KR20210055579A - Apparatus for removing dust using powder and filter - Google Patents

Abstract

The present invention relates to a dust removal apparatus including: a housing; an air flow inlet (1) on one side surface of the housing; an air flow dispersion layer (2) provided in the housing, disposed on the lower end surface in the height direction of the housing, and removing dust from outside air by contact with the outside air flowing in from the outside through the air flow inlet (1); a bubble fluidized bed (3) disposed on the upper end surface of the air flow dispersion layer (2) such that remaining dust is removed by bubbling between the remaining dust that has passed through the air flow dispersion layer (2) and the powder contained inside; a leveling device (4) disposed on the upper end surface of the bubble fluidized bed (3) such that the powder on the bubble fluidized bed (3) is leveled; a filter bag (5) described on the upper end surface of the leveling device (4) and removing fine dust that has passed through the bubble fluidized bed (3); and an air flow outlet (9) disposed on the other side surface of the housing such that the outside air is discharged. With the present invention, the service life of the filter bag can be extended.

Description

Dust removal device using powder and filter{APPARATUS FOR REMOVING DUST USING POWDER AND FILTER}

The present invention relates to a dust removal device, and more particularly, to remove dust such as embers, oil remains, or fine dust contained in outside air by providing an airflow dispersion layer, a bubble fluidized bed, a leveling device and a filter bag, etc. It relates to a dust removal device.

Technologies that control dust generated in the atmosphere or in a specific environment occupy an important industrial position, and as fine dust recently emerged as a social problem, its importance is becoming more prominent.

Dust treatment technologies developed and utilized in recent years include electric dust collection, filtration dust collection, centrifugal dust collection, and wet dust collection. Electric dust collection is a technology that collects fine particles on the surface of a dust collecting electrode by corona discharge using electrostatic force, and centrifugal dust collection is a technology that collects fine particles by centrifugal force by rotating air containing fine particles in a cylinder. Electric dust collection has a high installation cost and requires a large area, and centrifugal dust collection has a simple structure and easy management, but has a disadvantage in that it consumes a lot of energy and is vulnerable to abrasive dust. Wet dust collection is a method of cleaning and separating dust using water. Although it has excellent dust collection power, there are disadvantages in that the cleaning liquid may cause corrosion of the device and the treatment problem of the cleaning liquid.

Filtered dust collection is a method using a filter, which is effective in separating pollutants from combustion gases and has an advantage of lower cost compared to other dust collection methods. Improvement studies have been conducted in various fields such as. Among them, methods of adding powder to a dust collector or dust removal device include a method of diffusing and coating the stored powder on the filter using an incoming air stream, and a method of coating the powder on the filter using a separate forced air supply. have. However, in the case of the electronic method, the oil mist adheres to the powder-coated filter and becomes oil-liquid over time and penetrates the filter surface, causing clogging quickly, and it is impossible to use the filter for a long time. In addition, there is a problem that maintenance is very difficult due to frequent charging. In addition, in the case of the latter method, the dust collection capacity and the supply air capacity are combined to increase the overall machine capacity and the power cost may also be increased, and it may be a legal problem as the dust concentration is lowered by mixing the dust concentration with the supply air. In addition, there is a problem in that the powder accumulated when the forced supply is regularly aired may fall to the bottom through the pores of the support and lose its function, and the support is also blocked, making it impossible to use.

As a related prior art, there is Korean Laid-Open Patent Publication No. 10-2017-0161208 (name of the invention: an air purification device using a photocatalytic module having a laminated porous plate, publication date: June 7, 2019).

Accordingly, in an embodiment of the present invention, dust (hereinafter referred to as "dust") such as introduced embers, remains, or fine dust is first removed by forcibly colliding with the airflow dispersion layer, and the remaining dust passing through the airflow dispersion layer is removed from the bubble fluidized bed. A dust removal device to extend the life of the filter bag by preventing the rupture of the bubble fluidized bed through the second removal by bubbling with the powder of the filter bag, and the third removal of fine dust through the filter bag. to provide.

The problem to be solved by the present invention is not limited to the problem(s) mentioned above, and another problem(s) not mentioned will be clearly understood by those skilled in the art from the following description.

