KR101731485B1 - Filtering apparatus for removing gaseous pollutants - Google Patents

Abstract

The present invention relates to a filtering apparatus with improved fixation power for removing gaseous pollutants includes a cartridge part, a venturi part, and a filter part. The cartridge part includes: a cartridge unit which is extended to one direction, and is filled with carriers for filtering gaseous pollutants; and a fixing unit which is combined to the upper or lower side of the cartridge unit to fix the cartridge unit from the outside. The venturi part is combined to the upper side of the cartridge part for discharging filtered air, and increases the air supply when being exhausted. The filter part receives the cartridge part in the inside so the outside of the cartridge part can be covered, and has an upper side for fixing the venturi part.

Description

TECHNICAL FIELD [0001] The present invention relates to a filtration apparatus for removing gaseous pollutants,

The present invention relates to a filtration apparatus, and more particularly, to a filtration apparatus for removing gaseous contaminants in which a cartridge is fixed in order to simultaneously remove gaseous contaminants and fine dust.

Air pollution prevention technologies are classified into technologies for removing fine dust and gaseous pollutants. Examples of techniques for removing fine dust include centrifugal dust collection, electrostatic dust collection, and filtration dust collection. Examples of techniques for removing gaseous pollutants include activated carbon , Selective catalytic reduction (SCR) catalysts, and so on.

In the case of using the SCR catalyst, since the SCR catalyst is expensive, it is necessary to simultaneously remove nitrogen oxide and dust generated during combustion in order to reduce clogging and sufficiently generate a reducing reaction. For this purpose, dust is primarily removed by a dust collector equipped with a dust collector or a filter bag, and a filtration gas is reacted with an ammonia gas together with an SCR catalyst in a separate reaction furnace.

In this case, the SCR catalyst needs a high-temperature environment of 300 ° C or higher in order to increase the nitrogen oxide removal rate. However, in the case of the dust collector having the filter bag, it is difficult to use the filter in the high temperature environment of 200 ° C or more. A separate heating device is required between the reactors.

However, the provision of such a temperature raising device complicates facilities, increases the cost, and reduces energy efficiency.

Therefore, research has been conducted on a filter bag which can be used at a relatively high temperature or a SCR catalyst which can be used at a low temperature. However, such a new technology has a problem that it is difficult to apply to a conventional filtration facility.

Korean Unexamined Patent Publication No. 10-2010-0030420 discloses a technique related to a combined gas filtering apparatus in which a cartridge is coupled to the interior of a filter in order to reduce installation cost in a conventional fine dust removing facility while reducing gas phase contaminants. . However, the load of the pellet type catalyst or the adsorbent charged in the cartridge is applied to the filtration filter to deteriorate the structural safety of the filtration filter, and it is difficult to take out the cartridge.

Korean Patent Publication No. 10-2010-0030420

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a filtration apparatus capable of effectively removing fine dust and gaseous contaminants by forming a filter unit having a stable structure by improving fixing and supporting force of a cartridge unit .

According to an aspect of the present invention, there is provided a filtration apparatus including a cartridge portion, a venturi portion, and a filter portion. The cartridge unit includes a cartridge unit extending in one direction and filled with a carrier for filtering gaseous contaminants therein, and a fixed unit coupled with an upper side or a lower side of the cartridge unit to fix the cartridge unit externally. The venturi engages the top of the cartridge portion to discharge the filtered air and increase the air supply during draining. The filter portion is configured such that the cartridge portion is drawn into the inside and covers the outside of the cartridge portion, and the venturi portion is fixed to the upper portion.

In one embodiment, the cartridge unit may include an outer tube portion filled with a carrier therein and extending in one direction, and upper and lower covers respectively coupled to upper and lower portions of the outer tube portion.

In one embodiment, the fixing unit may include an extension frame extending in the direction of extension of the outer tubular portion and fixing the outer surface of the outer tubular portion, a fixing member extending from one end of the extension frame and fixed to one of the upper and lower covers, And a fixed cover extending from the other end of the extended frame and fixed to the other of the upper and lower covers.

In one embodiment, the fixing protrusion is in a pin shape, and the fixing cover may have a ring-shaped frame.

In one embodiment, the fixed unit includes a pair of first and second fixed units to fix the cartridge unit, the fixed cover of the first fixed unit is fixed to the upper cover, Can be fixed to the lower cover.

In one embodiment, the plurality of cartridge units extend in a line and are coupled to each other, and a plurality of the fixed units can fix the plurality of cartridge units.

