KR101481449B1 - Apparatus for reducing non-point pollutiion - Google Patents

Abstract

The present invention relates to an apparatus for reducing non-point pollution by adjusting rainwater. The apparatus includes a center tank having an inlet port and an outlet port, in which a position of the inlet port is higher than that of the outlet port; a sludge storage formed in the inner bottom of the center tank and having an opened upper portion; and a filter interposed between the center tank and the sludge storage to cover a portion of the opened portion. Since the initial sludge is effectively processed at raining, the non-point pollution is reduced, and the rainwater flows smoothly. Also, since the sludge is easily cleaned, the maintenance is conveniently carried out.

Description

[0001] APPARATUS FOR REDUCING NON-POINT POLLUTION [0002]

The present invention relates to a non-point pollution abatement device, and more particularly, to a non-point pollution abatement device that suppresses non-point pollution by regulating rainwater inflow from a nonpoint pollution source.

The sources of pollutants that enter the public waters can be divided into point pollutants and nonpoint pollutants. The point pollution source consists mainly of domestic sewage and factory wastewater, and constant amount is constantly generated at certain point, and there is not much fluctuation in rainfall and nasal wastewater discharge. Compared to this, non-point pollution source is pollution material which mainly flows out along with surface runoff in case of rainfall. It is used for dust and garbage in city area, fertilizer and pesticide applied to agricultural land, soil sediment plant, residue of natural plants and animals, Water and so on.

Since non-point pollutants generally flow out during rainfall, there is a large variation in daily and inter-seasonal emissions, and it is difficult to predict and quantify, and it has characteristics that are highly influenced by weather conditions, geology, and topography. There are various kinds of storm sewage treatment facilities that can be applied according to regional characteristics. Especially, when the land use is limited as in Korea, the required area for the treatment facilities is a major limiting factor in the selection of the treatment facilities. Therefore, it is necessary to develop a multipurpose nonpoint pollution reduction method that is easy to maintain, has a limited land use limit, and is good in ecological and landscape aspects. Accordingly, various nonpoint pollution abatement devices and facilities have been researched and developed recently.

Non-point pollutants are generated in our everyday life such as cities, industrial areas, rural areas, agricultural lands, forests, roads and rivers as well as various development business areas. In addition, nonpoint pollutants are characterized by irregular scattering in a wide area such as land, road, and waterway. These non-point pollutants mostly leak out along with rainfall, occur suddenly due to rainfall, increase rapidly, have a constant flow rate and runoff duration, have a high concentration of initial rainfall runoff, .

In order to reduce non-point pollution by such a feature, it is very important to perform the initial good treatment at the time of rainfall. If the initial stormwater is not properly treated during rainfall, there is a problem that the non-point pollutant accumulates to deteriorate the surrounding environment. In addition, there is a problem that the drainage system may be damaged, such as when the drainage is not properly performed due to a high concentration of the gravel and / or contaminants during the rainfall, or even the reverse flow occurs.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a nonpoint pollution abatement device capable of effectively treating impurities in an initial stormy rainfall.

According to an aspect of the present invention, there is provided a non-point pollution reduction device comprising: a central tank part having an inlet port and an outlet port, the inlet port being formed at a position higher than the outlet port; A contaminant storage unit formed on an inner bottom surface of the central tank unit and having an opening formed at an upper portion thereof; And a filter unit formed between the central tank unit and the contaminant storage unit and covering a part of the opening unit.

The non-point pollution abatement apparatus according to the present invention can effectively treat pollutants in the initial rainwater during rainfall to reduce non-point pollution, smooth out the flow of the pollutants, and easily clean the pollutants.

1 is a perspective view of a non-point pollution abatement apparatus according to the present invention;
2 is a cross-sectional view of the apparatus for reducing non-
3 is a cross-sectional view of another embodiment of the apparatus for reducing non-point pollution according to the present invention
4 is a cross-sectional view showing the flow of water in the apparatus for reducing non-point pollution according to the present invention
5 and 6 are sectional views of another embodiment of the non-point pollution abatement apparatus according to the present invention

The non-point pollution abatement apparatus according to the present invention will be described in more detail below with reference to the drawings.

FIG. 1 is a perspective view of a non-point pollution abatement apparatus according to the present invention, and FIG. 2 is a sectional view of a nonpoint pollution abatement apparatus according to the present invention. 1 and 2, the apparatus for reducing non-point pollution according to the present invention includes an inlet 11 and an outlet 12, wherein the inlet 11 is positioned at a higher position than the outlet 12, A tank portion 10; A contaminant storage unit 20 formed on an inner bottom surface of the central tank unit 10 and having an opening 25 formed thereon; And a filter unit 30 formed between the central tank unit 10 and the contaminant storage unit 20 and covering a part of the opening 25. [

1 and 2, an inlet 11 and an outlet 12 are formed in the central tank portion 10. As shown in FIG. The central tank portion 10 is buried in the basement, and the stormwater flows through the inlet 11 and the stormwater is discharged through the outlet 12. [ The connection pipe L connected to the inlet 11 and the outlet 12 may be connected to the outlet 12. The connection pipe L connected to the outlet 12 may be connected to the storage tank, Can be moved. As shown in FIG. 1, a corrugated pipe having excellent durability may be used as the connection pipe L.

