KR200445824Y1 - Packing for Purification Apparatus - Google Patents

Abstract

The present invention is a filling fluid for promoting the mass transfer action of the cleaning fluid and the injection of the cleaning fluid is filled in the interior of the wet purifier for purifying the harmful gas, a polygonal plate member having a plurality of holes formed in the mesh shape; Spaced apart from each other, a plurality of rod members protruding a predetermined length in a vertical direction from one side of the plate member; And a fixing member for fixing the plate member and the other plate member to be stacked in the vertical direction, so that the plate member is filled so as to maintain a predetermined distance from each other so that settlement and cross-linking do not occur, thereby efficiently purifying harmful gas. It relates to a filling for the purifier is possible, easy to clean and replace.

Description

Packing for Purification Apparatus

The present invention relates to a filling device for a purification device for removing harmful gases discharged from an industrial site, and more specifically, the filling device is filled so as to maintain a predetermined distance from each other inside the purification device, so that no settlement and crosslinking occur. The present invention relates to a filling device for a purification device capable of efficient purification of gas, and easy to clean and replace.

In general, purification facilities are provided for purifying harmful gases generated during the manufacturing process in industrial sites such as oil refineries, textile chemical plants, steel mills, chemical plants, and production plants such as semiconductors, LCDs, and PDPs.

Such purifiers typically remove harmful gases by using a wet treatment method. In the wet treatment method, a plurality of fillers made of a synthetic resin material are randomly filled therein.

In this way, when a plurality of fillers pass harmful gas inside a purifier filled with random filling and spray water (or cleaning liquid) using a nozzle, the harmful gas passing between the fillers and the water flowing along the surface of the fillers During mass transfer, it removes harmful components in the noxious gas.

That is, the plurality of fillings filled in the purification device increases the contact area between the water and the noxious gas, and serves to more efficiently adsorb the noxious gas to the water.

As an example of the filling material for purifiers described above, Utility Model Registration No. 269526, 'Tower Filter Synthetic Resin Pollution', has a geometry in which lines and surfaces are efficiently harmonized to increase the contact area of water and air and to minimize pressure loss. Polling (filling) of is started.

Filling disclosed in Utility Model No. 269526 is a vertically arranged symmetrical arrangement of support rods consisting of a plurality of single rods and long rods on the top and bottom of the disc-shaped main body obliquely sequentially to form an overall contour into a spherical curved surface, the contact area between air and water It is configured to increase the pressure loss and minimize the pressure loss.

Conventional purifiers including the polling is filled with a plurality of randomly filled in the purifier, there is an advantage in that easy to initially install the filling in the purifier.

However, the conventional random filling has the following problems.

First, the conventional fillers are not fixed and filled with each other, but are filled randomly in a predetermined space, so that a plurality of fillers are kept unstable with each other, so that the fillers are transported or filled in the purifier. Settlement phenomenon occurs, and this causes the packing material to be not evenly distributed, causing harmful gas or drift of injected water.

Second, due to the above-mentioned drift phenomenon, clogging of the filler occurs frequently due to stagnation between the fillers in which foreign substances such as dust in the harmful gas are concentrated.

Third, when a large amount of foreign matter is adsorbed to the filler by an unstable coupling relationship between the fillers, cross-linking phenomenon occurs when the foreign matters stick to each other and the packing materials stick to each other, or other fillings are sandwiched between the filling pores.

Fourth, in the case of taking out the fillings filled in the purifier to the outside to replace or clean the filling, it is difficult to take out the fillings due to the settlement and crosslinking phenomenon, so that the replacement and cleaning There is difficulty.

As described above, the conventional random filling is reduced harmful gas purification efficiency by reducing the flow of harmful gas and water (or cleaning liquid) passing through the purification apparatus due to settlement, blockage, crosslinking phenomenon, and harmful gas There is a problem to increase the capacity of the fan to flow.