In one embodiment, the cartridge unit may further include an inner tube portion which is drawn into the inside of the outer tube portion in a cylindrical shape and forms a space in which the carrier is filled with the outer tube portion.

In one embodiment, the surface of the outer tubular portion is formed by intersecting the concave portion and the convex portion along the circumferential direction of the outer tubular portion, and the concave portion and the convex portion may extend along the extending direction of the outer tubular portion.

In one embodiment, the carrier may be a catalyst in the form of a pellet or activated carbon.

In one embodiment, the filter portion may be a pleated filter that removes particulate contaminants.

According to the embodiments of the present invention, since the fixing unit fixes the cartridge unit externally, since the space for filling the carrier for filtering the gaseous contaminants is formed more fully in the interior of the cartridge unit, It is possible to effectively filter and improve the filtration performance.

In addition, the fixing unit has a pin-shaped fixing protrusion at one end thereof fixed to the cartridge unit and a ring-shaped fixed cover at the other end fixing the cartridge unit, and an extension extending along the outer surface of the cartridge unit, Frame, so that the fixing force or the supporting force for the cartridge unit can be improved.

Furthermore, as a relatively simple coupling structure, it is relatively easy to assemble or detach the fixing protrusion and the fixed cover to / from the cartridge unit, thereby simplifying assembly.

Thus, since the cartridge units can be fixed using the fixed unit even when the plurality of cartridge units are connected to each other in the vertical direction, it is possible to improve the fixation force for the cartridge unit, The filtration performance can be further improved.

1A is a side view of a filtration apparatus according to an embodiment of the present invention.
Fig. 1B is a side sectional view showing a part of the interior of the filtration apparatus of Fig. 1A.
FIGS. 2A to 2D are assembly views showing an assembled state and an internal structure of the first cartridge portion of the filtration apparatus of FIG. 1A. FIG.
Figs. 3A to 3C are assembly views showing an assembled state and an internal structure of the cartridge portion of the filtration apparatus of Fig. 1A.
FIGS. 4A and 4B are assembly views showing an assembled state and an internal structure of the filtration apparatus of FIG. 1A.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms.

The terms are used only for the purpose of distinguishing one component from another. The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the term "comprises" or "comprising ", etc. is intended to specify that there is a stated feature, figure, step, operation, component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

1A is a side view of a filtration apparatus according to an embodiment of the present invention. Fig. 1B is a side sectional view showing a part of the interior of the filtration apparatus of Fig. 1A.

1A and 1B, a filtration apparatus 10 according to the present embodiment includes a filter unit 100, a venturi unit 200, and a cartridge unit 300.

The filter unit 100 may extend in one direction in a cylindrical shape, and may be formed in a corrugated filter filter shape as shown in FIG.

In this case, as shown in FIG. 4B, the filter unit 100 includes a filter 110 having corrugations formed on its outer surface, a plurality of corrugations 110 formed on both ends of the filter 110, And includes a cover 120 and a lower cover 130.

In the filter unit 100, a storage space is formed, and the cartridge unit 300 is stored in the storage space, and the storage space is opened through the upper cover 120.

That is, the cartridge unit 300 is inserted into the storage space through the upper cover 120, and the upper cover 120 is coupled to the venturi unit 200.

The filter 110 of the filter unit 100 may include a woven or nonwoven filter medium and may be a high-temperature woven fabric or a nonwoven fabric which can be used at a high temperature. Thus, the filter 110 can remove particulate contaminants.

More specifically, in general, the combustion gas discharged from the dust collecting apparatus includes sulfur oxides and other corrosive by-products in addition to nitrogen oxides. Therefore, in order to improve chemical resistance and heat resistance, A web having a weight of 200 to 400 g / m < ² > made of high-temperature short fibers (PTFE, polyaramid, polyimide, polysulfonamide or glass fiber) (2 or 3 plies) bonded to one side or both sides of an E-glass fabric having a weight of 10 g / m < ² > by needle punching.

The high-temperature fiber is not particularly limited as long as it is a heat-resistant fiber, and may be any one selected from polyamide, polyimide, polysulfonamide, PTFE (polytetrafluoroethylene) and PPS (polyphenylene sulfide) In order to increase the filterability of the filter on the surface of the filter, a morpho-processed surface or a polytetrafluoroethylene (PTFE) membrane may be additionally provided.

The cartridge part 300 is accommodated in a storage space of the filter part 100 and filters gaseous contaminants.

The venturi unit 200 is coupled to the upper portion of the cartridge unit 300 and is coupled to the upper cover 120 of the filter unit 100 when the cartridge unit 300 is received in the storage space.

The venturi unit 200 discharges the filtered air or increases the air supply in the exhaustion.