Dust removal apparatus according to an embodiment of the present invention relates to a dust removal apparatus, the housing; An airflow inlet (1) disposed on one side of the housing; An airflow distribution layer (2) provided inside the housing and disposed on a lower surface in the height direction of the housing to remove dust contained in the outside air by contacting the outside air introduced from the outside through the airflow inlet (1); A bubble fluidized bed (3) disposed on the upper surface of the airflow dispersion layer (2) to remove the residual dust by causing the residual dust that has passed through the airflow dispersion layer (2) and the powder contained in the internal space to bubbling. ; A leveling device (4) disposed on the upper surface of the bubble fluidized layer (3) to maintain the level of the powder stacked on the bubble fluidized bed (3); A filter bag 5 disposed on the top surface of the horizontal holding device 4 to remove fine dust passing through the bubble fluidized bed 3; And an airflow discharge part 9 disposed on the other side of the housing to discharge outside air,

A blower (8) provided inside the housing and disposed on the top surface in the height direction of the housing; A wet washing device disposed on the lower surface of the airflow dispersion layer 2 to wash the lower portion of the airflow dispersion layer 2; And a filter bag evacuation unit disposed on the top surface of the filter bag 5 to dedust fine dust attached to the surface of the filter bag 5.

According to an embodiment of the present invention, dust such as introduced embers, oil remains, or fine dust is first removed by forcibly colliding with the dispersion layer, and the remaining dust passing through it is bubbled with bubble fluidized bed powder to remove secondary , By removing the fine dust passing through the filter bag three times, and preventing the pores of the bubble fluidized bed by using a leveling device, there is an effect that the life of the filter bag is remarkably extended.

1 is a schematic diagram showing a dust removal apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged view of an airflow dispersion layer, a bubble fluidized bed, and a leveling device among the dust removal apparatus of FIG.
FIG. 3 is a diagram showing the configuration of the air flow distribution layer, the bubble fluidized bed, and the leveling device of FIG. 2.
Figure 4 is a side view of the horizontal holding device of the present invention.
5 is a view showing an embodiment of the installation structure of the present invention, an embodiment of a system diagram that flows into the present dust apparatus from collection facilities at various parts and discharges after treatment.
6 is a graph showing the comparative experiment results of the dust removal apparatus according to an embodiment of the present invention.
7 is an embodiment of the horizontal holding device of the present invention.

Advantages and/or features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only the present embodiments are intended to complete the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

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

1 is a schematic diagram showing a dust removal apparatus according to an embodiment of the present invention, FIG. 2 is an enlarged view of an airflow dispersion layer, a bubble fluidized bed, and a leveling device among the dust removal apparatus of FIG. 1, and FIG. It is a configuration connection diagram of the air flow distribution layer, the bubble fluidized bed, and the leveling device, FIG. 4 is a side view of the leveling device of the present invention, FIG. 5 is a view showing an embodiment of the installation structure of the present invention, and FIG. Fig. 7 is a graph showing the results of a comparative experiment of a dust removal apparatus according to an embodiment of the present invention, and FIG. 7 is an embodiment of the horizontal holding apparatus according to the present invention.

As shown in Fig. 1, an airflow inlet 1 is disposed on one side of the housing, and an airflow discharge unit 9 is disposed on the upper end of the other side. As shown in Figs. 1 to 3, the outside air introduced through the air flow inlet 1 is connected to the air flow distribution layer 2, the bubble fluidized bed 3, the leveling device 4, and the filter bag 5 along the pipeline. Then, it is discharged through the airflow discharge part 9. For smooth movement of outside air, a blower 8 may be additionally included in the housing, and the blower 8 may be disposed on an upper surface in the height direction of the housing.

The outside air introduced into the housing through the airflow inlet (1) moves to the lower surface of the housing, and the airflow dispersion layer (2), the bubble fluidized layer (3), the leveling device (4) and the filter bag (5) are It may pass sequentially and be discharged to the outside of the housing through the airflow discharge part 9.

The airflow dispersion layer 2 is provided inside the housing, is disposed on the lower surface in the height direction of the housing, and contacts the outside air introduced through the airflow inlet 1 to primarily remove dust contained in the outside air. It can be removed, and can be supported so that the powder of the bubble fluidized layer 3 does not fall. The airflow dispersion layer 2 may be formed in a porous structure that passes outside air so as not to generate excessive differential pressure, and the porous structure may be formed in a polygonal or circular shape, but is not limited thereto. In addition, the airflow dispersion layer 2 should be a non-flammable material that does not catch fire, and should be a material that can be washed in water and reused. Specifically, molded balls such as sand, beads, fleshy balls, ceramic balls, and loess balls may be used, but the present invention is not limited thereto.

