KR101495057B1 - Apparatus for Reforming Filter Bag of Movement Type - Google Patents

Abstract

The filter regeneration unit includes a filter regeneration unit connected to the connection hose through which the compressed air or steam is introduced and is formed to be smaller than the inner diameter of the filter bag. The filter regeneration unit has upper and lower openings, A lower cover plate for closing the lower surface of the nozzle plate, and a lower cover plate for closing the lower surface of the nozzle plate, the upper cover plate being connected to the connection hose by an opened hole at the center of the nozzle plate and closing the upper surface of the nozzle plate, The filter regenerator is inserted into the filter bag and moves upward and downward to inject compressed air or steam into the filter bag through the nozzle hole of the nozzle plate.

Description

[0001] Apparatus for Reforming Filter Bag of Movement Type [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter bag recycling apparatus, and more particularly, to a removable filter bag recycling apparatus that removes dust adhering to a filter bag while being inserted into a filter bag.

In general, industrial dust collectors are installed in various industrial processes where dust and dust are generated in a large amount, and dust and air pollutants in the air are collected and separated by a filter bag.

The filter bag of the dust collector accumulates dust accumulated on the filter bag or the surface of the filter bag when it is used for a long period of time to filter the dust generated in the factory or the work site, thereby slowing the passing speed of the filter bag, increasing air resistance and pressure loss, The dust collecting function of the filter is deteriorated.

Therefore, in order to maintain the performance of the dust collector, the dust accumulated in the filter bag is drained by using compressed air.

In the method of removing the accumulated dust, a large amount of compressed air is injected into the filter bag in a short time by the air injection nozzle to expand the filter bag, thereby removing the dust attached to the filter bag.

The air jet nozzles generate jet pulses using compressed air to clean the filter bag of the dust collector.

The structure of the dust collector according to the prior art will be described with reference to FIG.

1 is a view showing a structure of a dust collector according to the related art.

The dust collector according to the prior art is composed of an air storage container 10, a control valve 12, an air injection pipe 14 and an injection nozzle 16.

The injection nozzle 16 is integrally formed with the air injection pipe 14 and is formed to protrude downward from the air injection pipe 14 in order to ensure the straightness of the air flow fed into the air injection pipe 14.

The injection nozzle (16) is formed in the air injection pipe (14) in accordance with the position and the quantity of the filter bag so that compressed air to be conveyed therein is injected to the outside.

The control valve 12 is operated in a short time (0.1-0.2 seconds) so that the compressed air is injected into the filter bag through the opened 5-10 mm hole of the injection nozzle 16.

In this process, the dust adhered to the outside of the filter bag is separated from the filter bag during the discharge of the shock wave and the compressed air from the inside to the outside of the filter bag.

The amount of compressed air to be supplied and consumed per filter bag in the dust removal process is designed to be about 10 to 20 liters at a time.

The filter bag used in the industrial dust collector is approximately cylindrical filter bag with a filtration area of 1.5-2.5 m ² , depending on the use conditions.

Therefore, the draining process is performed with compressed air having an air volume of 7 liters in an area of 1 m ² . Since the dust removing process does not completely remove the dust attached to the filter bag, the filter bag is shortened in life due to the clogging due to dust penetration of the filter bag.

The dust collector is very often caused by exhaustion conditions at the time of designing, pressure of compressed air, opening / closing time of the control valve 12, frequent shutdown of the dust collector, and excessive water inflow at the time of restart.

Dust collector operating companies generate hundreds of millions of won to hundreds of millions of dollars in lost money due to the cost of purchasing filter bags, replacement costs, waste disposal costs, and losses due to facility shutdowns.
In order to solve this problem, the venturi nozzle is attached to the filter structure for the dust collecting device to increase the flow rate for sucking the ambient air, since the filter bag regeneration method using the injection nozzle 16 can not completely remove the dust adhered to the filter bag .
The venturi nozzle has a large energy loss because the jet flow of the jet nozzle 16 is lowered to the inner lower end of the filter bag and then the dust is discharged from the lower part to the upper part. There was a problem that could not be supported.
The cartridge filter of the cylindrical structure has a good filtration ability with a wide filtration area. However, even though the venturi nozzle is installed, it is not easy to shake the dust when the dusty bent filter medium is deeply clogged between the mountains and mountains.
Therefore, if the cartridge filter of the conventional cylindrical structure is deeply inserted between the mountains and the mountains of the folded filter bag, the filter area is reduced and the performance of the filter bag is drastically reduced. As a result, There is a problem that the working environment deteriorates and productivity lowers.