The inlet 11 and the outlet 12 are formed at one side of the central tank 10 and the outlet 12 is formed at the other side. However, the inlet 11 and the outlet 12 may be appropriately arranged as necessary in a place where the flow of the storm is required to be changed.

However, in the apparatus for reducing non-point pollution according to the present invention, the position of the inlet 11 is formed at a position higher than the position of the outlet 12. Therefore, the rainwater flowing through the inlet 11 can be naturally dropped to the lower portion of the central tank 10 by gravity, and then discharged through the outlet 12.

The contaminant storage portion 20 is formed on the inner bottom surface of the central tank portion 10. As shown in FIGS. 1 and 2, may be formed in the bottom surface of the central tank portion 10 so as to be recessed in the downward direction.

The rainwater flowing into the central tank portion 10 during the rainfall may include high concentrations of soil and dirt. The denser soil and the dirt among the high concentrations of the gravel and the dirt are naturally submerged and gather at the bottom of the dirt storage 20. Therefore, the central tank portion 10 can regulate the flow of the rainwater without being disturbed by the denser soil and the dirt.

On the other hand, low-density contaminants float on the water and continue to move through the connection pipe (L). Leaves and general household garbage are examples of low-density contaminants. Such a low-density impurity has a problem of obstructing the flow of the storm. A low-density and high-volume contaminant may be entangled with a high concentration of gravel and the like to increase the volume, and the amount of passage of the cross-sectional area of the connecting pipe L per unit time, that is, the volume of the water, . Therefore, there is a problem that the rainwater can be backwashed during rainfall. However, the non-point pollution reduction apparatus according to the present invention can efficiently treat the low-density contaminants by the filter unit 30 described below.

The filter portion 30 is formed between the central tank portion 10 and the contaminant storage portion 20 to cover a part of the opening 25. [ The filter unit 30 is formed in a net shape to filter contaminants that do not sink to the bottom of the contaminant storage unit 20 because the density of the contaminants contained in the contaminants flowing into the contaminant storage unit 20 through the open unit 25 is low I will.

2, the filter unit 30 may be formed at an interface between the central tank unit 10 and the contaminant storage unit 20 to cover a part of the opening 25. That is, the position or the size of the opening 25 can be adjusted by adjusting the position where the filter unit 30 is formed or the size of the filter unit 30.

Due to such a configuration, the dense contaminants collect on the bottom of the contaminant storage unit 20, and the less dense contaminants are caught by the filter unit 30 and collected in the contaminant storage unit 20. That is, the non-point pollution abatement apparatus according to the present invention can effectively filter both high-density and low-density contaminants.

3 is a cross-sectional view of another embodiment of the non-point pollution abatement device according to the present invention, wherein the filter portion 30 according to the present invention can be formed in various forms.

As shown in FIG. 3A, the filter unit 30 may be downwardly bent to be formed in a letter shape. As a result, not only the storm that passes between the central tank portion 10 and the contaminant storage portion 20 can be filtered, but also the storm that flows inside the contaminant storage portion 20 can be filtered. That is, the effective area for filtration is widened. As shown in FIG. 3B, the filter unit 30 may be bent in two stages, if necessary. The position and shape of the filter portion 30 may vary depending on the flow rate of the storm, which will be described below.

4 is a cross-sectional view showing the flow of water in the apparatus for reducing non-point pollution according to the present invention, which corresponds to a case where the flow of the storm continues to flow in one direction without changing. In this case, the apparatus for reducing non-point pollution according to the present invention has an inlet 11 formed at one side of the central tank 10 and an outlet 12 formed at the other side.

Figure 4a shows the flow of water during rainfall and Figure 4b shows the flow of water when it is not rainfall.

Since the amount of storm is large and the speed is high at the time of rainfall, the rainwater flowing through the inlet 11 shows a flow as shown in FIG. 4A. It is preferable that the filter unit 30 is formed toward the inlet 11 so that the filter unit 30 covers the inlet 11 of the opening 25. As shown by the arrow in FIG. 4A, the rainwater that has flowed through the inlet 11 is directed to the left side (the drawing) of the contaminant storage unit 20 and is then turned through the filter unit 30 and then discharged through the outlet 12. As the storm surpasses the filter unit 30, a bulky and dense impurity is caught in the filter unit 30, and the impurities trapped in the filter unit 30 are stored in the impurity storage unit 20.

If bulky and dense contaminants are not properly treated in the early stages, as mentioned above, they may become clogged with high concentrations of gravels and increase in volume, which can have catastrophic effects on the overall drainage system. However, the non-point pollution abatement apparatus according to the present invention can prevent the non-point pollution abatement apparatus by effectively filtering the small-diameter contaminants at the initial stage in the rainfall with the construction as shown in FIG. 4A.

