KR102063853B1 - Duct-receiving container for odor and fine dust reduction - Google Patents

Abstract

The present invention relates to a duct-receiving container, which is installed at an end of a duct for discharging gas generated in a factory to the outside to reduce and discharge odor and fine dust. The duct-receiving container according to the present invention comprises: a container body connected to an end of a duct through which discharged gas is transferred to reduce fine dust and odor contained in the discharged gas, having an opened upper portion, and storing water therein; a floating container for floating water stored in the container body, having an upper side connected to the duct, and allowing the discharged gas transferred from the duct to be ejected to a surface of water in a lower side thereof while maintaining a constant interval from a surface of the water stored in the container body; and a filter for covering an upper opening of the container body.

Description

Duct cup container for reducing odor and fine dust {DUCT-RECEIVING CONTAINER FOR ODOR AND FINE DUST REDUCTION}

The present invention relates to a duct receiving container, and more particularly, to a duct receiving container which is installed at the distal end side of the duct for discharging gas generated in the factory to the outside to reduce odor and fine dust.

In general, in industrial facilities such as factories, environmental pollution due to odor and fine dust emissions is a serious situation. For example, in the food drying process or the organic fertilizer manufacturing process, the exhaust gas generated from the mixing, heating, and granulation processes of by-products is discharged to the outside through ducts, and odors and fine dust are discharged together to cause air pollution. It is becoming. In order to reduce such odor or fine dust, dust collector or scrubber should be separately installed, but the installation cost is very high and difficult to manage. Accordingly, it is possible to effectively reduce fine dust and odor at low cost, and to develop an exhaust gas purification device that is easy to manage such as installation, transportation and cleaning.

Republic of Korea Patent No. 10-14119240

The present invention was devised to solve the environmental pollution problem of the conventional factory exhaust gas as described above, by simply installing at the end of the duct where the exhaust gas is transported and discharged odor and fine odor can effectively reduce the odor and An object of the present invention is to provide a duct receiving container for reducing fine dust.

Odor and fine dust reduction duct receiving container according to the present invention for achieving the above object is connected to the distal end side of the duct to which the exhaust gas is transported, to reduce the fine dust and odor contained in the exhaust gas A duct receiving container, comprising: a container body having an upper opening and water stored therein; Is configured to float in the water stored in the container body, the upper side is connected to the duct, the lower side while maintaining a constant distance from the surface of the water stored in the container body to the surface of the water discharged from the duct A float passage configured to eject; And a filter covering the upper opening of the container body.

Here, the floating cylinder is formed with a plurality of circular projections having concentricity in the lower center, and a plurality of injection holes for injecting the exhaust gas at the tip of the circular projection is formed through a hole while forming a circular pattern. In addition, the circular protrusion is preferably formed to have a smaller diameter toward the lower side.

In addition, a plurality of protruding injection nozzles are formed in the lower center of the floating cylinder, and injection holes are formed at the tip of the injection nozzle.

And, the lower edge of the float is preferably provided with a float. Here, the floating sphere may be composed of a housing integrally formed on the lower edge of the floating cylinder, the floating material may be filled in the floating sphere.

In addition, the floating sphere is composed of a separate member on the lower edge of the floating cylinder can be fixedly coupled, is formed in an annular band shape along the outside of the injection hole formed in the lower center portion of the floating cylinder and protruded to a certain height downward, The lower portion of the float can be configured to be submerged in water to a certain depth and the upper portion of the float can float above the water surface.

Here, it is preferable that a plurality of discharge holes are formed in the upper portion of the floating port.

According to the present invention as described above, it is simply installed on the end side of the existing duct installed to reduce the air pollution by discharging the fine dust and odor components in the exhaust gas discharged from the inside of the factory to the outside through the washing and filtering process. That has the advantage.