In order to clean the airflow dispersion layer 2, a wet washing apparatus comprising a washing device 11 and a washing water discharge device 12 may be additionally included on the lower surface of the airflow dispersion layer 2. In the wet cleaning device, the cleaning device 11 may be disposed on a lower surface of the airflow dispersion layer 2, and the washing water discharging device 12 may be disposed on a lower surface of the cleaning device 11, and the The lower portion of the airflow dispersion layer 2 can be washed by using the hydraulic pressure of the cleaning nozzle included in the cleaning device 11.

Residual dust may be removed secondarily by moving to the bubble fluidized bed 3 disposed on the upper surface of the airflow dispersion layer 2. The bubble fluidized bed 3 contains powder in the inner space, and the powder is impregnated and mixed with the residual dust by causing a bubbling phenomenon to prevent the residual dust from depositing and penetrating into the filter bag 5. Can be removed. The term "bubbling" as used herein may mean that gas is injected into a liquid at a high pressure to form a bubble and rises.

The bubble fluidized layer 3 may also remove odors or specific reactive organic compounds depending on the type of the powder. Specifically, a material having a dry powder form such as diatomaceous earth, slaked lime, and activated carbon may be used, but is not limited thereto.

As shown in Figure 4, the leveling device 4 is disposed on the upper surface of the bubble fluidized bed 3 to surround a plurality of chain teeth 41 and a part of the outer circumferential surface of the plurality of chain teeth 41 A chain 42 and a plurality of cutters 43 periodically disposed along the outer circumferential surface of the chain 42 may be provided. The cutter 43 may be disposed perpendicular to the chain 42. The cutter 43 may be a flat plate, a vertical plate, or a semicircular shape, but is not limited thereto.

The leveling device 4 can rotate the cutter 43 through a chain driving method, and the cutter 43 cuts and transports the powder stacked on the bubble fluidized bed 3, It can remove pores and keep it level. The pore phenomenon of the bubble fluidized bed 3 is caused by the change of the internal rising airflow due to the bubbling phenomenon, and by removing the pores and maintaining the level of the bubble fluidized bed 3, residual dust and impregnated powder are removed from the filter bag 5 By preventing contact with the filter bag 5, clogging of the filter bag 5 may be prevented, and accordingly, the life of the filter bag 5 may be extended.

The fine dust that is not removed from the bubble fluidized bed (3) is thirdly removed while passing through the filter bag (5) disposed on the top surface of the leveling device (4), and the outside air that has passed through the filter bag (5) It is discharged to the outside through the airflow discharge part 9. A filter bag evacuation unit disposed on the upper surface of the filter bag 5 may be further included for evacuation of the contaminated filter bag. The filter bag evacuation unit further includes a filter bag evacuation unit including a pneumatic evacuation device 6 disposed on the upper surface of the filter bag 5 and an air compressor 10 and a power supply unit 7 disposed on the other side of the housing. can do. The filter bag evacuation unit may remove fine dust adhering to the surface of the filter bag 5 from time to time to extend the life of the filter bag 5. The pneumatic evacuation device may be located on an upper surface of the housing, and the air compressor may be installed at the upper and lower ends of the device.

[Comparison test of filter life extension effect]

6 is a case where the powder of the bubble fluidized bed 3 and the leveling device 4 are not installed in the dust removal device of the present invention, the powder of the bubble fluidized bed 3 is installed and the leveling device 4 is not installed. It shows the experimental results comparing the life of the filter bag 5 when the case and the powder of the bubble fluidized bed 3 and the leveling device 4 are installed according to an embodiment of the present invention. The comparative experiment was conducted by burning an average of 8 kg of meat per day, and it was confirmed that the maximum differential pressure at which the dust removal device can operate is about 240 mmAq. That is, when the differential pressure reaches 240 mmAq, the operation of the dust removal device is impossible and the filter bag 5 needs to be replaced.

