KR102262039B1 - Filter for Dust Collector using Catalyst - Google Patents

Abstract

The filter for a filter dust collector using the catalyst of the present invention has a plurality of inner and outer protrusions 11 and 12 respectively protruding inward and outward so as to be alternately formed in a corrugated star shape inward and outward along the circumferential direction, a filter bag body 10 having a cylindrical shape elongated from the top to the bottom; Between the inner and outer mesh networks 21 and 22, which are inserted into the filter bag main body 10, which are filled with catalyst and are formed to be elongated in the longitudinal direction, and the inner and outer mesh networks 21 and 22 a catalyst module 20 comprising a catalyst layer 23 filled in; an upper coupling part 30 coupled to an upper end of the filter bag body 10 and an upper end of the catalyst module 20 and coupled to a fixing plate to which the filter bag body 10 is fixed; a lower cap 40 coupled to the lower end of the filter bag body 10 and finishing to seal the lower end of the filter bag main body 10; It is characterized in that it comprises a.

Description

Filter for Dust Collector using Catalyst

The present invention relates to a filter for a filter dust collector using a catalyst having a simple structure that efficiently filters not only dust but also gaseous pollutants such as NOx and maintains the shape of the filter when polishing the filter.

In general, a filter dust collector is a traditional air pollution prevention facility that uses a filter cloth as a filter and removes dust by the mechanism of collision, blocking, diffusion, and static electricity.

This device sucks air containing dust and passes it through several filter cloths to collect the dust, and a cylindrical filter bag is usually used.

The conventional filter bag cuts the fabric in the transverse direction to a predetermined width, cuts the transversely cut fabric in the longitudinal direction to a predetermined length, and connects the cut filter fabrics each having a predetermined length and width in a predetermined cylindrical shape. form a side seam;

When the length of the cylindrical filter bag becomes long, the strength for maintaining the shape of the filter bag is low, and a shape retaining tool such as a mesh network type for maintaining the shape of the filter is inserted into the filter and used.

On the other hand, if dust accumulates too much on the outer periphery of the filter, it causes serious resistance and prevents air circulation. In order to maintain the shape of the filter during polishing, a filter shape maintaining device for maintaining the shape of the filter is installed outside the filter.

Most of these filter shape maintaining devices are formed of a cylindrical metal mesh by joining a plurality of metal rods that are spaced apart at regular intervals and installed long in the longitudinal direction and a plurality of circular rings.

Such a metal mesh body has a problem in that the shape of the filter cannot be maintained during long-term use because marks are left by the metal rod and ring on the part in contact with the inner surface of the filter during dust collection.

In addition, in the worst environment with high temperature and high humidity containing dust, contamination, and chemical components, the bonding area between the metal rod and the ring is easily corroded and the strength of the bonding area is lowered. In particular, the bonding area is separated during filter polishing. As a result, there is a problem in that the shape of the filter cannot be maintained.

In some cases, the filter shape maintaining device is a cylindrical body having a plurality of through holes. However, in the case of forming a cylindrical body, the metal plate is rolled into a cylindrical shape and both ends are abutted or overlapped and welded, or formed into a cylindrical body using drawing, drawing, etc. will do

However, in the case of such a cylindrical body, since a thick metal plate must be used to maintain a certain strength, the filter shape maintaining device is heavy and material cost is high.

In this way, when a shape maintaining device such as a mesh network is inserted into the inside of the filter and a filter shape retention device is used to maintain the shape of the filter when polishing the outside of the filter, the structure of the filter bag becomes complicated. have.

In addition, the material of the filter bag is synthetic resin, etc. When filtering fine dust particles and gaseous pollutants, it is easy to filter the air containing dust, but the removal of gaseous pollutants such as NOx is not performed properly. There is a problem that it doesn't.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a filter for a filter dust collector using a catalyst to efficiently filter gaseous pollutants such as NOx as well as dust.

Another object of the present invention is to provide a filter for a filter dust collector using a catalyst having a simple structure to maintain the shape of the filter during filtration and polishing.

A filter for a filter dust collector using the catalyst of the present invention for achieving the above object is a plurality of inner and outer protrusions 11 each protruding inward and outward to form a corrugated star shape alternately inward and outward along the circumferential direction. , 12) is formed, the filter bag body 10 of a cylindrical shape elongated from the top to the bottom; Between the inner and outer mesh networks 21 and 22, which are inserted into the filter bag main body 10, which are filled with catalyst and are formed to be elongated in the longitudinal direction, and the inner and outer mesh networks 21 and 22 a catalyst module 20 comprising a catalyst layer 23 filled in; an upper coupling part 30 coupled to an upper end of the filter bag body 10 and an upper end of the catalyst module 20 and coupled to a fixing plate to which the filter bag body 10 is fixed; and a lower cap (40) coupled to the lower end of the filter bag body (10) and sealing the lower end of the filter bag body (10).