No. 20-0301507 (Registered Date: Jan. 07, 2003), entitled "Extruded Venturi"

In order to solve the above problems, the present invention provides a removable filter bag recycling apparatus that removes dust adhered to a filter bag by injecting compressed air or steam into the filter bag while being inserted into the filter bag and moving up and down. have.

According to an aspect of the present invention, there is provided a portable filter bag recycling apparatus including a filter regeneration unit connected to a connection hose through which compressed air or steam is introduced, the filter regeneration unit being smaller than an inner diameter of the filter bag, An upper cover plate connected to the connection hose at an opening portion of the central portion and closing the upper surface of the nozzle plate, The filter regenerating unit is inserted into the filter bag and moves up and down. The compressed air or steam is injected into the filter bag through the nozzle hole of the nozzle plate .

The portable filter bag recycling apparatus according to an embodiment of the present invention includes a filter regeneration unit connected to a connection hose through which compressed air or steam flows and is formed to be smaller than the inner diameter of the filter bag. The filter regeneration unit has upper and lower openings, An upper cover plate which is connected to the connection hose by an opened hole at the center and closes the upper surface of the nozzle plate, and a lower cover plate The filter regenerating unit is inserted into the filter bag, and the filter box is inserted into the filter bag. The filter box is inserted into the filter bag, The compressed air or steam flowing while moving is injected into the filter bag through the nozzle hole of the nozzle plate.

According to the present invention, the filter bag is inserted into the filter bag, and the compressed air or steam is injected into the filter bag while moving upward and downward to remove the dust attached to the filter bag, thereby enhancing the draining performance, There is an effect of removing dust.

1 is a view showing a structure of a dust collector according to the related art.
2 is a view illustrating a mobile filter bag playback apparatus according to a first embodiment of the present invention.
3 is a view illustrating a mobile filter bag playback apparatus according to a second embodiment of the present invention.
4 is a perspective view illustrating a filter regeneration unit according to an embodiment of the present invention.
5 is a cross-sectional view illustrating a filter regeneration unit according to an embodiment of the present invention.
6 is an exploded perspective view illustrating a filter regeneration unit according to an embodiment of the present invention.
7 is a cross-sectional view illustrating an air diffuser according to another embodiment of the present invention.
8 is a cross-sectional view illustrating an attachment form of an air diffuser according to another embodiment of the present invention.
9 is a cross-sectional view illustrating an air diffuser according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

The present invention provides an apparatus capable of simply regenerating a filter bag by using a removable filter bag recycling apparatus without separating a filter bag of an industrial dust collector.

2 is a view illustrating a mobile filter bag playback apparatus according to a first embodiment of the present invention.

The portable filter bag recycling apparatus according to the first embodiment of the present invention includes a compressor 100, a pressure tank 110, a diaphragm valve 120a, a control unit 130, a connection hose 140, 150 and a filter regeneration unit 200.

The compressor (100) stores the compressed air in the pressure tank (110).

The pressure tank 110 is connected to the compressor 100 to receive compressed air, stores the compressed air, and supplies compressed air of a predetermined pressure.

The size of the pressure tank 110 is suitably in the range of 50-500 liters and the operating pressure can be adjusted to 1-15 kg / cm2.

A diaphragm valve (or pulse valve) 120a is formed at the air outlet of the pressure tank 110 to regulate the pressure of the pressure tank 110 with the pressure regulator of the compressor 100. [

The control unit 130 is connected to the diaphragm valve 120a to control the flow rate of the compressed air through the diaphragm valve 120a so that the compressed air in the pressure tank 110 can be intermittently pulsed or continuously filtered And a control unit 130 for controlling the control unit 130 to be fired.