1 is an installation of the duct receiving container for reducing odor and fine dust according to the present invention,
Figure 2 is a perspective view of the duct receiving container for reducing odor and fine dust according to the present invention,
Figure 3 is an exploded view of the duct receiving container for reducing odor and fine dust according to the present invention,
Figure 4 is a cross-sectional view of the duct receiving container for reducing odor and fine dust according to the present invention.

Hereinafter, with reference to the accompanying drawings and preferred embodiments will be described in detail the configuration and operation of the duct receiving container 100 for reducing odor and fine dust according to the present invention.

First, Figure 1 shows the installation of the duct receiving container 100 for reducing odor and fine dust according to the present invention. As shown, the duct receiving container 100 is a duct 10 installed through the outer wall 3 of the factory to discharge the gas generated from the equipment such as a dryer (2) installed in the factory interior (1) to the outside. It is installed in the terminal end side. Here, the distal end of the duct 10 is generally bent vertically downward, the end portion thereof is inserted into the upper opening of the duct receiving container 100 to be described later is installed. A sludge discharge pipe 114 is connected to a lower portion of the duct receiving container 100 to discharge sludge formed by precipitation of fine dust or odorous substances dissolved in water stored in the container.

2 to 4 show the configuration of the duct receiving container 100 for reducing odor and fine dust according to the present invention in detail. As shown, the duct receiving container 100 according to the present invention includes a container body 110, a floating cylinder 120 and a filter 130.

The container body 110 is an enclosure having an upper portion and an opening narrower toward the lower portion. As shown in the figure, the cross section is preferably formed in a generally circular shape, and water is stored at a predetermined level therein, and a floating cylinder 120 and a floating hole 122, which will be described later, are installed. The sludge discharge pipe 114 is provided at the bottom of the container body 110 as mentioned above, and the sludge discharge pipe 114 is provided with a valve 116 to open the sludge discharge pipe 114 when necessary. It is configured to be discharged to the outside.

Floating cylinder 120 is located in the container body 110 and configured to float in the water stored in the container body 110, the upper side is connected to the duct 10, the lower container body 110 It is configured to eject the exhaust gas delivered from the duct 10 while maintaining a constant distance from the surface of the water stored therein.

More specifically, as shown in Figures 2 to 4, the floating cylinder 120 is a housing having a generally circular cross section, the upper side is opened but the end of the duct 10 can be inserted into the coupling duct ( It is formed to a diameter corresponding to the diameter of 10), and configured to increase in diameter while forming a gentle curved surface toward the lower side, it is generally composed of a trumpet-like shape. The lower end diameter of the floating cylinder 120 is formed smaller than the diameter of the container body 110, as shown in Figure 4, a predetermined distance between the inner peripheral surface of the container body 110 and the outer peripheral surface of the lower end of the floating cylinder 120 The gap is configured to be formed, and through this gap, the purified gas is discharged through the water stored in the container body 110 as described below.

The injection hole 126 is formed in the lower center of the floating cylinder 120. The injection hole 126 is configured to allow the discharge gas delivered through the duct 10 to be sprayed to the water surface stored in the lower side of the float 120. In order to further increase the injection speed and pressure of the discharge gas injected from the injection hole 126, as shown in Figure 3 (a), a plurality of circular projections having a concentric in the lower center of the floating cylinder (120) ( 124 is formed, a plurality of injection holes 126 at the tip of the circular protrusion 124 is preferably perforated while forming a circular pattern. Here, the protrusion 124, as shown in Figure 4, as the diameter is formed toward the lower side in general, the flow path through which the exhaust gas moves is not narrow, the relatively high speed at the injection hole 126 of the end And exhaust gas is discharged at high pressure.

On the other hand, as shown in Figure 3 (b), in the lower center of the floating cylinder 120, without the concentric projection 124 having a concentric as shown in Figure 3 (a) a plurality of individual protruding jet nozzle 128 The injection nozzle 126 may be formed at the tip of the injection nozzle 128.