The cartridge part 300 and the venturi part 200 will be described in detail with reference to the following drawings.

FIGS. 2A to 2D are assembly views showing an assembled state and an internal structure of the first cartridge portion of the filtration apparatus of FIG. 1A. FIG.

2A to 2D illustrate the case where the cartridge unit 300 includes one first cartridge unit 310. Hereinafter, the structure and assembly state of the first cartridge unit 310 will be described do.

Referring to FIGS. 2A to 2D, the first cartridge unit 310 includes a first cartridge unit 410 and a first fixing unit 510.

The first cartridge unit 410 includes an outer tube portion 411, an inner tube portion 412, a carrier 413, an upper lid 414, and a lower lid 415.

The inner tube portion 412 extends in one direction in a cylindrical shape and is housed inside the outer tube portion 411. The inner tube portion 412 has a hollow shape so that the air that has passed through the outer tube portion 411 and the carrier 413 and is filtered by the gas phase contaminant is drawn inward and then discharged in the upper or lower direction.

The outer tube portion 411 extends in one direction together with the inner tube portion 412, and the inner tube portion 412 is accommodated in the inner storage space.

The surface of the outer tube portion 411 is formed so that a concave portion and a convex portion intersect along the circumferential direction of the outer tube portion 411. The concave portion and the convex portion extend along the extending direction of the outer tube portion 411, The outer tubular portion 411 can expand the contact area with the air.

Meanwhile, although not shown in detail, the surface of the outer tube portion 411 may have a shape such as a mesh net or a perforated plate so that air can be drawn into the inner portion.

The carrier 413 is filled in the space between the outer tube portion 411 and the inner tube portion 412 and thus removes gaseous contaminants from the air introduced through the outer tube portion 411. [

The carrier 413 may be, for example, a catalyst in the form of a pellet or activated carbon, and preferably has a size of a predetermined size or more so as not to pass through pores or perforations formed on the surface of the outer tube portion 411 Do.

The upper portion of the outer tube portion 411 is connected to the outer tube portion 411 so as to prevent the carrier 413 from flowing out from the outer tube portion 413, And the lower cover 415 is coupled to the lower portion of the outer tube portion 411. [

In this case, as shown in the figure, the upper lid 414 and the lower lid 415 have a smooth outer shape without a wrinkle shape at the end and a cylindrical shape.

The first fixing unit 510 includes a pair of first and second fixing frames 511 and 512. The first fixing frame 511 includes a first extension frame 513, The second fixing frame 512 includes a second extending frame 516 and a second fixing protrusion 517 and a second fixing cover 518. The second fixing frame 514 includes a first fixing frame 514 and a second fixing frame 515, .

Since the first fixing frame 511 and the second fixing frame 512 have the same structure and only the directions to be coupled to the first cartridge unit 410 are opposite to each other, .

The first extension frame 513 extends along the extension direction of the outer tubular part 411 and is fixed in contact with the outer surface of the outer tubular part 411. [

In this case, a concave portion and a convex portion are formed on the surface of the outer tube portion 411, and the first extension frame 513 is fixed along the concave portion, so that the fixing force and the supporting force are further improved.

The first fixing protrusion 514 may extend from one end of the first extending frame 513 and may have a pin shape protruding to a pointed end as shown in FIG. Thus, the pin-shaped first fixing protrusion 514 is fixed to the upper cover 414.

The first fixed cover 515 extends from the other end of the first extension frame 513 and may have a ring-shaped frame as shown.

As described above, since the upper cover 414 and the lower cover 415 have cylindrical outer surfaces at their ends, when the first fixed cover 515 has a ring-shaped frame covering the outer surface of the cylindrical shape The first fixed cover 515 may contact and be fixed to the outer surface of the upper lid 414 or the lower lid 415.

Thus, the first fixed cover 515 is fixed along the outer surface of the lower cover 415.

In this case, the first fixing cover 515 may be in the form of a ring frame partially opened to increase the convenience of coupling and detachment, and improve the fixing force. The diameter of the first fixing cover 515 may be larger than the diameter of the lower cover 415 It can be formed small.

Meanwhile, the second fixing frame 512 may include the second fixing cover 518 coupled to the upper cover 414, the second fixing protrusion 517 coupled to the lower cover 415, The second extension frame 516 is fixed to the first cartridge unit 410 so as to be in contact with and fixed to the concave portion of the outer tube portion 411. [

In this case, the second fixing frame 512 may be fixed at a position symmetrical with respect to the first cartridge unit 410 so as to face the first fixing frame 511 in order to improve fixing force and supporting force.

