KR101261597B1 - Apparatus for pollution abatement in fluid - Google Patents

Abstract

The present invention relates to a contaminant reduction device configured to separate or remove contaminants of a fluid containing contaminants such as rainwater.
Contaminant reduction apparatus of the present invention, the first fluid inlet hole in which the fluid is introduced and the treatment water discharge hole formed to discharge the introduced fluid, the treatment means installation body is formed a treatment means installation space; A second fluid inlet hole is formed through which the fluid containing the contaminant flows, but a fluid passing through the second fluid inlet hole is introduced into the first fluid inlet hole. A conduit forming body having a drain conduit for connecting the conduit with the drain pipe so that the fluid in the conduit that does not flow into the first fluid inlet hole is discharged through the drain pipe when the capacity of the fluid flowing into the conduit is greater than the capacity; A primary treatment material for separating or removing contaminants contained in the fluid; A first filling material filling space is formed outside the fluid filling space in which the fluid introduced into the first fluid inflow hole is filled and the first filling material radially outside the fluid filling space. The wall forming the secondary treatment material filling space is composed of a primary treatment portion skeleton formed of a mesh net or perforated plate.
The pollutant reducing device of the present invention is characterized in that the treatment speed is high without a decrease in treatment effect, and smooth drainage is achieved even if a large amount of fluid is introduced.

Description

Non point pollutant reduction device installed on the flow path of a fluid {APPARATUS FOR POLLUTION ABATEMENT IN FLUID}

The present invention relates to a non-point pollutant reducing device installed on a flow path of a fluid containing pollutants such as domestic sewage to separate or remove nonpoint pollutants contained in the fluid.

Various types of pollutant reduction devices have been devised to reduce pollutants by separating and removing pollutants from fluids containing pollutants such as domestic sewage and rainwater.

In general, pollutants that contain various pollutants for reasons such as passing through a large area rather than occurring at a specific location are called 'non-point pollutants'.

Korean Patent Application No. 10-2003-0033808 discloses a pollutant reduction device that can treat pollutants contained in rainwater before rainwater is discharged to rivers or streams.

Specifically, rainwater may contain pollutants in the atmosphere before it falls to the ground, and rainwater may flow into rivers or rivers because it may contain various pollutants in the process of falling on various objects such as the ground or buildings. At that point, it will contain a significant amount of contaminants.

Therefore, in order to prevent the rivers or rivers from being polluted by rainwater, it is necessary to remove pollutants contained in the rainwater, and to solve such problems, a technology such as Korean Patent Application No. 10-2003-0033808 has been devised.

In addition to rainwater, there is a need to separate and remove contaminants from fluids containing contaminants such as sewage, and various types of contaminant reduction devices that can be installed on a flow path of a fluid have been devised.

However, the conventional pollutant reducing device installed on the flow path of the fluid has a problem that the pollutant treatment rate and treatment effect of the fluid does not meet expectations.

In addition, in the structure in which the fluid must pass through the contaminant treatment unit (particularly in the structure of the drainage conduit in which rainwater is introduced), the fluid is not smoothly flowing, causing various problems.

The present invention is intended to solve the above problems, more specifically, the treatment speed is high while the treatment effect of non-point pollutants is not degraded, so that even if the inflow of the fluid containing non-point pollutants is large, smooth drainage is achieved. The purpose is to provide a nonpoint pollutant abatement device that can be used.

In the present invention, the treatment material is located outside the fluid filling space filled with the fluid containing the contaminant so that the fluid in the fluid filling space is discharged through the processing material, but is discharged in various directions, so that the treatment effect of non-point pollutants is improved. It allows fast processing while not deteriorating.

In addition, when the inflow of the fluid including the non-point pollutant exceeds the treatment capacity of the non-point pollutant, a part of the fluid is discharged along the pipeline without going through the process of pollutant to contain the non-point pollutant. Even if the amount of fluid inflow is large, the drainage is smooth.

The non-point pollutant reducing device of the present invention has a first fluid inlet hole into which a fluid containing a contaminant flows and a treated water discharge hole formed to discharge the fluid introduced into the first fluid inlet hole, and the first fluid It has a treatment means installation body in which a treatment means installation space is formed on the path for the fluid introduced into the inlet hole to the treatment water discharge hole.