The injection hole 126 formed in the lower portion of the float 120 is preferably formed at regular intervals with the surface of the water stored in the container body 110 at all times. In general, when purifying air with water, the air injected at a relatively high speed hits the surface of the water, and the speed drops rapidly, and the air and fine dust or odorous material particles contained in the air are separated by the difference in inertia. Accordingly, the separated fine dust or malodorous substance particles are dissolved and precipitated in water, and only air is discharged to the outside to reduce fine dust and malodor. However, in order to maximize the separation effect, it is effective to maintain a constant gap between the injection hole 126 and the surface of water. This is because, through the injection hole 126, the exhaust gas must collide with the surface of the water at the optimum speed and pressure. By the way, there is no separate level control means in the container body 110, the water level of the stored water, such as drainage due to the replenishment of the water, discharge of sludge or the like is inevitably fluctuate. Accordingly, in the present invention, the floating cylinder 120 is configured to float in the water stored in the container body 110 so that the gap between the nozzle 126 and the surface of the water is constantly maintained regardless of the water level fluctuation. .

To this end, a floating hole 122 is further provided at the lower edge of the floating cylinder 120. The floating hole 122 may be composed of a hollow housing integrally formed of the same material (metal, synthetic resin, styropol, sponge, etc.) as the floating cylinder 120, as shown in Figure 4 inside the hollow enclosure It may be configured in a form filled with a floating material such as styropol or sponge, and is configured to be fixedly coupled to the lower edge of the floating cylinder 120 by a bolt or adhesive after the floating hole 122 is composed of a separate member. May be Here, the floating hole 122 is formed in an annular band shape along the outside of the injection hole 126 formed in the lower center portion of the floating cylinder 120 and is formed to protrude to a lower side, and the lower portion of the floating hole 122 is fixed. Submerged in depth and the top of the float 122 is floated above the water surface is configured to be spaced apart so that the injection hole 126 has a predetermined gap with the surface of the water as shown in FIG. On the other hand, it is preferable that a plurality of discharge holes 123 are formed horizontally from the inner side to the upper side of the floating hole 122 exposed above the water surface. A part of the exhaust gas impinged on the surface of water after being injected from the injection hole 126 through the discharge hole 123 may be discharged to the outside.

On the other hand, the filter 130 is mounted on the upper opening of the container body 110. The filter 130 is generally formed in a circular shape to correspond to the shape of the upper opening of the container body 110, the through hole 132 having a diameter corresponding to the diameter of the duct 10 so that the duct 10 is inserted in the center ) Is formed. In order to install the filter 130, a locking jaw 112 is formed on the upper inner circumferential surface of the container body 110, and an edge portion of the filter 130 is seated on the locking jaw 112. The filter 130 may be variously selected, such as a metal mesh network filter, hepa filter, activated carbon filter, demister filter, and the like.

So far, the configuration of the duct receiving container 100 according to the present invention has been described. Hereinafter, the operation of the duct receiving container 100 will be described.

As shown in FIG. 4, water is stored in the container body 110, and the floating cylinder 120 is positioned in a floating state. In order to float the float 120, a floating hole 122 is provided around the lower edge of the float 120 to form a predetermined gap between the injection hole 126 of the float 120 and the surface of the water. . A duct 10 is inserted and coupled to an upper portion of the floating cylinder 120, and a lower portion of the duct 10 is inserted into a through hole 132 formed at the center of the filter 130 covering the upper opening of the container body 110. do. In this state, the exhaust gas containing fine dust and malodorous components is transferred to the floating cylinder 120 through the duct 10. The delivered exhaust gas is injected at a relatively high speed and pressure through the injection hole 126 in the lower center of the floating cylinder 120, the injected exhaust gas is strongly impacted on the surface of the water stored in the container body (110). Due to such a collision, fine dust and odorous substances in the exhaust gas are separated by inertia, and the separated fine dust and odorous substances are dissolved in water. The dissolved material is subsequently discharged through the sludge discharge pipe 114 discharged to the lower side in the form of sludge. A part of the air in the exhaust gas from which fine dust or odorous substances are removed is immediately discharged to the outside of the floating hole 122 through the discharge hole 123 formed in the upper part of the floating hole 122, and then the upper portion of the container body 110. After finally filtering in the filter 130 installed in the discharged to the outside. In addition, the other part of the air in the exhaust gas from which fine dust or odorous substances have been removed passes through the water stored inside the container body 110 and is discharged to the outside of the floating hole 122 and finally through the filter 130. To be discharged.