In addition, the filter bag body 10 is made of at least two or more spaced up and down by a predetermined interval, the filter bag connecting portion 50 for connecting the filter bag body 10 to each other; It is provided in each of the filter bag connection parts 50 and is inserted into the filter bag body 10 during filtration of the filter bag body 10 and during polishing to remove foreign substances accumulated on the outer circumferential surface of the filter bag body 10 . a shape retaining ring (60) for maintaining the shape of the filter bag body (10) by restraining the filter bag body (10) from expanding outward when compressed air is introduced; It is characterized in that it further comprises.

In addition, the filter bag connection part 50 is made of fabric and is sewn to and coupled to the filter bag body 10 , and the shape retaining ring 60 is double formed so as to be accommodated inside the filter bag connection part 50 . do it with

In addition, each of the filter bag body 10 is installed in contact with the outer periphery in the middle portion, and provides an elastic force so that the filter bag body 10 is restored to its original state when the filter bag body 10 is polished. a plurality of springs 70 having a coil shape; It is fixed to any one of the outer protrusions (12) of the filter bag body (10) and a plurality of spring fasteners (80) for fixing both ends of each of the springs (70), respectively; characterized in that it further comprises.

In addition, it is inserted into the inner mesh network 21 to support the inside of the inner mesh network 21 , to allow air filtered through the catalyst layer 23 to flow upward during filtration, and the filter bag body and a spacer (90) for allowing compressed air to flow downwardly into the catalyst layer (23) during polishing to remove foreign substances accumulated on the outer circumferential surface of (10).

The filter for a filter dust collector using the catalyst of the present invention according to the above configuration does not need to be used by inserting a shape retaining tool such as a mesh network inside the filter when the filter is long. Since the filter shape maintaining device for maintaining the shape is not used, the structure of the filter bag is simple, and the shape maintaining ring 60 is provided in the filter bag connection part 50 connecting the filter bag body 10 to each other. It is possible to perform smooth operation during filtration and polishing while maintaining the shape of the filter.

In addition, when polishing, not only compressed air but also external air is introduced into the filter bag body 10, thereby supplying a large amount of air required for polishing, reducing the polishing time and polishing of the filter for a filter dust collector using a catalyst. work efficiency can be maximized.

In addition, there is an effect capable of removing gaseous pollutants such as NOx as well as dust.

1 is a view showing a filter for a filter dust collector using the catalyst of the present invention.
2 is an exploded view of a filter for a filter dust collector using the catalyst of the present invention.
3 is a cross-sectional view showing a catalyst module of a filter for a filter dust collector using the catalyst of the present invention.
4 is a view showing a state in which the spring is fixed to the filter for a dust filter using the catalyst of the present invention by a spring fixture.
FIG. 5 is an enlarged view of FIG. 4 .
6 is a schematic diagram showing the filter dust collecting system of the present invention.
7 is a view showing a compressed air supply pipe and a compressed air supply unit for supplying compressed air to the filter bag body in the filter and dust collection system of the present invention.
8 and 9 are views showing a compressed air supply unit.
10 is a cross-sectional view of a compressed air supply unit.

Hereinafter, a filter for a filter dust collector using the catalyst of the present invention will be described in detail with reference to the drawings.

1 is a view showing a filter for a filter dust collector using the catalyst of the present invention, FIG. 2 is an exploded view of the filter for a dust filter using the catalyst of the present invention, and FIG. 3 is a catalyst for a filter for a filter dust filter using the catalyst of the present invention It is a cross-sectional view showing a module, and FIG. 4 is a view showing a state in which a spring is fixed by a spring fixture to a filter for a filter dust collector using the catalyst of the present invention, and FIG. 5 is an enlarged view of FIG.

A filter for a filter dust collector using the catalyst of the present invention includes a filter bag body (10); catalyst module 20; upper coupling portion 30; lower cap (40); Filter bag connection 50; It is made to include a shape retaining ring (60).

The filter bag body 10 has a plurality of inner and outer protrusions 11 and 12 respectively protruding inward and outward so as to alternately form a wrinkled star shape inward and outward along the circumferential direction, in the longitudinal direction. It becomes an elongated cylindrical shape.