In addition, it forms a conduit in which the fluid flows and is located on the upper part of the treatment means installation body, and a second fluid inlet hole is formed through which the fluid containing contaminants flows. It is formed to be introduced into the first fluid inlet hole, when the volume of the fluid flowing into the conduit is greater than the volume of the fluid flowing into the first fluid inlet hole, the fluid in the conduit that does not enter the first fluid inlet hole is discharged through the drain pipe It has a pipe forming body formed with a drain pipe connector for connecting the pipe with the drain pipe.

In addition, it has a plurality of pores or has a separation removal hole penetrated, and has a primary treatment material for separating or removing contaminants contained in the fluid passing through the gap or separation removal hole.

In addition, the fluid treatment space is located in the processing means installation space, the fluid flow into the first fluid inlet hole is filled and the primary treatment material can be filled so that the primary treatment material radially outside the fluid filling space. The primary treatment material filling space is formed, and the wall forming the fluid filling space and the primary treatment material filling space has a primary treatment part skeleton forming body consisting of a mesh net or a perforated plate.

In the pollutant reducing apparatus of the present invention, the treatment material is located outside the fluid filling space filled with the fluid containing the pollutant, so that the fluid in the fluid filling space is discharged through the treatment material in various directions so that the pollutants There is a feature that can be quickly processed without deteriorating the treatment effect.

In addition, when the inflow of the fluid containing contaminants exceeds the processing capacity of the contaminant, a part of the fluid is discharged along the pipeline without going through the contaminant treatment process so that the inflow amount of the fluid containing the contaminant is increased. Make sure you have a good drainage even if you have more.

If there are a plurality of sludge flotation plates in the fluid filling space to prevent sludge located at the lower part of the fluid filling space, it is gradually lowered from the lower part of the primary treatment material even if the pollutant treatment effect is lowered. It is possible to use, and to prevent the sharp deterioration of the pollutant treatment effect.

In addition, the reduction device of the present invention can be used by connecting to the existing pipe line.

1 is a schematic cross-sectional view of a non-point pollutant reducing device installed on a flow path of a fluid
2 is a cross-sectional view taken along line AA of FIG.
3 is a schematic diagram showing an example of a primary treatment material molded in the form of a block;
4 is a schematic diagram showing an example of a secondary treatment material molded in the form of a block;
Figure 5 is a schematic perspective view for explaining the primary treatment skeleton forming body
Figure 6 is a schematic diagram for explaining the primary treatment portion skeleton forming the cross-sectional view of the primary treatment material is filled
Figure 7 is a schematic perspective view for explaining the secondary treatment portion skeleton forming body
Figure 8 is a schematic diagram for explaining the secondary treatment portion skeleton forming the cross-sectional view of the secondary treatment material filled state

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention isolates contaminants contained in fluids such as rainwater or domestic sewage. It relates to a non-point pollutant reduction device installed on the flow path of the fluid to remove.

Therefore, the first fluid inlet hole 11 into which the fluid containing the contaminant flows and the treatment water discharge hole 12 are formed to discharge the fluid introduced into the first fluid inlet hole 11, the first fluid It has a treatment means installation body 10 in which the treatment means installation space 13 is formed on the path in which the fluid introduced into the inflow hole 11 is directed to the treatment water discharge hole 12.

In addition, it is located in the processing means installation space 13 has a processing material for separating and removing contaminants.

By the way, the present invention is to provide a pollutant reduction device that can be smoothly drained even if the flow rate of the fluid containing pollutants such as rainwater is high while the treatment effect of the pollutant is not degraded. Have

In the present invention, the treatment material is located outside the fluid filling space 51 in which the fluid containing the pollutant is filled, so that the fluid in the fluid filling space 51 is discharged through the treatment material in various directions so as to be polluted. It allows for rapid treatment without degrading the treatment effect of the material.

In addition, when the inflow of the fluid containing contaminants exceeds the processing capacity of the contaminant, a part of the fluid is discharged along the pipeline without going through the contaminant treatment process so that the inflow amount of the fluid containing the contaminant is increased. Make sure you have a good drainage even if you have more.

That is, the pollutant reducing device of the present invention has a conduit forming body 20 which is located above the treatment means installation body 10.

The conduit forming body 20 forms a conduit 21 through which fluid flows, and a second fluid inlet hole 22 through which a fluid containing contaminants flows is formed in one of the conduits, and the second fluid The fluid passing through the inflow hole 22 is formed at a position to allow the first fluid inflow hole 11 to flow into the first fluid inflow hole 11.

In addition, when the volume of the fluid flowing into the conduit is greater than the volume of the fluid flowing into the first fluid inlet hole 11, the fluid in the conduit 21 that cannot be introduced into the first fluid inlet hole 11 passes through the drain pipe. It has a drain pipe connector 23 for connecting the pipe line 21 and the drain pipe to be discharged.

