KR101446229B1 - Warhead Pulse Jet Type Dispersion Apparatus and Filter Structure Mounting the Dispersion Apparatus - Google Patents

Abstract

A filter structure for a dust collecting apparatus in which dust and contaminants are collected by dust collecting and collecting by a filter, the filter structure for dust collecting apparatus comprising a filter cap mounted on an upper surface of a filter, and a warhead- The warhead impact airflow distributor comprises a streamlined bullet-shaped metal member whose diameter gradually increases from the upper end to the lower end of the warhead impact airflow distributor. The warhead impact airflow distributor is disposed inside the upper end of the filter or the filter, One or more filter frames.

Description

Technical Field [0001] The present invention relates to a warhead type impact airflow dispersing device and a filter structure for a dust collecting device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter structure for a dust collecting apparatus and, more particularly, to a dust collecting apparatus having a warhead type impact airflow dispersing apparatus for improving the exhausting ability and increasing a suction flow rate, Filter structure.

Generally, a dust collector is installed in various industrial processes where dust and dust are generated in a large amount, and collects and separates fine dust and pollutants in the air by a filter.

The filter of the dust collector accumulates dust accumulated on the filter cloth or the surface of the filter when the dust generated in the factory or the work site is used for a long period of time. As a result, the flow rate of the filter is slowed, the pressure loss is increased, The dust collecting function of the filter is deteriorated.

Therefore, the dust collector must remove the dust accumulated in the filter in order to maintain the performance of the dust collector. The accumulated dust is removed by spraying the compressed air through a pulse device with a certain amount of compressed air for a predetermined time or a certain condition that the filter is shaken when the pressure is applied, (Jet air) is applied inside the filter to release the dust.

When the dust collector continuously performs the dust collecting function of the filter, a venturi nozzle is installed between the nozzle and the inlet of the filter in order to efficiently exhaust dust and transfer a large amount of compressed air to the filter surface.

The venturi nozzle is a component that acts to increase the flow rate by converting the pressure energy of the air injected from the nozzle into kinetic energy.

These venturi nozzles increase the effect of increasing the flow rate by sucking the ambient air with the pressure lowered by the Bernoulli's law.

1 is a view showing a flow of a jet stream of a blow tube in a filter structure for a dust collecting apparatus equipped with a venturi nozzle according to the related art and a filter structure for a dust collecting apparatus without a venturi nozzle mounted thereon.

1 (a) shows a flow of a jet stream of a blow tube in a filter structure for a dust collecting apparatus to which a venturi nozzle is not attached during a dust removal process. FIG. 1 (b) The flow of the jet stream of the blow tube in the filter structure for the dust collecting apparatus mounted inside the upper part of the filter is shown.

1 (a) and 1 (b), in the filter structure for a dust collecting apparatus in which the venturi nozzle 10 is mounted or not mounted, the jet stream of the blow tube 20 flows to the inner bottom of the filter 30 Descends from the lower portion of the filter 30, and transfers it to the upper direction.

1 (a) and FIG. 1 (b), since the jet flow of the blow tube 20 is lowered to the inner lower end of the filter 30 and the exhaustion is performed from the lower direction to the upper direction, In the upper part of the main body.

As shown in FIG. 2, the cartridge filter of a cylindrical structure has a large filtration area and good filtration ability, but it is not easy to shake off dust if the dust is bent between the mountains and the mountains.

Therefore, when the cartridge filter 30 of the conventional cylindrical structure is dented deeply between the mountains and the mountains of the bent filter 30, the filtration area is reduced, The pressure is increased to deteriorate the working environment and the productivity.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a filter structure for a dust collecting apparatus in which a dispersing device is internally mounted on a filter structure for a dust collecting device to improve the exhausting ability and increase the suction flow rate.

An object of the present invention is to provide a warhead-shaped impact airflow dispersing device, which is inserted into a filter structure for a dust collecting device and is mounted in a form of a streamlined bullet.

According to an aspect of the present invention, there is provided a filter structure for a dust collecting apparatus for collecting dust and contaminants by a filter,
And a warhead type impact airflow dispersing device which is inserted into and inserted into the upper end of the filter,
The warhead impact airflow distributor comprises a streamlined bullet-shaped metal member whose diameter gradually increases from the upper end to the lower end.