As described above, the first fixing unit 510 is coupled to the first cartridge unit 410 so that the first cartridge unit 310 as shown in FIG. 2D is assembled.

With the above structure, the first fixing frame 511 fixes and supports the first cartridge unit 410 so that the first cartridge unit 410 can be more stably fixed, Since the frame 511 has a relatively simple coupling structure, the coupling and detachment of the frame 511 to the first cartridge unit 410 is relatively easy.

Further, since the first fixing frame 511 is coupled to the outside of the first cartridge unit 410, the carrier 413 can be more fully charged in the space inside the first cartridge unit 410 , It is possible to improve the filtering force of the gaseous contaminants.

Figs. 3A to 3C are assembly views showing an assembled state and an internal structure of the cartridge portion of the filtration apparatus of Fig. 1A.

3A to 3C, a plurality of first to third cartridge units 410, 420, and 430 are vertically coupled to form a cartridge unit 400, The plurality of first to fourth fixed frames 511, 512, 513, and 514 may constitute the fixed unit 500.

In this case, the number of the cartridge units 400 and the number of the fixed units 500 may be variously changed.

Referring to FIG. 3A, a plurality of first to third cartridge units 410, 420, and 430 rotate in the extending direction and are coupled to each other. In this case, the structure of each of the cartridge units 410, 420, and 430 is the same as that of the first cartridge unit 410 described with reference to FIGS. 2A to 2D, and therefore, a duplicate description will be omitted.

As shown in FIG. 3A, when the plurality of cartridge units are coupled to each other in the longitudinal direction, it is difficult to keep the cartridge units in a coupled state because the relative strength or fixing force is relatively weakened.

Thus, as shown in FIG. 3B, the plurality of cartridge units are fixed and supported using the fixing unit 500, so that the state in which the cartridge units are coupled in the longitudinal direction can be more stably maintained.

More specifically, the fixed unit 500 includes first to fourth fixed frames 511, 512, 513, and 514.

In this case, since the first and second fixed frames 511 and 512 have the same structure as that described with reference to FIG. 2C, the duplicated description will be omitted. The first fixing frame 511 is coupled to the first cartridge unit 410 while the second fixing frame 512 is coupled to the third cartridge unit 430.

In the third fixing frame 520, a third fixing cover 522 is fixed to the center of the third extending frame 521, and on the opposite ends of the third extending frame 521, 523 and 524 are formed.

Thus, the third fixing frame 520 fixes the second and third cartridge portions 420 and 430 at one side.

Similarly, in the fourth fixed frame 530, the fourth fixed cover 532 is fixed to the center of the fourth extended frame 531, and the fourth fixed frame 532 is fixed to both ends of the fourth extended frame 531, Fixing protrusions 533 and 534 are formed.

Thus, the fourth fixing frame 530 fixes the third and the third cartridge portions 420 and 430 at a position facing the third fixing frame 520.

In this case, the fixed cover, the fixing protrusion, and the extended frame of the third and fourth fixed frames 520 and 530 are identical to the first and second fixed frames 511 and 512 described with reference to FIG. 2C A detailed description thereof will be omitted.

Further, it is apparent that the combined positions of the first to fourth fixed frames shown in FIG. 3B can be changed differently from each other.

Thus, the cartridge unit 300 to which the plurality of cartridge units and the plurality of fixed units are combined is as shown in FIG. 3C.

FIGS. 4A and 4B are assembly views showing an assembled state and an internal structure of the filtration apparatus of FIG. 1A.

Referring to FIG. 4A, the venturi unit 200 is coupled to an upper portion of the cartridge unit 300.

The venturi unit 200 includes a first venturi 210, a second venturi 220, and a sealing unit 230.

In this case, the first venturi 210 is inserted into and fixed to the second venturi 220, and in a state where the second venturi 200 is rotated and engaged with the sealing part 230, (230) is rotated and coupled to the upper part of the cartridge part (300) to seal the upper part of the cartridge part (300).

In addition, the first and second venturi units 210 and 220 each have a shape having a larger diameter toward the upper part, and the inside of the first and second venturi units 210 and 220 are opened to allow air to flow.

The first and second venturi parts 210 and 220 are connected to the hollow part of the inner tube part 412 inside the cartridge part 300 so as to easily discharge the filtered air, . That is, the exhaust air to be supplied to the upper portions of the first and second venturi units 210 and 220 at the time of exhausting increases the flow rate of the inflow air according to the Bernoulli principle and increases the air pressure in the filtration filter to increase the exhaustion efficiency .