The material of the filter of the present invention is polyester, polypropylene, meta-aramide, poly phenylene sulfide (pps), fiber glass, acrylic, etc. in addition to synthetic resins and Anything is possible, including eco-friendly materials.

The catalyst module 20 is provided by being inserted into the filter bag body 10 . The catalyst module 20 is a donut-shaped inner and outer mesh networks 21 and 22 filled with catalyst and formed long in the longitudinal direction, and a catalyst layer 23 filled between the inner and outer mesh networks 21 and 22. is made of

The catalyst layer 23 of the catalyst module 20 may be in the form of granules in the form of particles, or may be provided in the form of bulk.

It is preferable that the inner diameter of the catalyst layer 23 gradually decreases from the middle portion to the lower portion so that the cross-sectional area increases (see the right cross-sectional view of FIG. 3 ).

In this way, the inner diameter of the catalyst layer 23 is gradually reduced so that the cross-sectional area increases from the middle part to the lower part. When the catalyst layer 23 is in the form of granules in the form of particles, as time goes by As the catalyst layer 23 is gradually moved downward, it is to secure a space for accommodating it. In this case, as the space passing through the catalyst is reduced, the filtration efficiency of the catalyst layer 23 can be further increased.

Spacers 90 for maintaining the shape of the catalyst layer are preferably provided inside the catalyst module 20 (refer to the right cross-sectional view of FIG. 3 ).

The spacer 90 is inserted into the inner mesh network 21 to support the inner side of the inner mesh network 21, and to allow air filtered through the catalyst layer 23 to flow upward during filtration. and serves to allow compressed air to flow downward into the catalyst layer 23 during polishing to remove foreign substances accumulated on the outer peripheral surface of the filter bag body 10 . The spacer 90 is provided in a cross shape to allow the flow of filtered air and the flow of compressed air during polishing.

The upper coupling part 30 is coupled to the top of the filter bag body 10 and the top of the catalyst module 20 and serves to be coupled to a fixing plate to which the filter bag body 10 is fixed.

At this time, the upper coupling part 30 is made of woven or non-woven fabric, and is sewn and coupled to the filter bag body 10 , and a snap ring 21 is accommodated therein, and the snap ring is the filter bag body 10 fixed plate. It is inserted into the fixing hole (not shown) formed in the to be fixed.

The upper coupling portion 30 may be replaced with a mounting ring having a larger diameter than the fixing hole instead of the snap ring 21 . In this case, since the mounting ring has a larger diameter than the fixing hole, it spans the fixing plate, and the filter bag body 10 is installed.

The lower cap 40 is coupled to the lower end of the filter bag body 10 located at the lowermost portion and serves to finish sealing the lower end of the filter bag body 10 .

As described above, in the present invention, the dust is filtered by the filter, and the filtration of gaseous pollutants such as NOx is performed by the catalyst module, thereby enabling efficient filtration.

The total length of the filter bag body 10 is about 2 to 3 m. If the length of the filter bag body 10 is too long, the strength of the filter bag body 10 decreases during filtration, so that the filter bag body 10 shrinks inward. In addition, in order to remove foreign substances caught on the outer periphery of the filter bag body 10, polishing is performed using an air pulse spraying device that sprays compressed air into the inside of the filter bag body 10. During polishing, the filter bag body (10) will swell.

In order to reduce this, the filter bag body 10 is formed of at least two or more that are spaced up and down by a predetermined interval, so that the filter bag body 10 has a certain amount of strength to maintain the shape of the filter bag body 10 .

At this time, the length of the filter bag body 10 is preferably 30 to 100 cm. If the length of the filter bag main body 10 is too short, the strength of the filter bag main body 10 is increased, but a large number of filter bag connection parts 50 are required, so that production efficiency is lowered, and the If the length is too long, there is a disadvantage in that the strength capable of maintaining the shape of the filter bag body 10 is reduced.

In order to overcome this disadvantage, the filter bag body 10 of the present invention has at least two up and down, and the filter bag body 10 is connected with the filter bag connection part 50, and the filter bag body 10 is connected to the filter bag connection part 50 during polishing. The body 10 is provided with a shape retaining ring 60 that restricts the outward expansion.

The filter bag body 10 is made of at least two or more spaced apart from each other by a predetermined interval in the vertical direction.

The filter bag connection part 50 serves to connect the filter bag body 10 to each other.