The present invention is designed to solve the above problems, the fillers filled in the purification device is arranged to maintain a constant interval from each other to prevent settlement and crosslinking of the fillers, maximizing the harmful gas purification ability of the purification device It is an object of the present invention to provide a filling for the purifier.

According to an aspect of the present invention for achieving the above object, as a filling material for promoting the mass transfer action of the cleaning fluid and the harmful gas is injected into the interior of the wet purifier for purifying the harmful gas, in the form of a mesh Polygonal plate member formed with a plurality of through holes; Spaced apart from each other, a plurality of rod members protruding a predetermined length in a vertical direction from one side of the plate member; And a fixing member for fixing the plate member and another plate member to be stacked in a vertical direction.

Here, the fixing member may include a pair of protrusions extending in a vertical direction from one side of the plate member and having end portions stepped in opposite directions; And a fixing hole formed on the other side of the plate member and having a stepped flange to insert and fix an end portion of the protrusion of the other plate member stacked on the plate member.

Preferably, the protrusion extends in the same length as the rod member, and the fixing hole is extended in a vertical direction by a predetermined length from the other side of the plate member by a length into which the end of the protrusion is inserted.

In addition, the rod member is characterized in that the tapered toward the direction extending from the plate member.

In addition, the fixing member is characterized in that formed in each corner and the center of the plate member.

In addition, the plate member is characterized in that any one of a triangle, a square, a pentagon, and a hexagon.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the filling device for purifying apparatus according to the present invention.

1 is a perspective view showing a filler for purifier according to the present invention, Figure 2 is a plan view showing a filler for purifier according to the present invention, Figure 3 is a rear view showing a filler for purifier according to the present invention. Figure 4 is a side view showing the filling for the purification device according to the present invention.

As shown in Figures 1 to 4, the present invention, such as a scrubber (Scrubber) to treat harmful gases and fine dust generated during the semiconductor or LCD production process, sulfuric acid gas generated in the combustion facility, such as a boiler The present invention relates to a filling material for filling a purifier and spraying water or cleaning fluid into the purifier and for promoting mass transfer of the harmful gas, fine dust, and sulfuric acid gas.

Purification device 100 for purification according to the present invention is generally made of a synthetic resin such as polypropylene, a polygonal plate member 110, a plurality of rod members 120 protruding in a vertical direction from the plate member 110 And a fixing member 130 for fixing the plate member and the plate member so that the plurality of plate members 110 are stacked.

Plate member 110 has a polygonal shape, a plurality of through-holes 111 are formed in a mesh shape. That is, the plurality of through holes 111 are arranged side by side spaced apart from each other.

Although the plate member 110 is illustrated in a quadrangular shape in the drawing, the plate member 110 may be formed in a polygonal shape of various shapes such as a triangle, a pentagon, and a hexagon.

The rod member 120 is formed to protrude a certain length vertically downward from the bottom of the plate member 110, the plurality of rod members 120 are adjacent to each other in the diagonal direction to the edge of the plurality of through holes (110) It is formed to be spaced apart at regular intervals.

The fixing member 130 serves to fix the plate member and the plate member so that a plurality of plate members 110 can be stacked, and has a hook-shaped end portion 131a.

In detail, the fixing member 130 includes a hook-shaped protrusion 131 and a plate member 110 that protrude a predetermined length vertically downward from the bottom of the plate member 110 in the same manner as the rod member 120 protrudes. It includes a fixing hole 132 formed on a position corresponding to the protrusion 131 on the upper surface.

The protrusions 131 are constituted by a pair extending side by side, and the pair of protrusions 131 are stepped in a direction opposite to the direction in which each end portion 131a is spaced apart from each other.

The fixing hole 132 has a stepped flange 132a formed on the inner side of the protrusion 131 so that each end 131a of the protrusion 131 is inserted into the fixing hole 132, and a pair of stepped ends 131a of the protrusion 131 are fitted thereto. To be fixed (see FIG. 6).