The control unit 130 can automatically adjust the opening and closing time of the diaphragm valve 120a in units of 0.1-1 second and can continuously open the diaphragm valve 120a and set the pulse off time to 1 to 99 seconds or more And the like.

The control unit 130 controls the diaphragm valve 120a to control the air pressure of the compressed air, the number of injections per second of compressed air, the air pulsing speed, and the air pulsing interval.

The connecting hose 140 is connected to the air discharge port of the pressure tank 110 at one side and connected to the filter regeneration unit 200 at the other side and transmits the compressed air of the pressure tank 110 to the filter regeneration unit 200 It acts as a transport passage.

The connection hose 140 is preferably made of high pressure or low pressure hose made of internal pressure, temperature resistant, oil resistant, and water resistant material, has a rigid and flexible characteristic, and preferably has a diameter smaller than that of the diaphragm valve.

The filter regeneration unit 200 is inserted into the filter bag 160 through the connection hose 140 and moves up and down to control the compressed air to be injected from the inside of the filter bag 160 in a direction perpendicular to the outside.

The filter regeneration unit 200 is inserted into the filter bag 160 and moves upward and downward therein to inject compressed air toward the filter bag 160 to remove dust attached to the filter bag 160.

The size of the filter regeneration unit 200 is smaller than the inner diameter of the filter bag 160 to be inserted into the filter bag 160.

The through hole 162 of the filter bag 160 inserts the connection hose 140 and closes it by using the protective cover 150.

The user can manually operate the filter hose 140 and the filter regeneration unit 200 to insert the filter hose 140 into the through hole 162 of each filter bag 160 to perform the filter regeneration operation.

The mobile filter back playback apparatus is provided with a control device for controlling the mobility when the filter playback section 200 moves up and down within the filter bag 160 to automatically control the movement of the filter playback section 200 It is possible.

3 is a view illustrating a mobile filter bag playback apparatus according to a second embodiment of the present invention.

The movable filter bag recycling apparatus according to the second embodiment of the present invention includes a high pressure steam generator 102, a steam electromagnetic valve 120b, a controller 130, a connection hose 140, a protective cover 150, (200).

The second embodiment omits duplicate description of the constituent elements of the first embodiment of the present invention described above, and explains differences mainly.

The high-pressure steam generator 102 adjusts the pressure of steam to a predetermined pressure and supplies steam of a predetermined pressure to the filter regeneration unit 200.

The control unit 130 controls the flow rate of the steam through the electromagnetic valve 120b for steam and controls the steam of the high-pressure steam generator 102 to be intermittently or continuously discharged.

In the case of the filter bag 160 infiltrated with the dust having high tackiness, the hose for high-pressure steam, which is the connecting hose 140, is used to remove the sticky dust that has permeated the filter bag 160 by high-pressure steam rather than compressed air.

FIG. 4 is a perspective view illustrating a filter regeneration unit according to an exemplary embodiment of the present invention, FIG. 5 is a cross-sectional view illustrating a filter regeneration unit according to an exemplary embodiment of the present invention, FIG. 6 is an exploded perspective view illustrating a filter regeneration unit according to an exemplary embodiment of the present invention, to be.

The filter regeneration unit 200 according to an embodiment of the present invention includes a connection unit 210, a connection pipe 220, a nozzle box 230, and an air diffuser 250.

The connecting unit 210 is formed in the form of a nut and connects the connecting hose 140 to the upper end and the connecting pipe 220 to the lower end.

The connection unit 210 includes a unit groove 212 for forming a predetermined space inside the unit groove 212 and a first female screw 214 for screwing the connection tube 220 along the rim of the lower end of the unit groove 212 ).

The connecting pipe 220 is a cylindrical tube having a predetermined internal space and forms a first male screw 222 screwed with the first female screw 214 of the connecting unit 210 along the rim of the upper end.

The nozzle box 230 can be made of any material such as stainless steel, aluminum, steel, and plastic.

