KR100941121B1 - Extremely clean spiral wound adsorption module and its manufacturing method - Google Patents

Abstract

The present invention relates to an ultra-sweeping spiral wound adsorption module and a method for manufacturing the same, and more particularly, by attaching a spherical adsorbent to a fiber sheet using an adhesive, and then constructing an adsorbing roll wound in a spiral shape. Breakthrough due to a collision can be prevented, and the adsorption agent is bonded to the mesh-shaped sheet at regular intervals, ultra-screw spiral type adsorption module and its manufacturing method to minimize the differential pressure during operation compared to the conventional adsorption bed It is about.

To this end, the present invention includes an adsorption roll formed at both ends of the inlet and the outlet, the adsorption roll is installed in a structure to spirally wound the fiber sheet to which the adsorbent is attached, the contaminated gas introduced through the inlet to the outlet side It provides an ultra-clean spiral wound adsorption module, characterized in that the pollutants contained in the polluting gas is adsorbed by the adsorbent and the clean gas is discharged through the outlet while moving.

Adsorption, spiral wound, sheet, winding, roll

Description

Spiral wound type of adsorbent module for ultra super cleanliness}

The present invention relates to an ultra-ultra spiral wound type adsorption module and a method for manufacturing the same, and more particularly, a spherical adsorbent is adhered at a predetermined interval on a fiber sheet such as a nonwoven fabric or a mesh to form a sheet, and then wound in a spiral shape. The present invention relates to a ultra-sweeping spiral wound adsorption module constituting an adsorption roll having a size and a manufacturing method thereof.

In general, production lines that produce various products are equipped with air conditioning equipment to keep indoor air clean by discharging pollutants such as dust and dust generated during product production to the outside.

Particularly, when manufacturing a semiconductor in a semiconductor production line, fine dust, acidic oxides such as NO _X or SO _X, and basic gases such as ammonia gas are generated, and these contaminants increase the defect rate of semiconductors and produce them in highly integrated semiconductor processes. It also causes a failure in facilities, and it is impossible to achieve high integration and high efficiency of semiconductor processes.

Therefore, a high performance air conditioner system is essential in the semiconductor process. And the air conditioner system is easy to repair and the longer the replacement cycle of the filter, the better.

However, in order to utilize the adsorbent in the ultra-clean process such as the semiconductor process, it is necessary to prevent the adsorbent breakthrough (crushing) and the second contamination caused by the collision between the adsorbents in the adsorption tower (or the adsorption bed). That is, the adsorbent debris generated due to the collision between the adsorbents must be removed again.

Recently, various studies have been conducted to improve the strength of the adsorbent while maintaining the adsorption performance of the adsorbent.

In general, the more adsorbents are installed in the adsorption tower with the same volume, the adsorption efficiency increases, but the space between adsorbents through which adsorbed material (gas or vapor) passes decreases and the differential pressure increases accordingly. .

Therefore, in the case of the air conditioning system consisting of the adsorption process, efforts have been made in various ways to minimize the occurrence of the differential pressure due to the adsorbent.

The present invention has been made in view of the above, by attaching a spherical adsorbent to the fiber sheet using an adhesive, and then forming a suction roll wound in a spiral, it is possible to prevent breakage due to collision between the adsorbent during operation. It is an object of the present invention to provide an ultra ultra-clean spiral wound adsorption module and a method of manufacturing the same, in which an adsorbent is adhered to a mesh sheet at regular intervals, thereby minimizing differential pressure during operation compared to a conventional adsorption bed.

The present invention for achieving the above object is in the ultra-clean spiral wound adsorption module,

It includes an adsorption roll formed in the inlet and outlet on both ends, the adsorption roll is installed in a spiral winding structure of the fiber sheet adsorbent adhering, the polluted gas introduced through the inlet is contained in the polluted gas while moving to the outlet side The pollutant is adsorbed by the adsorbent, characterized in that the clean gas is discharged through the outlet.

In a preferred embodiment, the adsorbent is a spherical adsorbent, characterized in that attached to the fiber sheet at regular intervals in the transverse and longitudinal directions.

In a more preferred embodiment, the fibrous sheet is characterized in that the corpus or mesh form.

In addition, the fiber sheet is characterized in that the material is excellent in heat resistance, including fibrous polyester (PES) or polypropylene (PP).

In addition, the adsorbent is attached to the fiber sheet is spirally wound on the center rod, the contaminant gas is introduced through the inlet of the adsorption roll, it is characterized in that the contaminants are adsorbed to the adsorbent by moving in the longitudinal direction.

In particular, the fiber sheet with the adsorbent is spirally wound around the center tube, a hollow portion is formed inside the center tube, one end of the center tube is opened, the other end of the center tube is installed in a structure that is blocked. It is done.