The filter bag connection part 50 is preferably made of a soft material that is more flexible than the filter bag body 10 .

The filter bag body 10 is formed by at least two or more spaced apart from each other by a predetermined interval in the vertical direction. The filter bag body 10 is compressed and hardened, and it is preferable to have more rigidity than the filter bag connection part 50 to be described later.

The shape retaining ring 60 is provided at each of the filter bag connection parts 50 and the filter bag body 10 is filtered and the filter bag body 10 is polished to remove foreign substances accumulated on the outer peripheral surface of the filter bag body 10 . When compressed air is introduced into the bag body 10 , the filter bag body 10 is restrained from being opened to the outside, thereby maintaining the shape of the filter bag body 10 .

The filter 100 for a filter dust collector using the catalyst of the present invention having the structure as described above, passes through the filter bag body 10 from the outside of the filter bag body 10 during filtration and the filter bag body 10 ) and is discharged to the outside through the top.

When polishing to remove foreign substances accumulated on the outer circumferential surface of the filter bag body 10 , compressed air is introduced into the filter bag body 10 from the top, and the injected compressed air is fed into the filter bag body 10 . It passes through the filter bag body 10 and is discharged to the outside of the filter bag body 10 to remove foreign substances accumulated on the outer peripheral surface of the filter bag body 10 .

At this time, when compressed air is introduced into the filter bag body 10 during polishing, it is concentrated on the filter bag connection part 50 made of a softer material than the filter bag body 10, but the filter bag connection part 50 ) is provided with the shape retaining ring 60 to have rigidity, so the input compressed air is buffered, and the buffered compressed air is moved to the filter bag body 10 and passes through the filter bag body 10, and the Foreign substances accumulated on the outer peripheral surface of the filter bag body 10 are removed.

As described above, according to the present invention, the filter bag body 10 is formed of at least two or more that are spaced up and down by a predetermined interval, so that the filter bag body 10 can have a certain amount of strength to maintain the shape of the filter bag body 10 . Since the shape retaining ring 60 is provided in the filter bag connection part 50 that connects 10 to each other, the shape of the filter bag body 10 is changed by restraining the filter bag body 10 from opening outward. This makes it possible to perform smooth operation during filtering and polishing.

The filter bag connection part 50 of the present invention is made of woven fabric or non-woven fabric, and is sewn and coupled to the filter bag body 10 , and the shape retaining ring 60 is doubled to be accommodated inside the filter bag connection part 50 . It is preferable to form

The shape retaining ring 60 may be provided in a form in which the shape retaining ring 60 is fixed so as to be sealed while being accommodated in the filter bag connection part 50 made of a double fabric.

A shape retaining ring accommodating part (not shown) into which the shape retaining ring 60 is inserted is provided in the filter bag connection part 50, and a zipper-shaped opening is formed in the shape retaining ring accommodating part to accommodate the shape retaining ring. Thus, by locking the zipper, the shape retaining ring 60 may be provided in a fixed form.

In addition, in order to prevent the filter bag body 10 from spreading outward during polishing, as shown in FIGS. 4 and 5 , a spring 70 and a spring fixture 80 are provided in the filter bag body 10 . It is preferable to do so.

The spring 70 is installed at the middle portion of each filter bag body 10 so as to be in contact with the outer periphery, and when the filter bag body 10 is polished, the filter bag body 10 is restored to its original state. It has a coil shape that provides elasticity as much as possible.

The spring fixture 80 is fixed to any one of the outer protrusions 12 of the filter bag body 10 and serves to fix both ends of each of the springs 70 .

The spring fixture 80 is formed by being bent in a "C" shape, and rivet fixing holes 81 are formed in which rivets are inserted and fixed on both sides. In addition, the rivet insertion hole (12a) is also formed in the outer protrusion (12).

The spring fixture 80 is riveted by riveting the spring fixture 80 in a state in which either the both ends of the spring 70 and the outer protrusion 12 of the filter bag body 10 are inserted into the spring fixture 80 . The spring 70 is fixed by fixing both ends of the 70 and the outer protrusion 12 of the filter bag body 10 . The spring fixture 80 and the spring 70 may be provided in plurality to be fixed in a radial shape forming a predetermined angle in the circumferential direction of the filter bag body 10 .

A filter and dust collection system is constructed using the filter for a filter dust collector using the catalyst of the present invention.

6 is a schematic view showing a filter and dust collection system of the present invention, and FIG. 7 is a view showing a compressed air supply pipe and a compressed air supply unit for supplying compressed air to the filter bag body in the filter and dust collection system of the present invention, and FIGS. 9 is a view illustrating a compressed air supply unit, and FIG. 10 is a cross-sectional view of the compressed air supply unit.