4B, the cartridge unit 300 to which the venturi unit 200 is coupled is housed in a storage space formed inside the filter unit 100, The filtration device 10 is completed.

In the filtration apparatus 10, air is introduced through the filter unit 100, particulate contaminants are removed, then further introduced through the cartridge unit 300, and gaseous contaminants are introduced by the carrier 413 And then discharged through the venturi unit 200.

Particularly, a plurality of the cartridge parts 300 may be coupled to each other in the longitudinal direction to increase the effect of removing gaseous contaminants. For this purpose, the capacity of the cartridge 413 filled in the cartridge part 300 may be increased Should be able to. Therefore, as in the present embodiment, the fixing unit 500 for fixing the cartridge unit 300 is formed outside the cartridge unit 400, so that the filling space inside the cartridge unit 400 can be increased.

In addition, since the fixing unit 500 includes the above-described structure, it is possible to fix the cartridge unit 300 more stably and to easily attach and detach the cartridge unit 300, .

According to the embodiments of the present invention, since the fixing unit fixes the cartridge unit externally, since the space for filling the carrier for filtering the gaseous contaminants is formed more fully in the interior of the cartridge unit, It is possible to effectively filter and improve the filtration performance.

In addition, the fixing unit has a pin-shaped fixing protrusion at one end thereof fixed to the cartridge unit and a ring-shaped fixed cover at the other end fixing the cartridge unit, and an extension extending along the outer surface of the cartridge unit, Frame, so that the fixing force or the supporting force for the cartridge unit can be improved.

Furthermore, as a relatively simple coupling structure, it is relatively easy to assemble or detach the fixing protrusion and the fixed cover to / from the cartridge unit, thereby simplifying assembly.

Thus, since the cartridge units can be fixed using the fixed unit even when the plurality of cartridge units are connected to each other in the vertical direction, it is possible to improve the fixation force for the cartridge unit, The filtration performance can be further improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims. It can be understood that it is possible.

The filtration apparatus according to the present invention has industrial applicability that can be used in a filtration apparatus for removing fine dust and gaseous contaminants.

10: Filtration device 100: Filter part
110: Filtration filter 200: Venturi
300: cartridge part 310: first cartridge part
400: Cartridge unit 410: First cartridge unit
411: Appearance section 412: Inner tube section
413: carrier 414: upper cover
415: lower cover 500: fixed unit
510: first fixing unit 511: first fixing frame
513: first extension frame 514: first fixing projection
515: first fixed cover

Claims (10)

A cartridge unit including a cartridge unit extending in one direction and filled with a carrier for filtering gaseous pollutants therein, and a fixed unit coupled with an upper side or a lower side of the cartridge unit to fix the cartridge unit externally;
A venturi unit coupled to an upper portion of the cartridge unit to discharge the filtered air and to increase the air supply in the exhaustion; And
The cartridge portion is drawn into the inside to cover the outside of the cartridge portion, and the upper portion includes a filter portion to which the venturi portion is fixed,
Wherein the cartridge unit comprises:
An outer tube portion filled with a carrier therein and extending in one direction; And
And upper and lower covers respectively coupled to the upper and lower sides of the outer tube portion,
The fixed unit includes:
An extension frame extending in the extending direction of the outer tubular portion and fixing the outer surface of the outer tubular portion; And
And a fixing protrusion extending from one end of the extension frame and fixed to one of the upper and lower covers and having a pin shape. delete The apparatus according to claim 1,
Further comprising a fixed cover extending from the other end of the extension frame and fixed to the other of the upper and lower covers and having a ring shape. delete The method of claim 3,
The fixing unit includes a pair of first and second fixing units to fix the cartridge unit,
Wherein the fixed cover of the first fixing unit is fixed to the upper cover and the fixed cover of the second fixing unit is fixed to the lower cover. The method of claim 3,
Wherein the plurality of cartridge units extend in a line and are coupled to each other,
Wherein a plurality of said fixed units also fix said plurality of cartridge units. The cartridge according to claim 1,
Further comprising an inner tube portion which is drawn into the inside of the outer tube portion in a cylindrical shape and forms a space in which the carrier is filled with the outer tube portion. 8. The method of claim 7,
Wherein a surface of the outer tubular portion is formed with a concave portion and a convex portion intersecting with each other along the circumferential direction of the outer tubular portion, and the concave portion and the convex portion extend along the extending direction of the outer tubular portion. The method according to claim 1,
Characterized in that the carrier is a catalyst in the form of pellets or activated carbon. The method according to claim 1,
Wherein the filter unit is a pleated filter for removing particulate pollutants.

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