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The above-described warhead impact airflow distributing device is a streamlined type in which the diameter gradually increases from the upper end portion to the lower end, and a venturi cone having a lower end section opened to form a space with a certain depth therein; And a plurality of radial vanes protruding in the longitudinal direction at predetermined intervals in the radial direction along the circumferential direction of the circular tube, ; And a lower housing having a lower end made of a semi-circular curved surface and an upper end inserted and coupled to the lower end inner side of the venturi cone through an open lower end surface of the venturi cone.
The present invention provides an impact type air current dispersing apparatus for collecting dust and contaminants by a filter,
A venturi cone formed of a streamlined bullet-shaped metal member whose diameter gradually increases from an upper end portion to a lower portion thereof, a lower end surface of which is opened and a space of a certain depth is formed inside; And a lower housing having a lower end made of a semi-circular curved surface and an upper end inserted into the lower end portion of the venturi cone through an open lower end surface of the venturi cone.

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According to the above-described construction, the structure of the venturi nozzle mounted on the upper part of the filter cap is improved to widen the suction area, minimize the suction resistance, and maximize the suction pressure.

The present invention can increase the flow rate and the flow rate of the intake air through the Coanda effect by constructing the venturi nozzle of the bullet shape, thereby improving the efficiency of the exhaustion and the suction process.

Since the venturi nozzle is coupled to the upper part of the filter cap in a protruding manner, the distance between the suction area and the lower discharge part is shortened, so that the inflow of air is facilitated and the suction flow rate is increased.

1 is a view showing a flow of a jet stream of a blow tube in a filter structure for a dust collecting apparatus equipped with a venturi nozzle according to the related art and a filter structure for a dust collecting apparatus without a venturi nozzle mounted thereon.
FIG. 2 is a view showing a state in which dust is embedded in a valley in the cartridge filter of a cylindrical structure and dust is well separated from the valley.
3 is a perspective view showing a warhead impact airflow distributor according to a first embodiment of the present invention and a filter structure for a dust collector equipped with the same.
4 is an exploded perspective view showing a warhead impact airflow distributor and a filter structure for a dust collector equipped with the same according to the first embodiment of the present invention.
5 is a perspective view showing a warhead impacting air current dispersing apparatus according to the first embodiment of the present invention.
6 is a cross-sectional view illustrating a combined structure of a warhead impact airflow distributor and a dust collector filter structure according to a first embodiment of the present invention.
7 is a cross-sectional view showing a combined structure of a plurality of warhead impact airflow distributors and a filter structure for a dust collector according to the first embodiment of the present invention.
FIG. 8 is a view showing a warhead type impact airflow distributor according to a second embodiment of the present invention and a filter structure for a dust collector equipped with the same.
9 is a view showing a warhead impact airflow distributor according to a second 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.

FIG. 3 is a perspective view showing a warhead type impact airflow dispersing apparatus according to a first embodiment of the present invention and a filter structure for a dust collecting apparatus equipped with the same, FIG. 4 is a perspective view of a warhead impact airflow distributing apparatus according to the first embodiment of the present invention, And FIG. 5 is a perspective view showing a warhead type impact airflow distributor according to a first embodiment of the present invention, and FIG. 6 is a perspective view showing a filter structure for a dust collector according to a first embodiment of the present invention. FIG. 7 is a cross-sectional view illustrating a structure in which a plurality of warhead-shaped impact airflow distributing devices and a dust collecting device filter structure according to the first embodiment of the present invention are combined, Fig.

3 and 4, the filter structure for a dust collecting apparatus according to the first embodiment of the present invention includes a warhead impact airflow distributor 100 and a filter 300 mounted on the upper surface of the filter cap 200 ), And the warhead impact airflow distributor (100) is inserted into the upper end of the filter (300) and mounted.

The warhead type impact airflow dispersing device 100 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. , It amplifies the flow of the introduced compressed air, thereby enhancing the exhaustion efficiency.

5 and 6, the warhead impact airflow distributor 100 according to the first embodiment of the present invention includes a venturi cone 110, a dispersion wing 120, and a lower housing 130 do.

When the warhead type impact airflow dispersing apparatus 100 flows into the interior of the filter 300 from the air injection nozzle, the velocity of the compressed air is close to the sonic speed, and thus forms a warhead-shaped cone.

The shape of the warhead cone improves the discharge effect by generating shock waves and forming a downward flow when the compressed air is dispersed.