The adsorption roll is installed in a structure in which the inlet port of the adsorption roll is blocked except the inlet of the center tube, and the contaminated gas introduced through the inlet of the center tube is radially dispersed through the through hole formed on the outer circumferential surface of the center tube in the longitudinal direction. Moving to, characterized in that the pollutant is adsorbed to the adsorbent.

According to another aspect of the present invention, in the manufacturing method of ultra-ultra spiral type adsorption module,

Adhering the spherical adsorbent to the fiber sheet in mesh form at regular intervals using an adhesive; And spirally winding a fiber sheet having a spherical adsorbent attached to the central rod to manufacture an adsorption roll. The pollutant gas is introduced through the inlet of the adsorption roll, and contaminants contained in the contaminant gas are absorbed into the adsorbent. After being adsorbed, clean gas is discharged through the outlet of the adsorption roll.

In addition, the step of manufacturing the adsorption roll consists of winding the spirally attached fiber sheet with the spherical adsorbent one end (inlet) in a central tube, the center tube with the inlet of the adsorption roll blocked. The polluted gas introduced through the inlet of the ball is moved in the longitudinal direction while being radially distributed on the adsorption roll, so that the pollutant is adsorbed.

As seen above, according to the ultra-ultraviolet spiral winding adsorption module and a manufacturing method thereof according to the present invention, by attaching a spherical adsorbent to a fiber sheet using an adhesive, and then forming a suction roll to spirally wound, The breakthrough due to the collision between the adsorbents can be prevented, and the adsorbent is adhered to the mesh sheet at regular intervals, thereby minimizing the differential pressure during operation compared to the conventional adsorptive bed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view for explaining the configuration of the ultra-ultraviolet spiral suction module according to the present invention, Figure 2 is a cross-sectional view of Figure 1, Figure 3 is a suction module according to an embodiment of the central rod in Figure 1 4 is a cross-sectional view showing an operating state, Figure 4 is a cross-sectional view showing an operating state of the adsorption module according to another embodiment of the center tube in FIG.

As described above, in the case of a conventional adsorbent used in an ultra-clean process such as a semiconductor process, crushing of the adsorbent due to the collision between the adsorbents and the secondary pollutants are generated thereby. In addition, the differential pressure caused by the adsorbent is generated.

In order to solve this problem, the present invention adheres the adsorbent 10 at regular intervals on a nonwoven fabric or mesh form sheet, and then provides a structure in which the sheet 11 is wound in a spiral shape, thereby preventing the adsorbent 10 from colliding. And differential pressure generation can be prevented.

More specifically, as shown in FIG. 1, the adsorbent is attached to the adsorbent fiber sheet 11 such as a nonwoven fabric or a similar cloth at regular intervals using an adhesive. The similar cloth is a material capable of passing a gas such as air, such as a nonwoven fabric, and the material of the fibrous sheet 11 is generally a material having excellent heat resistance such as fibrous polyester (PES) and polypropylene (PP). In addition, the fiber sheet 11 may be designed differently according to the size of the mesh (MESH, mesh).

Since the adsorbent 10 is formed in a spherical shape, it is possible to improve the adsorption efficiency of the pollutants by maximizing the contact area with the gas containing the pollutants.

The adsorbent 10 is bonded to the fiber sheet 11 so as to be aligned at regular (same) intervals along the transverse direction (width direction) and the longitudinal direction (direction in which the fiber sheet is wound). At this time, the interval between the adsorbents 10 should be able to maintain a space to prevent the differential pressure caused by the adsorbent 10 while maintaining the existing adsorption efficiency.

Since the adsorbents 10 are arranged in parallel in a row, the space between the adsorbents 10 attached to the fiber sheet 11 in the lateral direction (the longitudinal direction of the adsorption module) may allow particles of contaminated gas to pass in a straight line. To form a flow path.

In addition, the space between the adsorbents 10 attached to the fiber sheet 11 in the longitudinal direction (radial direction of the adsorption module) forms a flow path so that particles of contaminated gas can be easily dispersed in the radial direction.

The adhesive used to adhere the adsorbent 10 to the fiber sheet 11 may be any adhesive means as long as it is a material known to those skilled in the art, and the contaminated gas at the position where the adsorbent 10 is aligned with the fiber sheet 11. Even if it adsorbs pollutants, it should be possible to fix it without movement.

The fiber sheet 11 to which the adsorbent 10 is adhered is installed in a structure in which a proximal end is attached to the central rod 12 and wound in a spiral shape, and the central rod 12 may have a tubular shape or a solid shape in which both ends are blocked. have.

At this time, both ends of the suction roll 13 wound in the helical shape are supported by the inlet port 14 and the outlet port 15, and the outer circumferential surface of the suction roll 13 is blocked so that gas is not dispersed to the outside. The inlet 14 and the outlet 15 may be capped to both ends of the suction roll 13 in the form of a cap (CAP).

