a plasma, which can quickly and easily separate a resin from a carbon fiber cloth at a low cost and can simultaneously treat a large amount of carbon fiber cloth A resin separation chamber 10 in which a quartz 12 is provided on one side of a tubular shape having a predetermined length and a space formed therein and an electromagnetic wave generating unit 20 for generating an electromagnetic wave, And a waveguide 30 interconnecting the electromagnetic wave generator 20 and the resin separation chamber 10 to induce the electromagnetic wave generated by the electromagnetic wave generator 20 into the resin separation chamber 10 , A plurality of carbon fiber 1 strands are adhered to each other with a resin 2 so that the carbon fiber fabric is transported through the resin separation chamber 10, The carbon fiber (1) can be a plasma formed by ionizing the resin to make the separation between the carbon fiber to the resin using a characteristic of the plasma separating device, is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a carbon fiber-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a carbon fiber resin separator using plasma, and more particularly, to a carbon fiber separator using a plasma, which is capable of rapidly separating a synthetic resin binder from a carbon fiber fabric And a fiber resin separator.

Generally, carbon fiber refers to a fiber produced by firing (heating and carbonizing) an organic polymer fiber in an inert gas at about 1000 to 1300 ° C. It is excellent in heat resistance, impact resistance and chemical resistance, Since oxygen, hydrogen, and nitrogen molecules are separated in the process and weight is reduced, it is lighter than aluminum, but has higher elasticity and strength than iron.

Carbon fibers with these properties are used for sports equipment such as fishing rods, golf clubs and tennis racquets as well as lightweight materials and interior materials such as heat-resisting clothes, aircraft fuselages and heat-resisting materials, automobile parts and civil engineering construction, communication antennas, air purifiers and water purifiers And has been attracting attention as a high-performance industrial material in the field.

Since such a carbon fiber is very thin, a plurality of strands of carbon fibers are conventionally bonded with a synthetic resin binder (hereinafter referred to as " resin ") to form a carbon fiber fabric and flowed. (Dissolution and removal) process is performed to extract carbon fibers from the carbon fiber fabric, and then the carbon fibers extracted through the pressure roller are dispersed and disintegrated (disassembled).

In the conventional resin separating process, a carbon fiber fabric is taken out from a roller wound with a carbon fiber fabric, and the resin is melted and separated while passing through a heater or hot air or a heating device for applying hot air to the heater.

However, in the conventional heating apparatus for separating the resin, the resin is melted and dropped by its own weight. In this case, since the melts remain on the surface of the carbon fiber, it is necessary to heat the melted residues for a long time The length of the heating device reaches 10 m or more. In this case, since the equipment and heating cost are high and the occupied area is very large, it is inefficient, not easy to maintain and manage, There is a problem that the residual resin may remain in the resin, resulting in defective products.

1. Korean Patent No. 10-0965491

The present invention for solving the problems contained in the above-mentioned prior art is to provide a method of separating a carbon fiber fabric from a carbon fiber fabric, which can quickly, easily, and completely separate a resin from a carbon fiber fabric, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a carbon fiber resin separator using the plasma generator.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device including a resin separation chamber in which a space is formed and has a predetermined length and a quartz is provided on one side of the internal space,

An electromagnetic wave generating unit for generating an electromagnetic wave;

And a waveguide interconnecting the electromagnetic wave generator and the resin separation chamber to induce the electromagnetic wave generated by the electromagnetic wave generator into the resin separation chamber,

A plurality of carbon fiber strands are adhered to each other by a resin so that the carbon fiber fabric is transferred through the resin separating chamber while being transported, and a plasma is formed between the quartz and the carbon fibers to separate the resin.

According to the present invention, since the binder resin is separated from the carbon fiber fabric by using the plasma, maintenance and management costs can be reduced without a large occupied area (space) of the separator, and the plasma can be used to melt or vaporize the resin But it is ionized, so that the resin can be completely removed instantaneously and the defective rate of the product can be remarkably reduced.

1 is a perspective view of a main part of a carbon fiber resin separating apparatus using plasma according to an embodiment of the present invention.
2 is a sectional view taken along the line AA in Fig.
3 is a partial cross-sectional view of a carbon fiber resin separating apparatus using a plasma according to another embodiment of the present invention.
4 is a sectional view of the BB line in Fig. 3;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that there is no intention in the art to limit the present invention, as it is intended to be illustrative only and not for purposes of limitation, A detailed description thereof will be omitted.

1 is a principal perspective view of a carbon fiber separation apparatus using plasma according to an embodiment of the present invention, and Fig. 2 is a sectional view taken along line A-A of Fig.

1 and 2, the carbon fiber resin separator of the present invention mainly comprises a resin separation chamber 10, an electromagnetic wave generator 20, and a waveguide 30.

The resin separation chamber 10 is formed in a tubular shape having a predetermined length and a space therein. The quartz 12 is provided on one side of the internal space. The cross-sectional shape of the resin separation chamber 10 is not limited, Can be like a cylindrical tube.