The venturi cone 110 includes a widened inclined portion 112, a wing attachment portion 114, a lower housing insertion groove 116, and a female screw 118.

The enlargement inclined portion 112 has a streamlined shape such as a bullet shape and a shell shape of a shell, the diameter of which gradually increases in a downward direction from a pointed upper end portion, that is, in a flow direction of the fluid.

The compressed air introduced from the external blow tube 20 flows on the surface of the enlargement slant part 112. [ The air flowing on the surface of the enlargement slant part 112 sucks air around the venturi cone 110 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.

5 and 6, the flow of the air blown from the external blow tube 20 is caused by the flow of air flowing along the surface of the enlarged slope part 112 and the enlarged slope part 112 due to the Coanda effect, The flow of the inflow air is amplified.

In the warhead impact airflow distributor 100 of the first embodiment of the present invention, the jet flow emitted from the external blow tube 20 flows downward from the upper portion of the venturi cone 110 along the outer curved surface Which is the air introduced around the venturi cone 110 according to the Coanda effect generated by the air and the air flow, is sucked into the filter 300, and thus serves as an air amplifier.

In other words, the warhead type impact airflow distributor 100 is configured to distribute the inflow air through the flow of the air that sucks the ambient air several tens of times or more due to the flow of air flowing along the outer curved surface of the venturi cone 110, It amplifies the flow and has stronger draining performance.

In order to uniformly jet the jet stream blown from the blow tube 20, the enlargement slant part 112 is formed in the form of a bullet-shaped warhead of the bullet and shell, and the curved surface is gentle so as to maximize the coanda effect. Should be.

The dispersing blade attaching portion 114 forms a parsing step at a lower depth of the enlarged slanting portion 112 to a predetermined depth according to the circular rim, and the dispersing wing portion 120 is fitted to the step.

The lower housing insertion groove 116 has a groove of a predetermined depth so that the lower housing 130 is inserted into the venturi cone 110 by being inserted into the venturi cone 110 by opening one end surface of the dispersing vane attachment part 114.

The female screw 118 is formed on the lower side of the lower housing insertion groove 116 and is formed on the inner surface of the opening part of the opening part of the dispersing vane 114 to form a thread groove to be screwed into the lower housing 130.

The dispersing vane portion 120 includes a circular tube 122 having an inner diameter that is larger than the outer diameter of the dispersing vane attachment portion 114 and penetrates the center portion to be inserted into the circular rim of the dispersing vane attachment portion 114, And a plurality of radial wings 124 protruding in the longitudinal direction at regular intervals in the radial direction along the circumferential direction of the rotor 122.

The dispersing vanes 120 serve to redisperse the impinging air currents dispersed in the warhead-shaped upper portion and fix the filter 300 or the filter frame 310. [

The number of the radial wing portions 124 can be adjusted to 2-10, the thickness can be adjusted to 3-10 mm, and the width can be adjusted to 5-30 mm.

The inner diameter of the circular tube 122 is preferably less than 35% of the diameter of the circle formed between the ends of the radial wing 124 to reduce resistance during the suction process.

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The radial wing portions 124 are formed in a linear shape having a predetermined constant interval along the circumferential direction of the circular tube 122 and form fine grooves on the left side surface and the right side surface of each radial wing portion 124, Shaped or radial wing portions 124 can be randomly formed at various intervals.

The dispersing wing 120 functions to uniformly deliver the airflow amplified by the Coanda effect in the venturi cone 110 to the inside of the filter 300. [

The lower housing 130 includes a hemispherical head 132 having a semicircular curved surface on one side and a groove having a predetermined depth in the center protruding from the hemispherical head 132 on the other side and having a female thread 118 of the venturi cone 110 (Not shown).

The lower housing 130 exhausts the jet stream from the upper portion of the filter 300 along the semicircular curved surface so as to prevent the jet stream passing through the dispersing vane portion 120 from moving toward the inner center of the filter 300,

The lower housing 130 is formed in a hemispherical structure to minimize resistance when clean air filtered through the filter medium is discharged to an upper portion of the filter 300.

When the circular tube 122 of the dispersing vane portion 120 is inserted and inserted into the dispersing vane attachment portion 114 of the venturi cone 110 as described above, the lower surface of the dispersing vane portion 120 and the venturi cone 110, And the lower end surfaces of the lower end portions are located on the same line.