Here, the fixing hole 132 is composed of a pair similar to the protrusion 131, when the pair of protrusions 131 are divided into left and right, the pair of fixing holes 132 intersect with the protrusion 131. When the plurality of fillers are stacked in the vertical direction, the protrusions of the upper filling, the protrusions of the lower filling, the fixing holes of the upper filling and the fixing holes of the lower filling are zigzagly intersected with each other (Fig. 5). Reference).

On the other hand, the protrusion 131 is the same length as the length of the rod member 120 extending vertically downward from the plate member 110, and extends vertically downward from the plate member 110.

In addition, the fixing hole 132 protrudes upward from the upper surface of the plate member 110 by a predetermined length as long as the end 131a of the protrusion 131 is inserted.

Therefore, when a plurality of plate members 110 are stacked, the distance between the plate member and the plate member is substantially the same length as the rod member 120, the rod member 120 of the filling material 100 located on the upper side is lower In contact with the plate member 110 of the filler 100 located in.

For this reason, when the cleaning fluid (or water) is injected from the top of the filling 100 to the bottom in a state where a plurality of fillings 100 are stacked, the injected cleaning fluid (or water) forms a surface between the filling and the filling. As it flows continuously, the contact surface with noxious gas passing between these fillings is in a constantly increased state.

In other words, when there is a space between the filling and the filling, the cleaning fluid (or water) is also agglomerated with each other by the surface tension of the liquid during the flow of the space, thereby reducing the surface area. By configuring the fixing member 130 so that there is no space between the filling and the filling, the contact area between the cleaning fluid and the noxious gas is increased.

Here, the fixing member 130 is formed at the four corners and the center of the rectangular plate member 110, respectively. Of course, even in the case of a plate member of another form (triangle, pentagon, hexagon, etc.), the fixing member can be firmly fixed to the plate member is formed and laminated at each corner and the center of the plate member.

On the other hand, although not clearly shown in the drawings, preferably, the rod member 120 has a tapered shape to gradually taper downward from the bottom surface of the plate member 110. Thus, when the cleaning fluid flows from the top to the bottom of the filling, the phenomenon that the flow rate of the cleaning fluid is reduced can be minimized.

Hereinafter, with reference to FIGS. 1 to 6 will be described the operation and effects of the filling device for purifying apparatus according to the present invention.

5 is a perspective view illustrating a state in which a plurality of fillers for purifiers according to the present invention are stacked, and FIG. 6 is a side cross-sectional view illustrating a state in which a plurality of fillers for purifiers according to the present invention are stacked. As shown in FIG. 6, the filler 100 including the plate member 110, the rod member 120, and the fixing member 130 is stacked in the vertical direction.

That is, the protrusion 131 formed on the bottom surface of the filling material is inserted into the fixing hole 132 formed on the top surface of the filling material located at the lower side, thereby making the coupling between the filling materials.

As such, the plurality of stacked fillers in the vertical direction is filled in the purifier, such as a scrubber, wherein the fillers are not randomly filled in the purifier, but a plurality of stacked ones shown in FIGS. The filling structure is randomly stacked so as to have a predetermined interval in up, down, left and right, and the overall shape is also arranged in the same shape as the shape of one filling.

Looking at the process of processing the harmful gas through the filling (random filling) that is stacked in the above manner, first, the cleaning fluid (or water) is injected from the nozzle (not shown) to the upper portion of the filling inside the purifier, To the side of the filling the harmful gas is passed in the horizontal direction by the blowing fan (not shown).

The cleaning fluid (or water) flows downward through the plate member 110 and the rod member 120 of the filling material, and the surface area is increased by contact with the filling material, and the harmful gas flowing in the horizontal direction of the filling material. Contact with.

At this time, the cleaning fluid (or water) flows to the bottom of the purification apparatus by adsorbing harmful components such as dust contained in the harmful gas.

That is, the noxious gas is purified by the mass transfer action between the cleaning fluid (or water) and the noxious gas.