The electromagnetic wave generating unit 20 is an apparatus for generating an electromagnetic wave M which can be a well-known electromagnetic wave generating apparatus, and the apparatus for generating an electromagnetic wave is a well-known technology applied to various technical fields. A detailed description thereof will be omitted.

The waveguide 30 interconnects the electromagnetic wave generator 20 and the resin separation chamber 10 to induce the electromagnetic wave M generated in the electromagnetic wave generator 20 into the resin separation chamber 10, .

In this state, while the plurality of carbon fiber 1 strands are adhered to the resin 2 and the carbon fiber fabric is fed through the inner space of the resin separation chamber 10, the electromagnetic wave generating unit 20 When the electromagnetic wave M generated in the quartz tube 12 reaches the quartz 12 in the resin separation chamber 10, the carbon fiber 1 acts as an electrode because it has electrical conductivity, Plasma is formed between the fibers (1).

The plasma thus formed rapidly decomposes the resin 2 by ionizing it, so that the resin 2 can be separated (removed) from the carbon fiber 1 quickly, easily, and easily.

The shape of the quartz 12 is not limited as long as the quartz 12 is disposed in proximity to the carbon fiber fabric. For example, the quartz 12 may be formed in a cylindrical tube shape having a space formed therein, , Wherein the carbon fiber fabric can be transported through the inner space of the tubular quartz (12).

At this time, at least a part of the outer surface of the tubular quartz 12 may be fixed in contact with any part of the inner surface of the resin separation chamber 10, and the waveguide 30 may be connected to the outer surface of the quartz 12 So that the electromagnetic wave M reaches the outer surface of the quartz 12.

FIG. 3 is a cross-sectional view of a carbon fiber-resin separating apparatus using plasma according to another embodiment of the present invention. FIG. 4 is a cross-sectional view of the BB line of FIG. And deformed into plate form.

3 and 4, the quartz 12 may be in the form of a plate having a predetermined thickness and area, wherein the carbon fiber fabrics 1 and 2 are made of quartz 12, So that they can be transported in a state of being spaced apart from each other by a predetermined distance.

In this case, the plate-like quartz 12 is disposed at a central portion of the space of the resin separation chamber 10, and a plurality of the waveguides 30 are connected to the resin separation chamber 10 to generate electromagnetic waves M Can be induced.

4, when the resin separation chamber 10 is a cylindrical tube, a plurality of the waveguides 30 may be radially connected, but the present invention is not limited to the cross-sectional shape of the resin separation chamber 10 and the shape of the waveguide 30, The present invention is not limited thereto.

It is necessary to minimize the space occupied by the elements supporting the quartz 12 in order to allow the electromagnetic waves M to reach the entire area of the plate-like quartz 12 in all directions.

The quartz 12 is supported by two support rods 40 in the form of thin rods or rods arranged in parallel with quartz 12 placed thereon, 42 and a connecting rod 44. [

The coupling ring 42 is formed in the form of a ring having a space therein so as to be coupled to the resin separation chamber 10 and allows the carbon fiber fabric to be pierced into the interior thereof, The coupling ring 42 and the support base 40 are interconnected and fixed.

With this configuration, it is possible to dispose the quartz 12 in the form of a central plate of the resin separation chamber 10, minimize the space occupied by the elements supporting the quartz 12, To the front of the quartz (12).

Therefore, a plasma is formed between the carbon fiber 1 serving as an electrode and the quartz 12 among carbon fiber fabrics transported at a distance close to the quartz 12, and the resin 2 is ionized to be decomposed (removed).

Although the present invention has been described in connection with the preferred embodiments described above, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All such changes and modifications are intended to be within the scope of the appended claims.

1: carbon fiber
2: Resin (binder resin)
10: Resin separation chamber
12: Quartz
20: Electromagnetic wave generator
30: Waveguide
40: Support
42:
44: Links

Claims (6)

A resin separating chamber in which a space is formed and a quartz is provided on one side of the internal space, the electromagnetic wave generating unit generating an electromagnetic wave; And a waveguide for interconnecting the electromagnetic wave generating unit and the resin separation chamber for guiding the inside of the chamber to the inside of the chamber, wherein a plurality of carbon fiber strands are adhered to the resin so that the carbon fiber fabric is transported through the resin separation chamber, And a plasma is formed between the carbon fibers and the carbon fibers to separate the resin,
Wherein the quartz is in the form of a plate having a predetermined thickness and area and the carbon fiber raw material is transported in a state of being spaced apart from a side of one side of the quartz in the form of a plate,
The plate-shaped quartz is disposed in a central portion of the space of the resin separation chamber, and a plurality of waveguides are connected to the resin separation chamber to induce electromagnetic waves in a plurality of places,
A ring in the form of a ring coupled with the resin separation chamber and having a space therein, a support rod in the form of a rod or rod having a predetermined length and supporting quartz in contact with one surface of the plate-like quartz and located in the center of the chamber, Further comprising a link for connecting the ring and the support to each other. delete delete delete delete delete

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