The warhead impact airflow distributor 100 is completed by inserting the male screw 134 of the lower housing 130 into the lower housing insertion groove 116 of the venturi cone 110 and screwing the same.

The warhead type impact airflow dispersing apparatus 100 is configured such that a first circular ring 140 is formed on the inside of an upper portion of a filter frame 310 formed inside a filter 300 by a bonding method such as welding or the like, And the second circular ring 142 is joined thereto.

As shown in FIG. 7, the warhead impact airflow distributor 100 may be installed in the filter 300 in one or more.

The warhead impact airflow distributor 100 is preferably installed within a range of 10 cm from the upper surface of the filter 300 inside the upper part of the filter 300 or the filter frame 310.

The warhead impact airflow distributor 100 according to the first embodiment of the present invention includes the venturi cone 110, the dispersing vane part 120 and the lower housing 130 to minimize the suction resistance and to simplify the manufacturing process .

5, when the injection of the compressed air from the external blow tube 20 is started, the air blown from the blow tube 20 due to the Coanda effect flows along the surface of the enlargement slope part 112 Accordingly, the air around the warhead impact airflow distributor 100 is sucked into the filter 300 at a high speed while increasing the flow rate and the flow velocity.

The air sucked into the radial wing portion 124 of the dispersing wing 120 forms a side stream along the hemispherical head 132 of the semi-circular curved surface of the lower housing 130, And is exhausted from the upper part of the body 300 to the lower part.

The warhead impact airflow distributor 100 is coupled to the inside of the upper part of the filter frame 310 formed inside the filter 300 to minimize the unusable range in which the filter 300 is not drained, There is no problem of loss of function due to no draining.

The warhead type impact airflow distributing device 100 simultaneously performs the function of sucking the clean air filtered by pollutant from the filter 300 and discharging it to the outside of the dust collecting apparatus and discharging the compressed air in the discharging process .

Since the warhead type impact airflow dispersing device 100 performs suction and discharge, it is manufactured considering the air resistance at the time of suction.

The warhead impact airflow distributor 100 adjusts the number of the radial wings 124 and the size ratio and curved shape of the venturi cone 110 and the lower housing 130 according to the type of the filter 300 and the contaminants Design to minimize suction resistance.

The warhead impact airflow distributing apparatus 100 sucks air flowing along the curved surface of the enlarged slope part 112 and air around the enlarged slope part 112 to increase the flow rate of the filter (300).

The warhead impact airflow distributor 100 sucks the air stream amplified by the Koanda effect in the enlarged slant part 112 of the venturi cone 110 through the dispersing vane part 120 into the inside of the filter 300, The suction force at the time of the suction is reduced, thereby maximizing the suction pressure and facilitating the inflow of air, thereby increasing the suction flow rate.

The present invention is advantageous in that when the warhead type impact airflow distributor 100 is mounted on the filter frame 310, the energy loss is very small as compared with the conventional method in which exhaustion is performed from the lower part to the upper part, And the exhaustion performance is very high.

7 is a view showing a warhead impact airflow distributor according to a second embodiment of the present invention and a filter structure for a dust collector equipped with the warhead impactor airflow distributor according to the second embodiment of the present invention, Fig.

Hereinafter, as shown in FIGS. 7 and 8, the second embodiment of the present invention uses the same reference numerals as those of the above-described first embodiment of the present invention.
7 and 8, the filter structure for a dust collecting apparatus according to the second embodiment of the present invention includes a warhead impact airflow distributor 100 and a filter 300 mounted on the upper surface of the filter cap 200 , And the warhead impact airflow distributor 100 is inserted into the upper end of the filter 300 and fixed to the outer mounting type using an auxiliary device.
A warhead impact airflow distributor 100 according to a second embodiment of the present invention includes a venturi cone 110, a dispersion wing 120, and a lower housing 130.
One end of the venturi cone 110 protrudes from the outer edge of the venturi cone 110 in the form of a wing to form at least one stationary hook member 400 along the outer edge of the venturi cone 110 at regular intervals.
Each of the fixing hook members 400 is formed in a straight line shape in which the upper portion is inclined in an inclined form and the lower portion is parallel to the outer frame.
Each fixing hook member 400 has a hole 402 at one side thereof.
The hooks 410 in the longitudinal direction are formed so that one end passes through the hole 402 of each fixing hook member 400 and the other end is hooked on one end of the upper surface of the filter cap 200 or the filter 300, And the lower end are bent at right angles to form hooks.