In this way, the fine dust and odorous substances contained in the exhaust gas are dissolved in water and removed first, and after being filtered and discharged in the filter 130, the fine dust and odor are significantly reduced. In particular, in the present invention, the gap between the injection hole 126 and the surface of the water is constantly maintained by the floating hole 122 so that the separation effect of fine dust and odorous substances and the purification quality thereof can be kept constant.

In the above, specific Example of this invention was described. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various changes and modifications can be made without departing from the spirit of the present invention. Those who have it will understand. Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

1: inside factory 2: dryer
3: outer wall 10: duct
100: duct receiving container 110: container body
112: jam jaw 114: sludge discharge pipe
116: valve 120: floating cylinder
122: floating port 123: discharge hole
124: protrusion 126: injection hole
128: injection nozzle 130: filter
132: through hole

Claims (9)

delete As a duct receiving container 100 connected to the distal end side of the duct 10 to which the discharge gas is transferred, to reduce fine dust and odor contained in the exhaust gas,
A container body 110 having an upper opening and water stored therein;
Is configured to float in the water stored in the container body 110, the upper side is connected to the duct 10, the lower side while maintaining a constant distance from the surface of the water stored in the container body 110 the duct (10) A float cylinder 120 configured to eject the exhaust gas delivered from a) to the surface of the lower water;
A filter 130 covering an upper opening of the container body 110;
The floating cylinder 120 has a plurality of circular protrusions 124 having concentricity in the lower center, and a plurality of injection holes 126 for injecting the exhaust gas at the tip of the circular protrusion 124 forms a circular pattern The duct receiving container for odor and fine dust reduction, characterized in that formed while perforated. The method of claim 2,
The circular protrusion 124 is a duct receiving container for reducing odor and fine dust, characterized in that the diameter is formed to decrease toward the lower side. As the duct receiving container 100 is connected to the distal end side of the duct 10 to which the exhaust gas is transported, to reduce fine dust and odor contained in the exhaust gas.
A container body 110 having an upper opening and water stored therein;
Is configured to float in the water stored in the container body 110, the upper side is connected to the duct 10, the lower side while maintaining a constant distance from the surface of the water stored in the container body 110 the duct (10) A float cylinder 120 configured to eject the exhaust gas delivered from a) to the surface of the lower water;
A filter 130 covering an upper opening of the container body 110;
A plurality of protruding injection nozzles 128 are formed at the lower center of the floating cylinder 120, and a duct support for reducing odor and fine dust is formed at an end of the injection nozzle 128. Vessel. The method according to claim 2 or 4,
Odor and fine dust reduction duct receiving container, characterized in that the floating edge 122 is provided on the lower edge of the floating cylinder (120). The method of claim 5,
The floating hole 122 is a duct receiving container for reducing odor and fine dust, characterized in that consisting of a housing integrally formed on the lower edge of the floating cylinder (120). The method of claim 6,
Odor and fine dust reduction duct receiving container, characterized in that the floating material is filled in the floating hole (122). The method of claim 5,
The float 122 is composed of a separate member fixedly coupled to the lower edge of the float 120, it is configured in an annular band shape along the outer side of the injection port 126 formed in the lower central portion of the float 120 And protruded to a predetermined height downward, the lower portion of the floats 122 is submerged in the water to a certain depth and the upper portion of the floats 122 is configured to float on the surface of the odor and fine dust reduction vessel. The method of claim 5,
Odor and fine dust reduction duct receiving container, characterized in that a plurality of discharge holes 123 is formed in the upper portion of the float (122).

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