During this purification process, since the fillings according to the present invention are maintained to have gaps of a predetermined interval without collapsing due to their load or injection pressure of water, the disadvantages of the conventional fillings that are randomly filled, that is, one side It is possible to solve the crosslinking phenomenon in which the fillings are densely arranged to one side by the settlement and collapsing (or overlapping the fillings) between the foreign matter collapsed.

Therefore, the uniform voids between the fillings can minimize the decrease in the flow rate of the cleaning fluid (or water) while the cleaning fluid (or water) flows on the surface of the packing material, and the pressure loss of the harmful gas passing through the filling material can be minimized. It can be minimized, maximizing the ability to purify harmful gases.

On the other hand, the above-mentioned hook-shaped fixing member 130 is easy to combine and dismantle between the filling, it is possible to combine the filling in the desired shape and size, depending on the shape or size inside the purifier.

In addition, since the fillers are firmly combined as described above, the combined fillers can be easily withdrawn from the inside of the purifier, and thus, the cleaning or replacement of the fillers can be easily performed.

As described above, since the filling device for purifying apparatus according to the present invention is firmly stacked and arranged to have a predetermined gap therebetween, it is possible to solve the settlement phenomenon and crosslinking of the filling due to the flow,

As a result, it is possible to minimize the decrease in the flow rate of the cleaning fluid (or water) flowing through the surface of the filler, and to minimize the pressure loss of the harmful gas passing between the fillers.

Therefore, there is an effect to maximize the purification capacity of the harmful gas, there is an effect that can reduce the load of the blowing fan for flowing the harmful gas, preventing the increase of the capacity of the blowing fan.

In addition, the filling device for purifying apparatus according to the present invention is easy to combine and dismantle by the fixing member, there is an effect that can easily perform the replacement and cleaning of the filling.

In the above, specific preferred embodiments of the present invention have been shown and described. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains may vary without departing from the spirit of the technical idea of the present invention described in the claims below. Changes may be made.

1 is a perspective view showing a filler for a purifier according to the present invention,

Figure 2 is a plan view showing a filler for a purifier according to the present invention,

Figure 3 is a rear view showing a filling device for purifying apparatus according to the present invention,

Figure 4 is a side view showing the filling for the purification device according to the present invention,

5 is a perspective view showing a state in which a plurality of fillers for purifying apparatus according to the present invention are stacked;

Figure 6 is a side cross-sectional view showing a state in which a plurality of fillers for purifying apparatus according to the present invention is stacked.

-Explanation of symbols for the main parts of the drawings-

100: filling 110: plate member

111: through hole 120: rod member

130: fixing member 131: protrusion

131a: end 132: fixing hole

132a: flange

Claims (6)

delete As a filling fluid for promoting the mass transfer action of the cleaning fluid and the injection of the cleaning fluid is filled in the interior of the wet purifier to purify the harmful gas, Polygonal plate member formed with a plurality of through holes in the mesh shape; Spaced apart from each other, a plurality of rod members protruding a predetermined length in a vertical direction from one side of the plate member; And And a fixing member for fixing the plate member and another plate member to be stacked in a vertical direction. The fixing member, A pair of protrusions extending in a vertical direction from one side of the plate member and having end portions stepped in opposite directions; And And a fixing hole formed on the other side of the plate member and having a stepped flange to insert and fix an end portion of the protrusion of another plate member stacked on the plate member. The method of claim 2, The protrusion is extended to the same length as the rod member, the fixing hole is a filler for a purifier, characterized in that extending from the other side of the plate member in a vertical direction by a length as long as the end of the protrusion is inserted. The method of claim 2, And the rod member is tapered toward the direction extending from the plate member. The method of claim 2, The fixing member is a filler for a purifier, characterized in that formed on each corner and the center of the plate member. The method of claim 2, The plate member is a filler for a purifier, characterized in that any one of a triangle, a square, a pentagon, and a hexagon.