The filter and dust collection system of the present invention includes a filter for a filter and dust collector using a catalyst, an upper cap 110 , a compressed air supply pipe 120 , and a compressed air supply unit 130 .

Filters for filter dust collectors using the catalyst are provided in a matrix spaced apart at regular intervals and consist of a plurality of filters.

The upper cap 110 is coupled to the upper coupling portion 30 of the filter for a filter and dust collector using each catalyst, and discharges the air filtered by the filter bag body 10 to the upper portion or the filter bag body ( 10) It plays a role of introducing compressed air into the inside.

The compressed air supply pipe 120 is spaced apart from the upper portion of the filter 100 for a filter dust collector using a plurality of the catalysts, is installed long in rows or columns, and is a filter for a filter dust collector using a plurality of the catalysts located in rows or columns. It serves to simultaneously supply compressed air to the upper part of (100).

The compressed air supply unit 130 is inserted and coupled to the upper portion of the upper cap 110 , communicated with each of the compressed air supply pipes 120 , and directly above the filter 100 for a filter dust collector using the catalyst. The compressed air supply pipe 120 is spaced apart at regular intervals in the longitudinal direction so as to be positioned, and the compressed air supplied from the compressed air supply pipe 120 is supplied to the inside of the filter 100 for a filter dust collector using the catalyst. do.

At this time, the compressed air supply unit 130, as shown in FIGS. 8 to 10, is configured to include an insertion unit 131 and a compressed air discharge unit 132. As shown in FIGS.

The insertion part 131 is inserted and coupled to the upper portion of the upper cap 110 and penetrates up and down in the form of a bell mouse having a larger diameter at the upper end.

The compressed air discharge part 132 is provided in the form of a tube on the outside of the insertion part 131 . The compressed air discharge unit 132 communicates with the compressed air supply pipe 120 and a compressed air inlet hole 132a into which compressed air is introduced is formed, and the bell mouth of the upper end of the insertion unit 131 is formed inside. It plays a role in discharging the compressed air inflow. When the compressed air introduced into the bell mouth of the upper end of the insertion unit 131 is discharged in this way, the air is discharged to the lower portion of the insertion unit 131 and at the same time, the insertion unit 131 is discharged by the pressure of the compressed air. ), since the upper part is in a vacuum state, external air is sucked in from the upper part of the insert part 131 and discharged to the lower part of the insert part 131 (refer to FIG. 10).

As such, not only compressed air but also external air is introduced into the filter bag body 10, thereby supplying a large amount of air required for polishing, reducing the polishing time of the filter for the filter dust collector using the catalyst and improving the polishing work efficiency. can be maximized.

In addition, a venturi 115 having a smaller cross-sectional area from the top to the bottom may be provided on the upper portion of the top cap 110 .

When the venturi is provided as described above, it is possible to facilitate the introduction of compressed air and increase the inflow rate of the compressed air to further increase the polishing efficiency.

In addition, it is preferable that the venturi is formed in multiple stages. It is possible to further increase the inflow efficiency of the compressed air. The figure shows that the venturi is formed in multiple stages.

The filter bag body 10 is installed inside the dust collector body 210 as shown in FIG. 6 , the upper portions are fixed to the fixing plates 211 , respectively, and the compressed air supply unit 130 is the upper portion of the filter bag body 10 . It is installed in the compressed air supply means 220 is supplied with compressed air to supply the compressed air to the filter bag body (10). During filtration, polluted air for performing filtration is introduced into the air inlet 212 of the dust collector body 210 , and the air filtered through the filter bag body 10 is discharged to the air outlet 213 . do.

The technical idea should not be interpreted limited to the above-described embodiment of the present invention. Various modifications can be made at the level of those skilled in the art without departing from the gist of the present invention as claimed in the claims. Accordingly, such improvements and modifications fall within the protection scope of the present invention as long as it is apparent to those skilled in the art.