Therefore, when the inflow of the fluid is small, all the fluid flowing into the second fluid inlet hole 22 can be introduced into the first fluid inlet hole 11 to go through the treatment process of contaminants, The fluid that does not flow into the first fluid inlet hole 11 may flow along the pipe to be drained to the drain pipe connector 23.

In the accompanying drawings, the second fluid inlet hole 22 is positioned above the first fluid inlet hole 11 such that the fluid passing through the second fluid inlet hole 22 is directly in the first fluid inlet hole 11. It is supposed to flow in.

In addition, the second fluid inlet hole 22 is formed on the side surface of the pipeline 21 so that it can be installed in the existing pipeline, and the fluid is introduced into the pipeline in various directions. 21) may be implemented in a form in which the second fluid inlet hole is not formed)

As such, when the second fluid inlet hole 22 is formed on the side and the upper part of the conduit, if the fluid introduced into the conduit is necessarily subjected to the pollutant treatment process, the second fluid inlet hole 22 located in the upper part of the conduit is disposed. The fluid may be reversed, but this problem does not occur in the present invention.

In the present invention, the treatment material for removing contaminants, that is, the primary treatment material 30 has a plurality of pores or a separation removal hole 31 penetrated therein, and fluids passing through the pores or the separation removal hole 31. Ensure that contaminants contained in are separated or removed.

In addition, the present invention is located in the processing means installation space 13, the fluid filling space 51 and the primary treatment material 30 to fill the fluid introduced into the first fluid inlet hole 11 is filled with fluid Outside the space 51 has a primary treatment unit skeleton forming body 50 is formed with a primary treatment material filling space 52 to enable the primary treatment material 30 to exist radially.

The wall 53 forming the fluid filling space 51 and the primary treatment material filling space 52 of the primary treatment part skeletal forming body 50 is formed of a mesh net or a perforated plate.

The configuration as described above is a form in which the primary treatment material 30 for separation and removal of contaminants is radial to the outside of the fluid filling space 51, and the fluid introduced into the fluid filling space 51 is radial. Since it is a form via the existing primary treatment material 30, the treatment speed is excellent while obtaining an excellent water treatment effect by the primary treatment material 30.

In the present invention, a plurality of sludge-floating prevention plates 54 for preventing the sludge located at the lower portion of the fluid filling space 51 from floating upward may be positioned in the fluid filling space 51.

In this case, even if the pollutant treatment effect is degraded by the separated pollutants (sludge, etc.), since it is gradually lowered from the lower portion of the primary treatment material filling space 52, it can be used for a long time, and a sudden decrease in the pollutant treatment effect is prevented. (Because the sludge contained in the fluid is filled from the bottom of the fluid filling space 51)

The lower portion of the sludge-floating prevention plate 54 as described above may form an inclined surface 54a that is lowered toward the center of the fluid filling space 51.

According to this configuration, the sludge that has been directed upward to be suspended is blocked by the inclined surface 54a positioned at the lower portion of the sludge flotation prevention plate 54, and the sludge floats toward the lower portion of the fluid filling space 51 along the inclined surface 54a. Excellent prevention effect.

In the present invention, the treatment means installation space 13 may be divided into a primary treatment means installation space 13a and a secondary treatment means installation space 13b by the wall 14.

In this case, the upper fluid flow path 15 and the lower fluid flow path for moving the fluid in the primary treatment means installation space 13a to the secondary treatment means installation space 13b at the upper and lower points of the wall 14. 16 can be formed, respectively.

At this time, the upper fluid flow path 15 has two fluids in the secondary treatment means installation space 13b due to the hydraulic pressure in the primary treatment means installation space 13a as shown in the accompanying drawings. It is formed to move to the upper portion of the secondary treatment material 40 in the secondary treatment skeleton (60), the lower fluid flow path 16 has a smaller capacity to move the fluid than the upper fluid flow path (15) (It is possible to reduce the capacity of the moving fluid by realizing the small cross-sectional area of the flow path. Since the structure of the fluid flow by the hydraulic pressure is already well known, the detailed description of this part is omitted. do.)

According to the configuration as described above can be appropriately matched with the flow rate flowing into the fluid filling space 51 for processing.

In the present invention, a plurality of separation removal holes 41 are formed in communication with the fluid and the secondary treatment material 40 for separating and removing contaminants from the fluid via the primary treatment material 30 is It can be implemented in a more equipped form.