As a result of the experiment, as shown in FIG. 6, when the powder of the bubble fluidized bed 3 and the leveling device 4 are not installed, a differential pressure of about 240 mmAq is generated on the 21st day after the start of operation, so that additional operation is impossible. Reached. When the powder of the bubble fluidized bed 3 is installed but the leveling device 4 is not installed, the differential pressure increase rate decreases compared to the case where the powder of the bubble fluidized bed 3 and the leveling device 4 are not installed, Driving was possible for about 90 days. In the case of the embodiment of the present invention in which the powder of the bubble fluidized bed 3 and the leveling device 4 are installed, the speed of increasing the differential pressure was remarkably decreased, and the operation was possible for about 180 days.

That is, it was confirmed that the dust removal apparatus of the present invention significantly extended the life of the filter bag by including the powder of the bubble fluidized bed 3 and the leveling device 4.

As described above, although the present invention has been described by the limited embodiments and drawings, the present invention is not limited to the above embodiments, which is, if one of ordinary skill in the field to which the present invention belongs, various modifications and Transformation is possible. Therefore, the idea of the present invention should be grasped only by the claims set forth below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the idea of the present invention.

1: air flow inlet
2: airflow dispersion layer
3: bubble fluidized bed
4: Leveling device
5: filter bag
6: pneumatic evacuation device
7: power supply
8: blower
9: Airflow discharge part
10: air compressor
11: cleaning device
12: washing water discharge device
41: Chainsaw
42: chain
43: cutter

Claims (9)

housing;
An airflow inlet (1) disposed on one side of the housing;
An airflow distribution layer (2) provided inside the housing and disposed on a lower surface in the height direction of the housing to remove dust contained in the outside air by contacting the outside air introduced from the outside through the airflow inlet (1);
A bubble fluidized bed (3) disposed on the top surface of the airflow dispersion layer (2) to remove the residual dust by causing the residual dust that has passed through the airflow dispersion layer (2) and the powder contained in the internal space to bubbling. ;
A leveling device (4) disposed on the upper surface of the bubble fluidized bed (3) to maintain the level of the powder stacked on the bubble fluidized bed (3);
A filter bag 5 disposed on the top surface of the horizontal holding device 4 to remove fine dust passing through the bubble fluidized bed 3; And
An airflow discharge part 9 disposed on the other side of the housing to discharge outside air;
Dust removal device comprising a.
The dust removal apparatus according to claim 1, characterized in that the airflow dispersion layer (2) is provided in a porous structure.
The dust removal apparatus according to claim 1, characterized in that the airflow dispersion layer (2) is a non-combustible material.
The method of claim 1, wherein the leveling device (4) comprises a plurality of chain teeth (41), a chain (42) surrounding a part of the outer circumferential surface of the plurality of chain teeth (41), and along the outer circumferential surface of the chain (42). Dust removal device, characterized in that it comprises a plurality of cutters (43) arranged periodically.
5. The dust removal apparatus according to claim 4, characterized in that the cutter (43) is arranged vertically on the chain (42) to maintain the level of the powder.
The apparatus of claim 1, further comprising: a blower (8) provided inside the housing and disposed on an upper surface in a height direction of the housing;
A wet washing device disposed on the lower surface of the airflow dispersion layer 2 to wash the lower portion of the airflow dispersion layer 2; And
And a filter bag evacuation unit disposed on the upper surface of the filter bag 5 to exhaust fine dust attached to the surface of the filter bag 5.
The method according to claim 6, wherein the wet cleaning device has a cleaning device (11) disposed on a lower surface of the airflow dispersion layer (2), and a cleaning water discharging device (12) disposed on the lower surface of the cleaning device (11). And, the dust removal device, characterized in that cleaning the lower portion of the airflow dispersion layer (2) using the water pressure of the cleaning nozzle included in the cleaning device (11).
The filter bag evacuation unit according to claim 6, comprising a pneumatic evacuation device (6) and an air compressor (10) disposed on the top surface of the filter bag (5), and a power supply unit (7) disposed on the other side of the housing. It characterized in that it further comprises; dust removal device.
According to claim 1, The outside air introduced into the housing through the air flow inlet (1) moves to the lower surface of the housing, and the air flow distribution layer (2), the bubble fluidized layer (3), the horizontal holding device (4), and Dust removal device, characterized in that passing through the filter bag (5) sequentially and discharged to the outside of the housing through the airflow discharge unit (9).

Images