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The hook cap 410 is made of stainless steel and has a thickness of 3-5 mm. The hook cap 410 is bent at a right angle from one end of the filter cap 200 and is bent at a right angle from the other end of the filter cap 200 downward, (Or the upper surface end of the filter 300).

The venturi cone 110, the dispersing vane part 120 and the lower housing 130 are the same as those of the first embodiment of the present invention, and detailed description thereof is omitted.

The warhead impact airflow distributor 100 according to the second embodiment of the present invention can be installed in a new filter 300 by removing it when the filter 300 is discarded with an external mounting type.

The warhead-shaped impact airflow distributor 100 according to the first and second embodiments of the present invention can be used for all 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: Warhead type impact airflow disperser
110: Venturi cone
112:
114: Dispersion blade mounting part
116: Lower housing insertion groove
118: Female thread
120: Dispersing wing
122: Circular tube
124: Radial wing
130: Lower housing
132: hemispherical head
134: male screw
140: first circular ring
142: second circular ring
200: filter cap
300: filter
310: Filter frame
400: Fixing hook member
402: hole
410: Hook

Claims (9)

1. A filter structure for a dust collecting apparatus for collecting and collecting dust and contaminants,
And a warhead type impact airflow dispersing device formed in a cylindrical shape with an upper part and an lower part opened and inserted into and inserted into an open upper end inside a filter closed by a filter cap,
The warhead impact airflow distributor comprises a streamlined bullet-shaped metal member whose diameter gradually increases from the upper end to the lower end,
Wherein the warhead impact airflow distributor comprises: a venturi cone having a streamlined shape increasing in diameter from an upper end of the warp type impact airflow distributor; a venturi cone having a lower end section opened to form a space having a predetermined depth;
A plurality of radial vanes protruding in the longitudinal direction at a predetermined interval in a radial direction along the circumferential direction of the circular tube; Wing portion; And
The lower end of the venturi cone is made of a semicircular curved surface and the upper end is inserted into the lower end inner side of the venturi cone through the opened lower end surface of the venturi cone,
And a filter structure for a dust collecting apparatus. delete delete The method according to claim 1,
A first circular ring of circular shape is joined along the upper inner rim of the filter, the plurality of radial wings are placed thereon, and a circular second circular ring is bonded onto the radial wing along the upper inner rim of the filter And the filter structure for a dust collecting apparatus. The method according to claim 1,
Wherein the warhead impact airflow distributing device is installed within a range of 10 cm from the upper end surface of the filter or is installed at least one inside the filter. The method according to claim 1,
The warhead impact airflow distributor comprises a plurality of fixing hook members protruding in a wing shape on a lower end side of the venturi cone and formed at an outer rim and having a hole at a central portion along a lower edge of the venturi cone at regular intervals ,
And a hook-shaped hook that is formed at one end thereof so as to pass through the hole of each of the fixed hooking members and the other end to be fixed to the upper surface edge of the filter cap or the upper surface end of the filter. In the warhead type impact airflow distributor,
A venturi cone formed of a streamlined bullet-shaped metal member whose diameter gradually increases from an upper end portion to a lower portion thereof, a lower end surface of which is opened and a space of a certain depth is formed inside;
A lower housing having a lower end made of a semi-circular curved surface and an upper end inserted and coupled to an inside of a lower end portion of the venturi cone through an open lower end surface of the venturi cone; And
A circular tube having a central portion penetrated to be inserted into and engaged with an outer rim of a step formed at an inner side of a lower end of the venturi cone; a plurality of projections projecting in the longitudinal direction at a predetermined interval in a radial direction along the circumferential direction of the circular tube; And a dispersing vane portion forming a radial vane portion. delete 8. The method of claim 7,
A plurality of fixing hook members protruding in a wing shape on a lower end side of the venturi cone and formed in an outer rim and having a hole at a central portion thereof are formed at regular intervals along the lower edge of the venturi cone,
And a hook-shaped hooking hole is formed, one end of which passes through the hole of each of the fixed hooking members, and the other end is hooked on the upper surface edge of the filter cap or the upper surface end of the filter.

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