In this case, the secondary treatment material 40 forms the secondary treatment material filling space 60 to be filled, but the fluid passing through the primary treatment material 30 flowing into the upper portion of the secondary treatment material filling space 60 is 2 A plurality of drainage holes 62 are discharged to the outside of the secondary treatment material filling space 60 from the lower portion of the secondary treatment material filling space 60 while flowing downward through the separation removal hole 41 of the secondary treatment material 40. The secondary processing unit skeleton forming body 60 is formed on the lower side of the side. (The secondary processing unit skeleton forming body 60 is a large container shape in which the fluid is contained, but the drain hole in the lower side ( 62) is formed)

According to the configuration as described above, the process of separating and removing the contaminants contained in the fluid is not only effective twice, but also the contamination of the fluid through the secondary processing unit skeleton forming body 60 and the secondary processing material 40. Excellent material treatment effect, but the processing speed is fast.

In the accompanying drawings, the primary treatment means skeleton forming body 50 and the primary treatment material 30 are positioned in the primary treatment means installation space 13a, and the secondary treatment unit skeleton forming body is disposed in the secondary treatment means installation space 13b. 60 and the secondary treatment material 40 are located.

A plurality of drainage holes 62 are formed at the bottom of the secondary treatment portion skeleton forming body 60, and the secondary treatment portion skeleton forming body 60 is formed at the bottom of the secondary treatment portion skeleton forming body 60. A space in which the fluid is located via the drainage hole 62 formed at the bottom thereof may be formed.

According to this configuration, it is more smooth that the fluid flows to the outside of the secondary treatment unit skeleton forming body through the secondary treatment material.

In the accompanying drawings, the space forming body 70 is positioned between the bottom surface of the secondary treatment portion skeleton forming body 60 and the bottom surface of the pollutant treatment portion so that the fluid is located through the drainage hole 62 formed at the bottom. Is formed (see Fig. 1).

The above-described primary treatment material 30 or secondary treatment material 40 may include ocher, talc, diatomaceous earth, zeolite, and may be molded in a block form.

In the structure for removing contaminants contained in the fluid such as rain water, the form containing two or more of ocher, talc, diatomaceous earth, zeolite is preferred.

In addition, the primary treatment material 30 or the secondary treatment material 40 may be formed by gathering a plurality of molded parts in the form of blocks. May form naturally)

In the present invention, grooves 32 and 42 are formed in the surface of the primary treatment material 30 or the secondary treatment material 40 to widen the contact area with the fluid via the first fluid inlet hole 11. Can be formed.

Such grooves 32 and 42 are preferably implemented in a fluid flowable form.

The structure of the grooves 32 and 42 for widening the contact area as described above is effective when the primary treatment material 30 or the secondary treatment material 40 formed in the form of a block is stacked in a brick stacking manner. (In this case, the primary treatment material 30 or the secondary treatment material 40 have separation removal holes 31 and 41, and the grooves 32 for widening the contact area with the separation removal holes 31 and 41. 42) is preferably connected to the structure)

In the present invention, the pipe forming body 20 is provided with manhole mounting holes 24 and 25 for replacing the primary treatment material 30 or the secondary treatment material 40, but the manhole cover 26 is coupled to It may be formed to be possible.

That is, through the manhole cover 26 to open or block the manhole installation holes (24, 25).

Fixing protruding inward from the inner wall of the processing means installation space 13 in order to prevent the movement of the primary processing unit skeleton forming body 50 or the secondary processing unit skeleton forming body 60 in the above-described processing means installation space (13). It can be implemented in the form having a projection (17).

The fixing protrusion 17 may be a long form up, down.

10. Body for treatment means 11. First fluid inlet hole
12. Treatment water discharge hole 13. Treatment unit installation space
13a. Primary treatment means installation space 13b. Second treatment means installation space
14. Wall 15. Upper fluid flow path
16. Lower fluid flow path 17. Fixed protrusion
20. Pipeline 21. Pipeline
22. Second fluid inlet hole 23. Drain pipe connection
24. 25. Manhole mounting hole 26. Manhole cover
30. Primary treatment material 31. Separation removal hole
32. Home 40. Secondary treatment materials
41. Separation Removal Hole 42. Groove
50. Primary Treatment Skeletal Form 51. Fluid Filled Space
52. Filling space for primary treatment material 53. Wall
54. Sludge flotation plate 54a. incline
60. Secondary Skeleton Formation 61. Secondary Substance Filling Space
62. Drainage hole 70. Space formation