The nozzle box 230 includes a cylindrical nozzle plate 232 having upper and lower openings and a plurality of nozzle holes 232a having a predetermined size formed along the outer edge of the cylindrical nozzle plate 232, An upper cover plate 234 for closing the upper surface and a lower cover plate 236 for blocking the lower surface of the cylindrical nozzle plate 232.

The upper lid plate 234 and the lower lid plate 236 are formed to have a circular thickness and a circular hole 235 is opened at the center.

The diameter of the circular hole 235 of the upper cover plate 234 is formed larger than the diameter of the lower surface of the coupling pipe 220 so that the lower surface of the coupling pipe 220 is inserted.

It is preferable that the diameter of the nozzle hole 232a is formed to be about 3-5 mm smaller than the inner diameter of the filter bag 160.

The nozzle box 230 can control the diameter of the nozzle hole 232a, the size of the nozzle plate 232, the amount of compressed air, and the amount of steam according to the size and purpose of the filter bag 160. [

The vibration generator 240 is mounted on one side of the nozzle box 230. In the present invention, the vibration generator 240 is formed on one side of the upper surface of the upper cover plate 234.

The vibration generator 240 vibrates vertically and horizontally on the filter bag 160 or the nozzle box 230 and may be used depending on the material of the filter bag 160, the attachment state of the dust and the state of the dust collector, It is possible.

The air diffuser 250 is made of aluminum, non-ferrous metal, stainless steel, galvanized steel, plastic (including reinforced plastic) and is manufactured by injection molding with aluminum die casting. The air diffuser 250 amplifies the flow of the introduced compressed air or steam, Increase.

The air diffuser 250 includes a cone 260 and a lower housing 270.

The cone 260 has an inclined portion 262 having an outer shape of a warhead in the form of a streamlined shape increasing in diameter from the upper end to the lower end, And a second female screw 266 formed along an edge of one side of the lower end of the housing insertion groove 264.

The lower housing 270 defines a hemispherical head 272 having a semicircular curved surface in the downward direction and a protruded portion 274 protruding upward from the hemispherical head 272.

The projecting portion 274 forms a groove having a predetermined depth in the center portion and forms a second male screw 275 screwed to the second female screw 266 of the cone 260 along the outer rim.

The diameter of the circular hole 237 of the lower cover plate 236 is formed to be larger than the diameter of the protrusion 274 of the lower housing 270 so that the diameter of the protrusion 274 of the lower housing 270 is inserted, The diameter of the lower surface of the lower electrode is smaller than the diameter of the lower surface of the lower electrode.

The air diffuser 250 inserts the protrusion 274 of the lower housing 270 into the housing insertion groove 264 of the cone 260 so that the second female screw 266 and the protrusion 274 of the housing insertion groove 264 274 are screwed together.

When the high-speed and high-pressure compressed air or steam is introduced and dispersed, the inclined portion 262 generates a shock wave and forms a downward flow, thereby improving the discharge effect.

The inclined portion 262 has a streamlined shape in which the diameter gradually increases from the pointed top end to the downward direction, that is, the flow direction of the fluid, such as the bullet shape and the warhead shape of the shell.

The inclined portion 262 allows the incoming compressed air or steam to flow on the surface. The air flowing on the surface of the inclined portion 262 sucks air around the cone 260 at a high speed. This Coanda effect indicates a tendency of the fluid to cling to or hugging on the surface as it flows through the curved surface.

The flow of air sucks in the air around the slope 262 due to the air flow and the Coanda effect flowing along the surface of the slope 262, so that the flow of the introduced compressed air or steam is amplified.

The air diffuser 250 is configured to receive air flowing along the outer curved surface from the top of the cone 260 in a downward direction and a strong air flow that is air directed around the cone 260, The filter bag 160 can be used as an air amplifier.

The inclined portion 262 is formed in a warhead shape of a bullet and a shell so that the upper end of the bullet and the steam are uniformly sprayed, and the curved surface must be gentle so as to maximize the coanda effect.