10: filter bag body 11, 12: inner and outer protrusions
12a: rivet insertion hole 20: catalyst module
30: upper coupling part 40: lower cap
50: filter bag connection part 60: shape retaining ring
70: spring 80: spring fixture
81: rivet fixing hole 90: spacer
110: upper cap 120: compressed air supply pipe
130: compressed air supply 131: insert
132: compressed air outlet 132a: compressed air inlet

Claims (7)

delete delete delete delete delete delete A plurality of inner and outer protrusions 11 and 12 respectively protruding inward and outward are formed to alternately form a wrinkled star shape inward and outward along the circumferential direction, and become a cylindrical shape elongated from top to bottom, and vertically a filter bag body 10 formed of at least two or more spaced apart at regular intervals;
The filter bag body 10 is connected to each other, and it is made of a double fabric that is softer than the filter bag body 10 and is sewn to the filter bag body 10 and joined to form a zipper-shaped opening to form a shape retaining ring. a filter bag connection part 50 having a shape retaining ring accommodating part to accommodate the;
It is provided in each of the filter bag connection parts 50 and is inserted into the filter bag body 10 during filtration of the filter bag body 10 and during polishing to remove foreign substances accumulated on the outer circumferential surface of the filter bag body 10 . The shape of the filter bag body 10 is maintained by restraining the filter bag body 10 from opening outward when compressed air is injected, and the shape is maintained by being accommodated in the shape retention ring receiving portion and fixed by locking the zipper. ring (60);
Coils installed in the middle of each filter bag body 10 so as to be in contact with the outer periphery, and providing elastic force so that the filter bag body 10 is restored to its original state when the filter bag body 10 is polished. shaped spring (70);
a spring fixture (80) fixed to any one of the outer protrusions (12) of the filter bag body (10) and fixing both ends of each of the springs (70);
Between the inner and outer mesh networks 21 and 22, which are inserted into the filter bag body 10 and formed into a donut-shaped elongate in the longitudinal direction, filled with catalyst, and the inner and outer mesh networks 21 and 22 a catalyst module 20 comprising a catalyst layer 23 filled in;
an upper coupling part 30 coupled to an upper end of the filter bag body 10 and an upper end of the catalyst module 20 and coupled to a fixing plate to which the filter bag body 10 is fixed;
It includes; a lower cap 40 coupled to the lower end of the filter bag main body 10 to seal the lower end of the filter bag main body 10, and is provided at regular intervals in a matrix and using a plurality of catalysts. A filter 100 for a filter dust collector, and
Each of the catalysts is coupled to the upper coupling part 30 of the filter 100 for a filter and dust collector, and the air filtered by the filter bag body 10 is discharged upward or into the filter bag body 10 inside. An upper cap 110 for introducing compressed air, and
Compressed air to the upper part of the filter 100 for a filter dust filter using a plurality of the catalysts using the plurality of catalysts, which is spaced apart from the upper part of the filter 100 and installed in a long row or column side by side and located in a row or column. Compressed air supply pipe 120 to supply at the same time,
The compressed air supply pipe 120 is inserted and coupled to the upper portion of the upper cap 110, communicates with each of the compressed air supply pipes 120, and is positioned directly above the filter 100 for a filter dust collector using the catalyst. It is spaced at regular intervals in the longitudinal direction of the compressed air supply unit 130 for supplying the compressed air supplied from the compressed air supply pipe 120 to the inside of the filter 100 for a filter dust collector using the catalyst. ,
The compressed air supply unit 130,
An insertion part 131 in the form of a bell mouse that is inserted and coupled to the upper portion of the upper cap 110 and penetrates up and down but has a larger diameter at the upper end;
A compressed air inlet hole 132a that is provided in the form of a tube on the outside of the insertion part 131 and communicates with the compressed air supply pipe 120 to introduce compressed air is formed, and the insertion part 131 is formed on the inside. It consists of a compressed air discharge unit 132 for discharging the compressed air introduced into the bell mouse at the upper end, and when the compressed air introduced into the bell mouth at the upper end of the insertion unit 131 is discharged, the insertion unit At the same time as the air is discharged to the lower part of the insert part 131, the upper part of the insert part 131 is in a vacuum state by the discharge pressure of the compressed air so that external air is sucked together from the upper part of the insert part 131, so that the It is discharged to the lower part of the insertion part 131,
The upper portion of the upper cap 110 is provided with a venturi 115 having a smaller cross-sectional area from the upper part to the lower part in order to increase the inflow rate of compressed air during polishing of the filter 100 for a filter dust collector using a catalyst,
The venturi 115 is formed in multiple stages,
The catalyst layer 23 is in the form of granular particles in the form of particles, and as time goes by, the catalyst layer 23 is gradually moved downward to secure a space for accommodating it. A filter and dust collection system using a filter for a filter dust collector using a catalyst, characterized in that the inner diameter is gradually reduced to increase the cross-sectional area.

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