Claims (7)

A device for treating pollutants contained in a fluid,
A first fluid inflow hole 11 into which fluid containing contaminants flows and a treatment water discharge hole 12 formed to discharge the fluid introduced into the first fluid inflow hole 11, and the first fluid inflow A treatment means mounting body (10) in which a treatment means mounting space (13) is formed on a path where the fluid introduced into the hole (11) is directed to the treatment water discharge hole (12);
Located in the upper portion of the processing means installation body 10 and forming a conduit 21 through which fluid flows, one side of the second fluid inlet hole 22 is formed to introduce a fluid containing contaminants However, the fluid flowing through the second fluid inlet hole 22 is formed at a position to allow the first fluid inlet hole 11 to flow into the pipe than the volume of the fluid flowing into the first fluid inlet hole 11. (21) has a drain pipe connector (23) connecting the pipe to the drain pipe so that the fluid in the pipe (21) that does not flow into the first fluid inlet hole (11) when the volume of the fluid flowing into the large is discharged through the drain pipe; Conduit forming body 20;
A primary treatment material 30 having a plurality of voids or penetrating separation removal holes 31 to separate or remove contaminants contained in the fluid passing through the voids or separation removal holes 31;
Located in the processing means installation space 13, the fluid filling space 51 is filled with the fluid introduced into the first fluid inlet hole 11 and the fluid filling space 51 by filling the primary treatment material (30) A primary treatment material filling space 52 is formed on the outer side of the primary treatment material 30 to radially form the fluid treatment space 51 and the primary treatment material filling space 52. Primary wall forming skeleton (50) formed of a mesh net or perforated plate to form a wall (53);
A secondary treatment material (40) having a plurality of separation removal holes (41) through which fluid is communicated and separating and removing contaminants from the fluid via the primary treatment material (30) again; And
While forming the secondary treatment material filling space 60 in which the secondary treatment material 40 is filled, the fluid passing through the primary treatment material 30 flowing into the upper portion of the secondary treatment material filling space 60 is secondary. The plurality of drainage holes 62 are discharged to the outside of the secondary treatment material filling space 60 from the lower portion of the secondary treatment material filling space 60 while flowing downward through the separation removal hole 41 of the treatment material 40. It is configured to include; secondary processing unit skeleton forming body 60 formed on the lower side of the
The treatment means installation space 13 is a wall in which the primary treatment means installation space (13a) and the secondary treatment unit skeleton forming body (60) where the primary processing unit skeleton forming body 50 is located. It is divided into the vehicle treatment means installation space (13b),
Upper and lower fluid flow paths 15 and lower fluid flow paths for allowing fluid in the primary treatment means installation space 13a to be moved to the secondary treatment means installation space 13b at the upper and lower points of the wall 14. 16 is formed, respectively, the upper fluid flow path 15 is the fluid in the primary treatment means installation space (13a) of the secondary treatment unit skeleton formed by the hydraulic pressure of the primary treatment means installation space (13a) It is formed to be moved to the upper portion of the secondary treatment material 40, the lower fluid flow path 16 is characterized in that the capacity to move the fluid than the upper fluid flow path 15, characterized in that the flow path of the fluid Non-point pollutant reduction device installed in.
The method of claim 1,
Fluid flow path, characterized in that a plurality of sludge-floating prevention plate 54 for preventing the sludge located in the lower portion of the fluid filling space 51 is floating in the fluid filling space 51 is located. Non-point pollutant reduction device installed on the bed.
delete delete 3. The method according to claim 1 or 2,
A plurality of drainage holes 62 are formed at the bottom of the secondary treatment portion skeleton forming body 60,
Characterized in that the space in which the fluid is located through the drain hole 62 formed in the bottom of the secondary processing unit skeleton forming body 60 is formed in the bottom surface of the secondary processing unit skeleton forming body 60 , Non-point pollutant reduction device is installed on the flow path of the fluid.
3. The method according to claim 1 or 2,
The primary treatment material 30 or the secondary treatment material 40 includes two or more of ocher, talc, diatomaceous earth, and zeolite, and is formed in a block shape, and has a boiling point installed on a flow path of a fluid. Pollutant Reduction Device.
6. The method of claim 5,
Grooves 32 and 42 are formed on the surface of the primary treatment material 30 or the secondary treatment material 40 to widen the contact area with the fluid via the first fluid inlet hole 11. Characterized in that, the non-point pollutant reducing device installed on the flow path of the fluid.

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