The nozzle box 230 moves the nozzle plate 232 by changing the moving direction while hitting the inclined portion 262 of the air diffuser 250 through the connection hose 140 and the connection pipe 220. [ And is injected into the filter bag 160 in a direction perpendicular to the nozzle hole 232a.

When the compressed air or steam is introduced into the nozzle box 230, a strong shock wave is generated at an upper portion of the inclined portion 262, thereby enhancing the exhaustion performance of the filter bag 160.

The nozzle box 230 is inserted into the filter bag 160 and discharges the dust attached to the filter bag 160 by injecting compressed air or steam into the filter bag 160 while moving.

Although the air diffuser 250 is illustrated as being configured in the nozzle box 230 according to the present invention, only the nozzle box 230 is configured without the air diffuser 250 to perform the regeneration operation of the filter bag 160 can do.

The nozzle box 230 can control the size of the cone 260, the size of the nozzle plate 232 and the diameter of the nozzle hole 232a according to the type and size of the filter bag 160, Make it 3-5mm smaller than the diameter.

The control unit 130 may adjust at least one of the amount of compressed air and the amount of steam and the up and down moving speed of the filter regeneration unit 200 according to the type and size of the filter bag 160.

The process of manufacturing the filter regeneration unit 200 according to the embodiment of the present invention will now be described.

The filter regeneration unit 200 welds the lower surface of the connecting pipe 220 to the circular hole 235 of the upper lid plate 234 and welds the upper lid plate 234 to the upper surface of the nozzle plate 232 And then welding is carried out.

The cone 260 is positioned on the upper surface of the lower cover plate 236 so as to coincide with the circular hole 237 of the lower cover plate 236 and the housing insertion groove 264 of the cone 260.

The lower housing 270 is inserted into the circular hole 237 of the lower cover plate 236 through the lower surface of the lower cover plate 236 and the lower housing 270 is inserted into the housing insertion groove 264 of the cone 260 The second male screw 275 is inserted and screwed into the second female screw 266 of the cone 260.

5, the lower cover plate 236 is coupled between the lower surface of the cone 260 and the hemispherical head 272 of the lower housing 270 such that the lower cover plate 236 is fitted.

When the cone 260 is inserted into the nozzle plate 232 and the lower surface of the nozzle plate 232 is welded to the upper surface of the lower cover plate 236, The hemispherical head 272 is exposed to the outside.

The filter regeneration unit 200 is completed by screwing the first male screw 222 of the connecting pipe 220 to the first female screw 214 of the connecting unit 210 connected to the connecting hose 140. [

FIG. 7 is a cross-sectional view illustrating an air diffuser according to another embodiment of the present invention, FIG. 8 is a cross-sectional view illustrating an attachment form of an air diffuser according to another embodiment of the present invention, Sectional view of the air diffuser according to the present invention. 7 to 9, the description of the constituent elements which are the same as those in Fig. 6 and the drawings are omitted.

7, the air diffuser 250 according to another embodiment of the present invention reduces the size of the cone 260 to adjust the intensity of the shock wave generated when the compressed air or steam contacts the top of the cone 260 .

8, the air diffuser 250 may be mounted on one side of the inner surface of the nozzle plate 232 and one side of the air diffuser 250 using the metal member 300 It is installed by welding.

As shown in FIG. 9, the air diffuser of another embodiment of the present invention mounts a metal member 310 having a mountain-shaped inclination inside the nozzle box 230.

As described above, the shape and shape of the air diffuser can be variously configured, and it is not limited to the shape mentioned in the present invention. If the flow velocity of the introduced compressed air or steam can be rapidly accelerated and amplified to enhance the dust- It is possible.