When there is no rainfall, the amount of storm is small and the speed is low. Therefore, the storm that flows in through the inlet 11 shows a flow as shown in FIG. 4B. It is preferable that the filter portion 30 is formed toward the discharge port 12 so that the filter portion 30 covers the discharge port 12 side of the opening portion 25. [ The rainwater flowing through the inlet 11 is moved to the right side (in the drawing) of the contaminant storage portion 20 as shown by an arrow in FIG. 4B and is discharged through the outlet portion 12 through the filter portion 30. As the storm surpasses the filter unit 30, the filter unit 30 is caught by a bulky and dense impurity. Where the probability of rainfall is low, a bulky and dense contaminant can be filtered at an early stage, as shown in FIG. 4B.

5 and 6 are sectional views of still another embodiment of the non-point pollution abatement apparatus according to the present invention. In the case where the flow of the storm flows, the positions of the inlet 11 and the outlet 12 may be different, and in the case of FIG. 5, the case of discharging the storm to the side where the storm is introduced. However, Fig. 5 corresponds to only one example, and the positions of the inlet 11 and the outlet 12 can be appropriately arranged as required.

Referring to FIG. 5, an inlet 11 may be formed at one side of the central tank portion 10 and an outlet 12 may be formed at the lower side of the central tank 10. At this time, the filter unit 30 may be formed toward the inlet 11. Therefore, the rainwater flowing through the inlet port 11 is directed to the left side (the drawing) of the contaminant storage unit 20 as shown by an arrow in FIG. 5, is changed in direction, passes through the filter unit 30 and is discharged through the outlet port 12 . As the storm surpasses the filter unit 30, a bulky and dense impurity is caught in the filter unit 30, and the impurities trapped in the filter unit 30 are stored in the impurity storage unit 20.

Referring to FIG. 6, in the apparatus for reducing non-point pollution according to the present invention, a grating 40 may be installed at the upper end of the central tank 10. The grating 40 is generally made of iron or cast iron and is formed in a lattice shape and used for a lid of an outdoor drainage port. In addition to the inflow of rainwater into the inlet 11 by this grating 40, the rainwater can also be introduced through the grating 40.

5, the bottom surface of the central tank portion 10 may be inclined toward the discharge port 12 as shown in FIG. This makes it possible to smoothly introduce the unevenness introduced into the central tank portion 10 into the discharge port 12. 5, when the outlet 12 is formed at a predetermined distance away from the bottom surface of the central tank portion 10, a high density of gravel-like material having a high density, which does not sink into the contaminant storage portion 20, To be high.

The non-point pollution abatement apparatus according to the present invention may further include a filter unit 30 in the discharge port 12. [ As shown in FIG. 6, the filter unit 30 is also installed in the discharge port 12 so that contaminants that can not be filtered by the filter unit 30 can be filtered secondarily.

The non-point pollution abatement apparatus according to the present invention may further comprise an inspection port (not shown). The check port is formed at the upper end of the central tank portion 10 and is formed to communicate with the inside of the central tank portion 10. [ A person can access the inside of the central tank portion 10 through such an inspection port. The non-point pollution abatement device according to the present invention effectively filters the impurities as described above, and the filtered impurities flow through the discharge port 12, and the filtered impurities are collected in the impurity storage section 20. Therefore, instead of cleaning the entirety of the central tank portion 10, it is possible to replace only the dirt trapped in the dirt storage portion 20 by the simple cleaning, thereby facilitating maintenance.

10: central tank part 11: inlet
12: exhaust port 20:
25: opening part 30: filter part
40: Grating

Claims (7)

A central tank portion 10 having an inlet 11 and an outlet 12 formed at a position higher than a position of the outlet 12;
A contaminant storage unit 20 formed by being embedded in an inner bottom surface of the central tank unit 10 in an underground direction and having an opening 25 formed thereon,
And a filter unit (30) formed on an interface between the central tank unit (10) and the contaminant storage unit (20) and covering a part of the opening unit (25).
The method according to claim 1,
Wherein a part of the filter unit (30) is bent downward.
The method according to claim 1,
An inlet 11 is formed at one side of the central tank 10 and an outlet 12 is formed at the other side,
Wherein the filter portion (30) is formed toward the inlet (11).
The method according to claim 1,
An inlet 11 is formed at one side of the central tank 10 and an outlet 12 is formed at the other side,
And the filter unit (30) is formed toward the discharge port (12).
The method according to claim 1,
An inlet 11 is formed at one side of the central tank 10 and an outlet 12 is formed at the same side,
Wherein the filter portion (30) is formed toward the inlet (11).
The method according to claim 1,
And a grating (40) is formed on an upper end of the central tank part (10).
The method according to claim 1,
Further comprising an inspection port formed at an upper end of the central tank section (10) and communicating with the interior of the central tank section (10).

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