Referring to the first operation method of the adsorption module according to an embodiment of the present invention according to the above structure as follows.

The pollutant gas is introduced through the inlet 14, the fiber sheet 11 having the adsorbent 11 adsorbed thereon by the adsorption roll 13 wound in a spiral shape, and the outlet 15 is closed. Clean gas is discharged through.

At this time, the inlet 14 of the adsorption roll 13 is opened so that the contaminant gas is adsorbed to the adsorbent 11 of the adsorption roll 13 while the contaminated gas moves from the right side to the left over the entire diameter area, and the center rod 12 ) And the adsorption roll 13 is blocked, so that contaminated gas cannot move from the adsorption roll 13 to the center rod 12.

Referring to the structure and operation method of the adsorption module according to another embodiment of the present invention. At this time, the description of the difference between the embodiment of the present invention, the components that are not described are the same as the configuration and operation of the embodiment.

According to another embodiment of the present invention, the inlet port 24 of the adsorption roll 23 is blocked, and the inlet of the center tube 22 is open, so that contaminant gas flows only into the center tube 22 and the center tube 22 is closed. The contaminant gas is radially dispersed from the center tube 22 to the adsorption roll 23 through the through hole formed on the outer circumferential surface, and is installed in a structure moving from right to left.

At this time, the opposite end of the center tube 22 is blocked, so that the contaminated gas introduced through one end of the center tube 22 is dispersed only by the adsorption roll 23, and the contaminated gas dispersed by the adsorption roll 23 is The adsorbed substance (pollutant) is adsorbed by the adsorbent 10 while moving from right to left, and clean gas is discharged through the outlet 15.

Therefore, in the present invention, by adhering the adsorbent 10 to the fiber sheet 11 at regular intervals using an adhesive, the adsorbents 10 and 13 are wound in a spiral manner, thereby forming a collision between the adsorbents 10 during operation. It is possible to prevent breakage due to, the adsorbent 10 is bonded to the mesh sheet 11 at regular intervals, it is possible to minimize the differential pressure during operation compared to the conventional adsorptive bed.

Although the present invention has been illustrated and described with respect to specific preferred embodiments, the invention is not limited to these embodiments, and the invention is claimed in the claims by one of ordinary skill in the art to which the invention pertains. It includes all embodiments of the various forms that can be carried out without departing from the spirit of the invention.

1 is a perspective view for explaining the configuration of a ultra-ultra spiral type suction module according to the present invention,

2 is a cross-sectional view of FIG. 1,

Figure 3 is a cross-sectional view showing an operating state of the adsorption module according to an embodiment of the central rod in Figure 1,

Figure 4 is a cross-sectional view showing an operating state of the adsorption module according to another embodiment of the center tube in FIG.

<Description of the symbols for the main parts of the drawings>

10: adsorbent 11: fiber sheet

12: center rod 13,23: adsorption roll

14,24: inlet 15: outlet

22: center tube

Claims (9)

delete delete delete delete delete In the ultra-clean spiral wound adsorption module, It includes an adsorption roll formed in the inlet and outlet at both ends, the adsorption roll is installed in a spiral winding structure of the non-woven fabric or mesh-like fiber sheet adsorbent adhering, the contaminated gas introduced through the inlet is moved to the outlet side Pollutants contained in the contaminated gas are adsorbed by the adsorbent, and clean gas is discharged through the outlets. The fiber sheet to which the adsorbent is attached is spirally wound around the center tube, a hollow part is formed inside the center tube, one end of the center tube is opened, and the other end of the center tube is installed in a closed structure. Extremely clean spiral wound adsorption module. The method according to claim 6, The adsorption roll is installed in a structure in which the inlet port of the adsorption roll is blocked except the inlet of the center tube, and the contaminant gas introduced through the inlet of the center tube is radially dispersed through a through hole formed in the outer circumferential surface of the center tube. Moving in the direction, ultra-clean spiral wound adsorption module, characterized in that the adsorbed pollutants to the adsorbent. delete In the manufacturing method of ultra-ultra spiral type adsorption module, And attaching the spherical adsorbent to the mesh sheet of the fibrous sheet at regular intervals, and spirally winding the fibrous sheet having the spherical adsorbent attached to the center rod to prepare an adsorption roll. The pollutant gas is introduced through the inlet of the adsorption roll so that contaminants contained in the pollutant gas are adsorbed to the adsorbent, and then clean gas is discharged through the outlet of the adsorption roll. The manufacturing of the adsorption roll consists of spirally winding the fiber sheet to which the spherical adsorbent is attached to a central tube having one end (inlet) open, and the inlet of the adsorption roll is blocked while the inlet of the adsorption roll is blocked. The method of manufacturing a ultra-screw spiral type adsorption module for the ultra-clean, characterized in that the polluted gas introduced through the radially dispersed in the adsorption roll is moved in the longitudinal direction and the pollutants are adsorbed.

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