The portable filter bag recycling apparatus according to the embodiment of the present invention can be used for all the pulse jet dust collection filters such as a cylindrical general filter bag, a cartridge filter, and a pleated filter bag.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: compressor 102: high-pressure steam generator
110: Pressure tank 120a: Diaphragm valve
120b: electromagnetic valve for steam 130:
140: connecting hose 150: protective cover
160: filter bag 162: through hole
200: filter regeneration unit 210: connection unit
212: unit groove 214: first female thread
220: Connector 222: First male
230: nozzle box 232: nozzle plate
232a: nozzle hole 234: upper cover plate
235: circular hole 236: lower cover plate
237: circular hole 240: vibration generating device
250: Air diffuser 260: Cone
262: inclined portion 264: housing insertion groove
266: second female screw 270: lower housing
272: Hemispherical head 274:
275: The second male

Claims (12)

And a filter regeneration portion connected to the connection hose through which the compressed air or steam is introduced and formed to be smaller than the inner diameter of the filter bag,
The filter regeneration unit includes a circular nozzle plate having upper and lower openings and a predetermined space formed therein and having a plurality of nozzle holes of a predetermined size along an outer rim, And a nozzle box composed of an upper cover plate closing the upper surface of the plate and a lower cover plate closing the lower surface of the nozzle plate,
The filter regeneration unit injects compressed air or steam, which is inserted into the filter bag while moving up and down, through the nozzle hole of the nozzle plate into the filter bag,
The nozzle box includes an air diffuser including a streamlined arcuate cone and a hemispherical lower housing coupled to a lower portion of the cone, the diameter of which gradually increases from the upper end to the lower end of the nozzle box Wherein the filter-bag restoration device comprises: And a filter regeneration portion connected to the connection hose through which the compressed air or steam is introduced and formed to be smaller than the inner diameter of the filter bag,
The filter regeneration unit includes a circular nozzle plate having upper and lower openings and a predetermined space formed therein and having a plurality of nozzle holes of a predetermined size along an outer rim, A cone-shaped warhead-type cone which is composed of an upper lid plate for closing the upper surface of the plate and a lower lid plate for closing the lower surface of the nozzle plate and whose diameter gradually increases from the upper end to the lower end, And a nozzle box formed therein,
Wherein the filter regeneration unit injects the compressed air or steam introduced into the filter bag while moving up and down through the nozzle hole of the nozzle plate into the filter bag. The method according to claim 1,
The cone has a warp-shaped inclined part in the form of a streamlined shape increasing in diameter from an upper end to a lower part of the cone, and a housing insertion groove for opening a lower surface of the cone to form a space with a certain depth to the inside of the cone And a female screw formed along an edge of one side of the lower end of the housing insertion groove,
The lower housing includes a hemispherical head having a semicircular curved surface in a downward direction, a protrusion protruding upward from the hemispherical head to form a groove having a predetermined depth in a central portion, and a male screw formed on an outer edge of the semi- And a protrusion of the lower housing is inserted into the housing insertion groove of the cone to be screwed into the housing insertion groove. 3. The method according to claim 1 or 2,
And a vibration generating device for generating vibrations in up, down, left, and right directions is attached to one side of the nozzle box. 3. The method according to claim 1 or 2,
Wherein the nozzle box adjusts at least one of a size of the cone, a size of the nozzle plate, and a diameter of the nozzle hole according to the type and size of the filter bag. The method according to claim 1,
Wherein the air diffuser is installed by joining one side of the inner surface of the nozzle plate and one side of the air diffuser by using a metal member. 3. The method according to claim 1 or 2,
The connection hose is connected to an external pressure tank for supplying compressed air of a predetermined pressure,
And a controller connected to the valve formed in the air discharge port of the pressure tank to control the flow rate of the compressed air and to control the compressed air in the pressure tank to be intermittently or continuously discharged to the filter bag. 3. The method according to claim 1 or 2,
The connection hose is connected to an external high-pressure steam generator for supplying steam of a predetermined pressure,
Further comprising a control unit connected to a valve formed at an air outlet of the high-pressure steam generator for controlling a flow rate of steam and controlling the steam of the high-pressure steam generator to be intermittently or continuously discharged to the filter bag. 3. The method of claim 2,
And a lower housing plate coupled to a lower portion of the cone, wherein the cone and the lower housing are coupled through a hole formed in a central portion of the lower cover plate, And the cone is positioned and the lower housing is exposed to the outside. delete delete delete

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